Field of the Invention The invention relates to covers for container assemblies, and more particularly, to a fabric cover for containers of fiberboard material for use in supporting and containing a corpse therein and a method of attaching such covers to the containers.

Background of the Invention Use of corrugated fiberboard material for coffins or cremation containers is generally known. The advantage of such containers is in their low cost and light weight for transport or shipping and handling purposes versus wood or metal caskets, and, where used as a cremation container, the fiberboard provides a material that is readily burned off. The appearance of coffins or cremation containers is very important, and thus the appearance presented by an inexpensive material, such as fiberboard, for the container can be undesirable.

Summary of the Invention In accordance with the present invention, a fold- able container assembly of fiberboard material is provided which can support and contain a corpse therein solely with the container fiberboard material without the use of wood frame members and the attendant weight and expense asso- ciated therewith.

Brief Description of the Drawings FIG. 1 is a perspective view of the completed container assembly in accordance with the present invention showing the lid of the container on a main body of the container with the lid including a window for viewing the interior of the container assembly; FIGS. 2-5 are perspective views of a body panel of corrugated fiberboard material being folded into assem- bled form for forming an outer body portion of the main container body; FIGS. 6-13 are perspective views of reinforcing fiberboards being assembled and attached in the interior of the assembled outer body portion; FIGS. 14-23 are perspective views of a fluid containment panel being folded into assembled form for forming an inner fluid containment portion of the main container body and showing the placement and attachment of the assembled fluid containment portion in the container interior; FIGS. 24-31 are perspective views of an outer lid panel being folded into assembled form for forming an outer lid portion including window-forming parts and reinforcing boards; FIGS. 32-39 are perspective views of an inner lid panel being folded into assembled form for forming an inner lid portion including window-forming parts and reinforce- ment boards; FIGS. 40-43 are perspective views of the assembly of the lid including the attachment of the assembled inner and outer lid portions together with a lid-stiffening panel therebetween; FIGS. 44-45 are perspective views of the assem- bled lid and showing the installation of a window unit on the lid; FIG. 46 is an exploded perspective view of the window unit of FIGS. 44 and 45; and

FIG. 47 is a perspective view of a compact trans- port container for the container assembly portions of the present invention.

FIG. 48 is a perspective view of another completed container assembly in accordance with the present invention showing the lid having small and large sections which are removed off from a main container body of the container assembly; FIG. 49 is a perspective view of the container assembly of FIG. 48 with an alternative small lid section having a window unit; FIG. 50 is a perspective of an outer body portion of the main container body being bent or collapsed to a predetermined transport orientation for being placed in a compact transport container; FIGS. 51-53 are plan views of panels of corrugated fiberboard material including fold lines for being folded into the compact transport container, the outer body portion and a fluid containment portion, respectively; FIGS. 54-58 are plan views of reinforcing fiberboards for being attached between the outer body portion and the fluid containment portion in the main container body; FIGS. 59 and 60 are plan views of the preassembly of the end fiberboards to the outer body portion bent to its predetermined transport orientation and placed in the compact transport container; FIGS. 61-65 are perspective views of the base fiberboard being folded for transport and preassembled into the outer body portion bent to its transport orientation in the transport container; FIGS. 66-68 are perspective views of one of the reinforcement side fiberboards being folded for transport in the transport container;

FIGS. 69-74 are perspective views of the fluid containment panel being folded for transport in the transport container; FIGS. 75-77 are plan views of a lid outer portion panel and both sides of a reinforcing fiberboard for being attached to the panel to form an outer lid portion for the large section of the lid; FIGS. 78-80 are plan views of a lid inner portion panel and both sides of a reinforcing fiberboard for being attached to the panel to form an inner lid portion for the small section of the lid; FIGS. 81-86 are plan views of the lid inner and outer portion panels for the large lid section being folded for transport in the transport container; FIGS. 87-92 are plan views of the reinforcing fiberboards for the outer and inner lid panels for the large lid section being folded for transport in the transport container; FIGS. 93 and 94 are plan views of a lid outer portion panel and a reinforcing fiberboard for being attached to the panel to form an outer lid portion for the small lid section; FIGS. 95 and 96 are plan views of a lid inner portion panel and a reinforcing fiberboard for being attached thereto to form an inner lid portion for the small lid section; FIGS. 97-99 are perspective views of the assembly of the inner lid portion of the small lid section; FIGS. 100-102 are perspective views of the assembly of the outer lid portion of the small lid section; FIGS. 103-105 are perspective views of the assembly of the small lid section's inner and outer lid portions to form the small lid section; FIGS. 106A and 106B taken together is a perspective view showing the packing of the folded panels, fiberboards and the completed small lid section into the

transport container having the partially preassembled outer body portion bent into its transport orientation therein; FIGS. 107 and 108 are perspective views of the container outer body portion being bent open from its predetermined transport orientation and having the reinforcing end boards and base board substantially preassembled therein; FIG. 109 is a perspective view of the container outer body portion folded out to its predetermined operative orientation and showing the base thereof including access flaps for completing the attachment of the base reinforcing fiberboard to the base of the outer body portion; FIG. 110 is a perspective view of the assembly of the side reinforcing fiberboards into the outer body portion; FIGS. 111-114 are plan and perspective views of the assembly of the fluid containment portion into the outer body portion having the reinforcing fiberboards attached therein to complete the assembly of the main container body; FIGS. 115-117 are perspective views of the assembly of the inner lid portion of the large lid section; FIGS. 118-120 are perspective views of the assembly of the outer lid-portion of the large lid section; FIGS. 121 and 122 are perspective views of the assembly of the large lid section's inner and outer lid portions to form the large lid section; FIGS. 123-126 are views of the assembly of one- half of a hinged cover for the window unit of the alternative small lid section; FIGS. 127-130 are views of the assembly of the other half of the hinged cover for the window unit; FIGS. 131 and 132 are plan views of panels of corrugated fiberboard material for an outer body portion and a fluid containment portion of another alternative

container assembly in accordance with the present invention; FIGS. 133-137 are plan views of reinforcing fiberboards for being attached between the outer body portion and the fluid container portion in the main container body; FIGS. 138 and 139 are plan views of a lid outer portion panel and a segmented reinforcing fiberboard for being attached to the panel to form an outer lid portion for the large section of the lid; FIGS. 140 and 141 are plan views of a lid inner portion panel and a segmented reinforcing fiberboard for being attached to the panel to form an inner lid portion for the large section of the lid; FIG. 142 is a perspective view of the large section of the lid partially assembled and back folded into a compact transport orientation for placement into the transport container; FIGS. 143 and 144 are plan views of a lid outer portion panel and a reinforcing fiberboard for being attached to the panel to form an outer lid portion for the small lid section; FIGS. 145 and 146 are plan views of a lid inner portion panel and a reinforcing fiberboard for being attached thereto to form an inner lid portion for the small lid section; FIGS. 147 and 148 are plan views of the panels for the outer and inner portions of the small lid section, respectively, showing release tape covering adhesive around the window openings in the panels for adherence of a decorative fiber cover thereto; FIGS. 149 and 150 are plan views of a door panel and reinforcing fiberboard for being attached to the panel to form a door for covering the window in the small lid section;

FIG. 151 is a perspective view of the transport container including the main body portion partially preassembled therein and the large lid section partially assembled and folded into its transport orientation for being placed in the container along with the side fiberboards, fluid containment portion, and the small lid section.

FIG. 152 is a perspective view of an assembled box container and a folded up fabric cover therefor; FIG. 153 is a perspective view of the cover unfolded for inserting a skirt portion thereof into the box container and showing predetermined locations of adhesive provided on the cover; FIG. 154 is a perspective view of the cover with its skirt portion in the interior of the box container and the remainder of the cover extending down along the exterior of the box container with a portion below the bottom of the container; FIG. 155 is a perspective view of the cover being attached on the interior surface of the box container walls adjacent the top thereof; FIGS. 156 and 157 are perspective views of the box container turned over for attaching the cover portion to the base of the box container by way of the preapplied adhesive on the cover and container; FIGS. 158 and 159 are perspective views showing the box turned right side up with the cover adhered thereon with a liner and padded material being inserted onto the base of the box container in the interior thereof; FIG. 160 is a perspective view of the outer portion of the large lid section of Fig. 142 and a flexible cover therefor with the lid outer portion bent for fitting into a peripheral pocket of the lid cover; FIG. 161 is a perspective view of the large lid section outer portion inserted in the lid cover pocket and

being adhered thereto with locating jigs placed at the corners of the covered lid section; FIG. 162 is a perspective view of the inner portion of the large lid section of Fig. 142 and a flexible cover therefor with the large lid section inner portion and cover being adhered onto the covered large lid section outer portion via the locating jigs; and FIG. 163 is a perspective view of the covered box container and covered lid therefor.

Detailed Description of the Preferred Embodiment In FIG. 1, a container assembly 10 of fiberboard material in accordance with the present invention is illustrated. The container assembly 10 includes a main body 12 and a container lid 14 for being placed over an opening 16 of the container body 12 leading to the interior 18 thereof (FIG. 23). As the body 12 and lid 14 are formed of corrugated fiberboard, they will typically have a brown coloration thereto. It is preferred that the outside or exposed surfaces of the container body 12 and lid 14 be either bleached white or otherwise colored and/or covered with a decorative fabric or cloth material to present a more aesthetically acceptable appearance to the exterior of the assembly 10. In this manner, it will be difficult for an observer to determine the low-cost nature of the material from which the container 10 is formed.

The main container body 12 is formed from an outer body portion 20 which has a predetermined orientation for assembly purposes, preferably of a rectangular box (FIG. 5), and an inner fluid containment portion which has a predetermined orientation for assembly purposes that is preferably similar to the body portion predetermined orien- tation of a rectangular box (FIG. 16). Both the outer body portion 20 and inner fluid containment portion 22 are formed from respective panels 24 and 26 of corrugated

fiberboard material, and each having a plurality of fold lines generally designated 28 and 30 for the respective panels 24 and 36. The present container assembly 10 can be shipped in a very compact form, such as in a small trans- port container (FIG. 47) in the form of a small rectangular box of approximately 25.5 inches by 13.25 inches by 37 inches for fitting several of such containers into auto- mobile trunks and then assembled into a final assembled form which is larger than the small transport container by folding of the panels 24 and 26 in a quick and easy manner, as will be more fully described hereinafter. In addition, the use of fiberboard material for the container assembly 10 makes it relatively light weight in comparison to wood or metal caskets which is desirable during transport of the container assembly 10. The fluid containment fiberboard panel 26 can be treated so as to be waterproofed against fluid leakage therefrom when assembled, as will be described herein.

The panels 24 and 26 are folded into their pre- determined orientation for assembly of the main container body 12 without the need for any fasteners and/or rigid framing members to maintain its shape or to support the loads to be handled by the container assembly 10 as in many prior art fiberboard containers. One reason the main container body 12 does not need rigid wood support framing members is that the fluid containment portion 22 is formed from corrugated fiberboard material similar to the outer body portion 20 of the main container body 12 such that when the inner fluid containment portion 22 is placed in the outer body portion 20, the inner fluid containment portion 22 will act to add strength to the body portion 20 to assist in supporting the loads to which the container assembly 10 is to be subjected. Thus, even though the container assembly 10 herein is made light weight fiber- board, it is effective to support relatively heavy weights, e. g., corpses, without the need for wood framing members.

Referring to FIG. 5, the rectangular outer body portion 20 includes base 32 and walls 34 upstanding from the periphery of the base 32. Similarly, referring to FIG.

16, the inner fluid containment portion 22 includes base 36 and walls 38 upstanding from the periphery of its base 36.

The body panel 24 and, accordingly, the base 32 and walls 34 of the outer body portion 20, have a predetermined thickness of preferably approximately 3/16 inch. The containment panel 26 and, accordingly, the base 36 and the walls 38 also have a predetermined thickness of preferably approximately 3/16 inch.

When the inner fluid containment portion 22 is placed in the outer body portion 20, the containment portion base 36 will be disposed over the body portion base 32 with walls 38 of the containment portion 22 being adja- cent corresponding walls 34 of the body portion 20 so as to increase their thickness by at least the thickness of the body panel 24 to provide them with greater strength and rigidity for load bearing purposes. When the outer body portion 20 is folded to its assembled orientation of FIG.

5, adjacent walls 34 thereof will be in abutment with each other along corner seams 40. The fluid containment portion 22 is placed in the outer body portion 20 to minimize leak- age of fluid from the main container body 12, and particu- larly from the corner seams 40 thereof. In this regard, the inner fluid containment portion 22 is provided with sealing gussets 42 along the bottom sections 38a of adja- cent walls 38 thereof so as to avoid the formation of a seam thereat for fluid flow therethrough. Thus, the present fluid containment portion 22 is effective to provide both sealing and load supporting functions for the container assembly 10 herein.

It is also contemplated that the container assem- bly 10 utilize reinforcing fiberboard 44 having an internal honeycomb structure preferably approximately 0.50 inches thick between the outer body portion 20 and inner fluid

containment portion 22 to add strength to the container assembly 10 as shown in FIGS. 6-13. The preferred con- struction of the main container body 12 including the outer body portion 20 and inner fluid containment portion 22 with the reinforcing fiberboard 44 therebetween will next be more specifically described with reference to FIGS. 2-23.

For purposes of reference in the description, the rectan- gular configuration of the container assembly 10 will be used wherein the container assembly 10 has an elongate top and bottom 46 and 48 with elongate sides 50 and 52 extend- ing longitudinally along the length of the box container assembly 10 between the top and bottom 46 and 48 with shorter transverse ends 54 and 56 completing the box container assembly 10, as shown in FIG 1.

Referring FIG. 2, the body panel 24 can include first and second body panel portions 58 and 60 which can be attached together to form the body panel 24. This provides for space savings as during shipping, the panel portions 58 and 60 can be stacked one on top of the other so as not to take up as much space in the widthwise or transverse direction, with the stacking only nominally adding to the thickness of the relatively thin panels. Alternatively, where the panels can not be stacked due to space con- straints, it is possible to fold them into a collapsed state for fitting into a compact transport container as previously mentioned and as will be more particularly described hereinafter. Because the outer body portion 20 is larger than the inner fluid containment portion 22, the body panel 24 is necessarily somewhat larger than the corresponding fluid containment panel 26. However, when the body panel portions 58 and 60 are separated from each other, the fluid containment panel 26 will be slightly larger than the individual panel portions 58 and 60, particularly in the widthwise or transverse direction.

Accordingly, the widthwise dimension which needs to be accommodated for shipping of the unfolded panel portions 58

and 60 is less than if the body panel 24 was a single fiberboard piece. Thus, the greatest width that must be accommodated during shipping is that of the unfolded containment panel 26.

Before assembling the outer body portion 20, the body panel portions 58 and 60 are attached together as by tongue keys 62 and correspondingly shaped tongue-receiving sockets 64 provided on the inner edges 66 and 68 of the panel portions 58 and 60, respectively. As shown in the drawings, inner edge 66 can be provided with one tongue key 62 and one socket 64 with the edge 68 having a tongue key 62 and socket 64 in reversed positions relative to the edge 66. To attach the panel portions 58 and 60, the tongue keys 62 are aligned with and pressed into the opposite sockets 64 so as to bring the edges 66 and 68 flush together, as best seen in FIG. 3. Thereafter, a piece of tape 70, such as a strong fiber tape, can be run over the abutting edges 66 and 68 to secure the panel portions 58 and 60 together.

Assembly of the outer body portion 20 will next be described. Longitudinal fold lines 72 and 74 are formed on the panel portions 58 and 60, respectively. As seen best in FIG. 3, when the panel portions 58 and 60 are attached together to form the body panel 24, small rectan- gular openings 76 and 78 are formed facing oppositely each other at either end of the joined inner edges 66 and 68.

The rectangular openings 76 and 78, in turn, open to respective hex-shaped openings 80 and 82 with opening 80 formed by inclined or bevelled edges 84a on panel portion 58 and bevelled edge 84b on panel portion 60 which extend from the rectangular opening 76 transversely and longitu- dinally away from each other and bevelled edges 86a on panel portion 58 and bevelled edge 86b on panel portion 60 which extend longitudinally and transversely back towards each other to a transverse edge 88 which spans the panel portions 58 and 60. The hex-shaped opening 82 is similarly

formed on the opposite end of the body panel 24 by bevelled edges 90a of panel portion 58 and 90b of panel portion 60 which extend longitudinally and transversely away from each other and bevelled edges 92a and 92b which extend longitu- dinally and transversely back towards one another to a transverse edge 94 spanning the two panel portions 58 and 60. The fold lines 72 and 74 extend longitudinally parallel to each other and are spaced from the edges 66 and 68 of their respective panel portions 58 and 60 so as to intersect the juncture of the bevelled edges 84,86 and 90, 92. It is preferred that the inclination of the bevelled edges 84,86,90 and 92 be at an angle of 45° to the fold lines 72 and 74.

In addition to the longitudinal fold lines 72 and 74, each panel portion 58 and 60 includes a pair of width- wise or transverse fold lines with panel portion 58 having transverse fold lines 96 and 98 and panel portion 60 having transverse fold lines 100 and 102. The transverse fold line 96 of panel portion 58 and fold line 100 of panel portion 60 are aligned with each other when the panel portions 58 and 60 are attached together, and the trans- verse fold lines 98 and 102 are aligned together when the panel portions 58 and 60 are attached together. The transverse fold lines 96 and 98 of the panel portion 58 extend at one end from flap slits 104 and 106 to their other end at the juncture of bevelled edges 84a and 86a and bevelled edges 90a and 92a, respectively. Similarly, the transverse fold lines 100 and 102 extend at one end from flap slits 108 and 110 to their other end at the juncture of bevelled edges 84b and 86b and bevelled edges 90b and 92b, respectively.

Thus, to fold the body panel 24 into the body portion 20, the panel portions 58 and 60 are folded up about their respective fold lines 72 and 74 as shown in FIG. 4 where panel portion 60 is undergoing such folding so as to form sidewalls 112 and 114 of the walls 34 of body

portion 20. The folding about lines 72 and 74 occurs until the sidewalls 112 and 114 are raised to extend perpendicu- lar to the base 32.

As the longitudinal fold lines 72 and 74 extend the entire length of the panel portions 58 and 60, the longitudinal fold line 72 along with bevelled edges 86a and 92a define respective triangular sections 116 and 118 of the panel portion 58 and longitudinal fold line 74 along with bevelled edges 86b and 92b define respective triangu- lar sections 120 and 122 of the panel portion 60.

To form end walls 124 and 126 and to complete the bottom base wall 32 for the base portion 20, the panel por- tion 58 is folded about its transverse fold lines 96 and 98 so as to be at right angles to the sidewall 112 and the triangular sections 116 and 118 are folded about longitu- dinal fold line 72 so as to be at right angles to the end walls 124 and 126 with the triangular sections 116 and 118 fitting in corresponding portions of respective hex open- ings 80 and 82 and rectangular openings 76 and 80 so that the bevelled edge 86a abuts flush against the bevelled edge 84a and the bevelled edge 92a of the triangular portion 118 abuts flush against the bevelled 90a. The other base por- tion 60 is folded similarly to base portion 58 to complete the end walls 124 and 126 and the bottom base wall 32, as shown in FIG. 4.

Referring to FIG. 5, when the base panel 24 is folded into its predetermined rectangular box orientation with the base wall 34 and the sidewalls 112 and 114 and the end walls 124 and 126 upstanding perpendicularly therefrom, additional fabric tape 130 can be run along the joint 132 formed in the end wall 126 between the two folded up panel portions 58 and 60 and between the abutting triangular sections 118 and 122 of the respective panel portions 58 and 60. A similar piece of tape (not shown) can be run along the joint 134 in end wall 124 and abutting triangular sections 116 and 120 of the base wall 32. The use of tape

130 keeps the body portion walls 34 in their upstanding condition without the need for wood framing members as in prior fiberboard containers.

As previously mentioned, to enhance the strength and rigidity of the container assembly 10, it is preferred to utilize reinforcing fiberboard panels 44 therein. The fiberboard panels 44 can have pressure sensitive adhesive 138 on both sides thereof such as in strips under adhesive cover strips 140. FIGS. 6-8 illustrate the installation of reinforcing base fiberboard 142 onto the top of bottom base wall 32 of body portion 20. The reinforcement base fiber- board 142 can have an intermediate transverse joint 142a to allow the base board 142 to be folded in half so it can be folded smaller for shipping purposes. When the board 142 is open and unfolded, its length is substantially that of the base wall 32 between end walls 124 and 126 with its width also corresponding to that of the base wall 32 between sidewalls 112 and 114. After opening of the board 142 as shown in FIG. 6, the cover strips 140 can be peeled from one side thereof to expose the pressure sensitive adhesive 138 thereunder. The board 142 can then be flipped over and placed into the body portion 20 with the exposed adhesive 138 engaging the top of the bottom base wall 32.

The board 142 can then be pressed so as to provide good adherence between the board 142 and base wall 128 with the pressure sensitive adhesive 138.

Reinforcing end boards 144 and 146 are also provided for being inserted into the body portion 20 and adhered to the inside of respective end walls 124 and 126 thereof. The end boards 144 and 146 have substantially the same transverse dimension as the body portion end walls 124 and 126 between sidewalls 112 and 114, but are shorter in height for reasons to be described hereinafter. On one side, the bottom corner sections of the end fiberboards 144 and 146 have their honeycomb structure compressed so as to provide bottom corner wells 148, as best seen in FIG. 9.

To attach the boards 144 and 146 in the body portion 20, the cover strips 140 on the side of the boards 144 and 146 opposite the side in which the wells 148 are formed are peeled to expose the adhesive 138 on that side and the boards 144 and 146 are inserted into the body portion 20 so as to abut the top of the board 142 at their bottom; how- ever, because of the height differential, the end walls 124 and 126 will have a portion which extends beyond the top of respective boards 144 and 146. With the boards 144 and 146 so attached in the body portion 20, when the fluid contain- ment portion 22 is inserted into the body portion 20 as will be more fully described hereinafter, the sealing gussets 42 of the fluid containment portion 26 can be disposed in the wells 148.

FIGS. 11-13 illustrate the installation of rein- forcing side fiberboards 150 and 152 into the container body portion 20. The reinforcing side fiberboards 150 and 152 have a length slightly shorter than corresponding body portion sidewalls 112 and 114 to which they are to be attached due to the thickness of attached end boards 144 and 146, and similar to reinforcing end fiberboards 144 and 146, they have a height which is shorter than the corre- sponding sidewalls 112 and 114 for reasons to be discussed hereinafter. Similar to the reinforcing base fiberboard 142, the side fiberboards 150 and 152 can be provided with transverse joints 150a and 152a, respectively, so that they can be folded during their transport and unfolded for installation into body portion 20. The side fiberboards 150 and 152 are installed into the body portion 20 in a similar fashion as to the other fiberboards by the peeling of cover strip 140 from one side of the boards 150 and 152 to expose the adhesive 138 thereon so that side can be pressed against the interior of the corresponding sidewalls 112 and 114 of the body portion 20 with the bottom of the boards 150 and 152 in engagement with the top of the base board 142 and the sidewalls 112 and 114 extending beyond

the top of the boards 150 and 152 due to the height differ- ential therebetween.

Turning now to the assembly of the inner fluid containment portion 22, reference will be made to FIGS.

14-16. As seen in FIG. 14, the fluid containment panel 26 is shown in a generally flat configuration and is provided with a plurality of fold lines 30 to assemble it in its operative rectangular box orientation, as shown in FIG. 16.

The fold lines 30 include a pair of spaced, parallel longi- tudinal fold lines 154 and 156, and spaced, parallel trans- verse fold lines 158 and 160. The spaced longitudinal fold lines 154 and 156 intersect the transverse fold lines 158 and 160 and define inner joints of the gussets 42 with the fluid containment portion walls 164-170. Gusset diagonal fold lines 162 extend from the point at which the longitu- dinal fold lines 154,156 and the transverse fold lines 158,160 intersect each other to the opposite corner of the gusset 42.

To assemble the fluid containment portion 22, the panel 26 is folded about the fold lines 154 and 156 to form sidewalls 164 and 166 of the fluid containment portion 22 and about the transverse fold lines 158 and 160 to form end walls 168 and 170 of the fluid containment portion 22.

Similar to the body portion 20, the sidewalls 164 and 166 and end walls 168 and 170 are folded so as to extend perpendicular from the fluid containment base 36. As the walls 164-170 are folded up to their perpendicular orien- tation, the gussets 42 will also be folded to extend out about the intersecting fold lines 154,156 and 160,162, and creased along their fold lines 162 so as to bring the two gusset halves 170 and 172 on either side of the fold line 162 together. With the gusset halves 172 and 174 collapsed together, they can be folded towards their respective end walls 168 and 170 so as to protrude slightly beyond the surface of the end walls, as shown in FIG. 16.

Thus, by the provision of gussets 42 along the bottom

sections 38a of the fluid containment portion walls 38 which include the juncture of the bottom sections of the sidewalls 164 and 166 with the end walls 168 and 170, there is no seam or flow path for fluids formed therebetween. In this manner, when the fluid containment portion 22 is inserted into the reinforced body portion 20, the fluid containment portion 22 will act to minimize any fluid leak- age from the main container body 12.

The base 36 and walls 38 of the fluid containment portion 22 have similar dimensions to the corresponding reinforcing fiberboard panels 44 so that the body portion walls 34 extend beyond the height of the fluid containment portion walls 38 when the fluid containment portion 22 is installed in the reinforced body portion 20, as described below. As the fluid containment portion 22 has dimensions such that it is to be tightly fit into the reinforced body portion 20, the fluid containment panel 26 is provided with diagonal and transverse bending lines 176 and 178, respec- tively, with the transverse bend line 178 extending across the entire panel 26. The bending lines 176 and 178 allow the fluid containment portion 22 to be bent for installa- tion into the reinforced body portion 20. In this manner, when the fluid containment portion 22 is assembled, as shown in FIG. 16, a pair of diagonal bend lines 176 and a section of the transverse bend line 178 will be provided in each sidewall 164 and 166 to circumscribe triangular por- tions thereof.

To insert the fluid containment portion 22 into the reinforced body portion 20, the end walls 168 and 170 can be pushed towards each other with the bend lines 176 and 178 in the sidewalls 164 and 166 allowing these walls to bend or collapse at the circumscribed triangular side- wall portions about the bend lines 176 and 178 in an accordion-style fashion so as to bring the end walls 168 and 170 closer to each other with the upper ends of the transverse bend lines 178 of each sidewall 164 and 166

moving towards one another, as shown in FIG. 17. Bending the fluid containment portion 22 shortens its length so that it can more readily fit between the reinforced end walls 124 and 126 having the end boards 144 and 146 attached thereto.

In addition to facilitating insertion, the bend- ing of the fluid containment portion 22 facilities attach- ment to the top of the reinforcing base fiberboard 142.

Referring to FIG. 18, once the fluid containment portion 22 is placed inside the body portion 20, one portion or half 22a of the fluid containment portion 22 is bent up off the reinforcement base fiberboard 142 so as to allow the cover strips 140 to be peeled to expose the adhesive 138 thereon.

In addition, with the fluid containment portion 22a pivoted up, it is preferred that the corresponding fluid contain- ment end wall 168 be pivoted or folded back down onto the top of the base 36 about fold line 160 with such pivoting down of end wall 168 causing the corresponding folded gusset portions 172 and 174 to unfold and move against the adjacent sidewall 164 or 166. With the adhesive 138 exposed, the fluid containment portion 22a can be pivoted back down onto the exposed adhesive 138 and pressed thereon so as to secure the fluid containment portion half 22a against the base fiberboard 142. With the fluid con- tainment portion 22 so secured, the same process can be repeated with the fluid containment portion 22b pivoting it up off of the base fiberboard 142 by bending about bend lines 176 and 178, peeling cover strips 140 to expose adhesive 138 and pressing it pack down onto the exposed adhesive 138 to attach the fluid containment base wall 36 to the reinforcement base fiberboard 142. In addition, the fluid containment portion end wall 170 can be pivoted down as described with respect to end wall 168.

After the fluid containment portion bottom wall 36 is secured and adhered to the base fiberboard 142, the fluid containment portion sidewalls 164 and 166 can be

attached to the inside surfaces of respective reinforcement side boards 150 and 152. To do this, the fluid containment sidewalls 164 and 166 are folded over their respective longitudinal fold lines 154 and 156 and down onto the fluid containment portion base 36 and the containment portion end walls 168 and 170 folded thereon. Adhesive 138 and cover strips 140 on the inside surface of the reinforcing side fiberboards 150 and 152 are provided. After the cover strips 140 have been peeled off to expose the adhesive on the fiberboards 150 and 152, the corresponding fluid con- tainment portion sidewall 164 and 166 can be pivoted back up against the corresponding side fiberboards 150 and 152 and pressed thereagainst so as to secure and adhere the fluid containment portion sidewalls 164 and 166 against their corresponding reinforcement side fiberboards 150 and 152, respectively.

With the fluid containment portion sidewalls 164 and 166 so attached, the fluid containment portion end walls 168 and 170 can next be pivoted up to be attached to corresponding reinforcement end fiberboards 144 and 146.

Referring to FIG. 20, the cover strip 140 can be peeled from the inside surface of the end boards 144 and 146. The end walls 168 and 170 can then be pivoted up to be brought against the exposed adhesive 138 on the end boards 144 and 146 with such pivoting causing the opened gusset halves 172 and 174 to be folded about their diagonal fold lines 162.

Once the end walls 168 and 170 are pivoted up into engage- ment with the adhesive 138 on the end boards 144 and 146, they can be pressed thereagainst to obtain good adhesive sticking therebetween.

With the end walls 168 and 170 adhered to the corresponding end boards 144 and 146, the gusset halves 172 and 174 will be folded together and against their corre- sponding end walls 168 and 170, as previously described and shown in FIG. 21. The inwardly facing wells 148 in the end boards 144 and 146 accommodate the folded together gusset

halves 172 and 174 so as to permit the end walls 168 and 170 to be pressed flush against the inside surface of the end boards 144 and 146.

As previously indicated, the reinforcement fiber- boards 44 and the fluid containment portion walls 38 are of approximately the same height which is less than the height of the body portion walls 34 before final assembly into the main container body 12. In this regard, the body panel 24 has longitudinal fold lines 180 on panel portion 58 and longitudinal fold lines 182 on panel portion 60, shown in FIGS. 2 and 3. The flap fold lines 180 of base panel por- tion 58 include a pair of closely adjacent parallel longi- tudinal flap fold lines 180a and 180b with longitudinal flap fold line 180a spaced from the outer edge 184 of the flap portion 58 so that the flap slits 104 and 106 general- ly bottom out along the fold line 180a. Similarly, flap fold line 182 of base panel portion 60 includes a pair of closely adjacent parallel longitudinal flap fold lines 182a and 182b with flap fold line 182a spaced from base portion outer edge 186 so that the flap slits 108 and 110 generally bottom out along the fold line 182a. The height of the reinforcement end and side fiberboards 144 and 146 and 150 and 152 and the height of the fluid containment side and end walls 164 and 166 and 168 and 170 substantially corre- spond to the distance between the fold lines 72 and 180b and the fold lines 74 and 182b of the body panel 24 so that with the fiberboard panels 44 and the fluid containment portion 22 adhered in the body portion 20, there will be upper flap sections 188 of the body portion walls 34 which extend beyond the height of the end and side fiberboard panels 144 and 146 and 150 and 152 and the corresponding fluid containment side and end walls 164 and 166 and 168 and 170.

At the top of the inside surfaces of the fluid containment sidewalls 164 and 166 and end walls 168 and 170, there is provided pressure-sensitive adhesive 138

covered by cover strip 140 similar to that provided on the reinforcing fiberboards 44. To complete the main container body 12, the cover strips 140 are peeled from the adhesive 138 and the upper flap sections 188 are folded first down about fold lines 180b and 182b to extend perpendicular to their respective body portion walls 34. The distance between flap fold lines 180a and 180b, and 182a and 182b substantially correspond to the combined thickness of the fiberboard 44 and adjacent attached containment portion walls 38 to allow the flap sections 188 to be folded down about fold lines 180a and 182a into the container interior 18 against the exposed adhesive 138 at the top of the inside surfaces of the containment portion walls 38. The flap slots 104-110 provide the requisite clearance for folding of the flaps 188 down against the exposed adhesive 138 on the containment portion walls 38. In this manner, the containment portion walls 38 and the adjacent rein- forcing boards 44 are positively captured between the folded down flap sections 188 and the remainder of the upstanding body portion walls 34 to form the main container body 12 as a structurally sound, sturdy, self-supporting piece which does not require any additional framing members to lend it rigidity or strength, as best seen in FIG. 23.

Thus, the container assembly 10 herein includes a main container body 12 formed from a combination of an outer body portion 20 and an inner fluid containment portion 22 which sandwich reinforcing fiberboard panels 44 therebetween to form a very high strength and rigid container body 12 having triple layered sidewalls 50 and 52, end walls 54 and 56 and a base wall 48. The main container body 12, in addition to using the reinforcing fiberboard panel 44, utilizes the fluid containment portion 22 to further strengthen the body 12 for supporting loads to be taken thereby. In addition, because of its entirely fiberboard construction, the present container assembly 10 is relatively inexpensive to manufacture and ship due to

its lightweight. In this regard, the container assembly 10 should include a corrugated fiberboard lid 14 to form the top 46 of the container assembly 10 for closing off the opening 16 to the interior space 18 of the container body 12.

As shown in FIG. 1, when placed on the container body 12, the container lid 14 does not extend beyond the container walls 50-56 so as to present an entirely enclosed rectangular box shape for the container assembly 10. The container lid 14 is preferably formed from first and second rectangular lid portions 192 and 194 with the rectangular lid portion 194 having dimensions slightly smaller than the rectangular lid portion 192 and being centrally attached thereto so as to form a shoulder or lip 196 around the smaller lid portion 194. The smaller or inner rectangular lid portion 194 is sized so as to fit through the opening 16 and in the interior space 18 when the lid 14 is placed on the main container body 12 with the shoulder 196 resting on the top of the container walls 50-56.

Turning first to the construction of the larger outer rectangular lid portion 192, reference will be had to FIGS. 24-31. FIG. 24 illustrates a flat, unfolded outer lid panel 198 having bevelled corners 200. A pair of adjacent, closely spaced longitudinal fold lines 202 extend lengthwise of the panel 198 terminating at intermediate points along longitudinally opposite bevelled corners 200.

Similarly, on the opposite side of the panel 198, a pair of adjacent closely spaced longitudinal fold lines 204 extend the length of the panel 198 between midpoints of longitu- dinally opposite bevelled corners 200. A pair of adjacent closely spaced transverse fold lines 206 extend between intermediate points of transversely opposite bevelled corners 200, and a pair of adjacent closely spaced trans- verse fold lines 208 extend between intermediate points of bevelled corners 200 at the opposite end of the panel 198.

Slots 210 are formed around the periphery of the panel 198

between the fold lines 202-208 and the corresponding exterior edges of the panel 198. A substantially square window opening 212 is formed on one end of the panel 198 spaced inwardly from the transverse fold lines 208.

Window parts generally designated 214 for the outer lid panel 198 include a substantially square plastic window frame 214 and a substantially square fiberboard window member 218 having a centered substantially square opening 220 formed therein. The window member 218 is coated with pressure sensitive adhesive 222 on both sides thereof with square covering sheets 224 covering the adhe- sive 222 on either side of the window member 218.

To assemble the outer lid portion 192, outer flaps 226 of the outer lid panel 198 are folded up about the innermost fold lines of the pairs of fold lines 202-208 so that the flaps 226 extend substantially perpendicularly to the remainder of the panel 198. The plastic window frame 216 is then placed in the window opening 212 with the outer edges 216a of the frame in tight abutment against the edges 212a of the window opening. The cover sheets 224 are peeled from the window member 218 and it is adhered onto the lid panel 198 with the raised inner edges 216b of the window frame 216 in registry with the square opening 220 of the window member 218. In this regard, it will be noted that the window opening 220 has slightly shorter sides than the window opening 212 of the panel 198. In addition, the window opening 220 has notches 227 formed on opposite sides thereof for purposes to be described hereinafter. To complete the outer lid portion 192, a honeycomb fiberboard panel 228 which is jointed at 228a so that it can be folded onto itself is provided. Similar to the previously described fiberboard panels 44, the fiberboard panel 228 has adhesive strips 138 provided thereon covered by cover- ing strips 140. To attach the fiberboard panel 228 onto the outer lid panel 198 adjacent the window member 218, the strips 140 on one side thereof are removed and the panel is

flipped over and placed down against the outer lid panel 198, as indicated in FIGS. 27 and 28. In this manner, the entire inside surface of the panel 198 will be covered by the abutting window member 218 and panel 228, as shown in FIGS. 29-31.

With the window member 218 and panel 228 in place on the outer lid panel 198, the strips 140 on the upwardly facing side of the panel 228 can be removed to expose the adhesive 138 thereunder, as illustrated in FIG. 29. The folded up flaps 226 can then folded down about the outer- most fold lines of the pairs of flap fold lines 202-208 onto the exposed adhesive 138 with the peripheral slots 210 now located around the folded down flaps 226, as shown in FIG. 31.

The preferred assembly of the inner lid portion 194 will next be described. Inner lid portion 194 is formed from an inner lid panel 230 similar to outer lid panel 198, but slightly smaller relative thereto. The inner lid panel has bevelled corners 232 and pairs of longitudinal fold lines 234 and 236 with each pair including lines that are adjacent and closely spaced relative to each other and extending longitudinally between midpoints at longitudinally opposite bevelled corners 232.

Pairs of transverse fold lines 238 and 240 are also provided with each pair including lines that extend adjacent and closely spaced relative to each other and extending transversely across the panel 230 to midpoints of transversely opposite bevelled corners 232. Rectangular die cuts 242 are formed around the periphery of the panel 230 and extend towards the exterior edges thereof from the outside fold lines of the pairs of fold lines 234-240 of the panels 230, as best seen in FIG. 32. A substantially square window opening 244 is formed in the panel 230 adjacent the transverse fold lines 240 spaced inwardly therefrom.

Referring to FIG. 33, window parts generally designated 246 are shown. The window parts 246 include a substantially square plastic window frame 248 and a sub- stantially square fiberboard window member 250 similar to the fiberboard window member 218 in that it includes a centrally positioned square opening 252 formed therein and is coated with pressure sensitive adhesive 222 on both sides thereof and covered with cover sheets 224.

To assemble the inner lid portion 194, peripheral flaps 254 of the panel 230 are folded up about the inner- most fold lines of the pairs of fold lines 234-240 so as to extend perpendicularly to the remainder of the inner lid panel 230. The window frame 248 is placed in the panel window opening 244 tightly received therein with its outer edges 248a in engagement with the window opening edges 244a. Thereafter, the window member 250 is attached to the panel 230 by peeling the sheets 224 to expose the adhesive 222 thereon with the member 250 then being pressed onto the panel 230 about the window frame 248 with the frame raised inner edges 248b being in registry with and spaced from the edges of the window member opening 252, as can be seen in FIGS. 36-39.

With the window member 250 secured on the panel 230, a fiberboard panel 256 is attached onto the remainder of the lid panel 230 in a manner similar to that of the attachment of fiberboard panel 228 on panel 198. With the window member 250 and panel 256 firmly in place on the lid panel 230 in abutment with each other, the folded up flaps 254 can be folded down about the outermost fold lines in the pairs of fold lines 234-240 so as to bring them into contact with the exposed adhesive 138 of the fiberboard panel 256 and the exposed adhesive 222 of the window frame member 250. Because of the die cuts 242 formed in the flaps 254, as the flaps are folded down about the outer fold lines as shown in FIGS. 38 and 39, the flap material will separate along the die cuts 242 to form rectangular

projecting tabs 258 around the outermost edge 260 of the finished inner lid portion 194 (FIG. 41).

To complete the lid 14, a lid stiffening panel 262 having an upper cut-out 262a for accommodating the window openings 212 and 244 in the lid portions 192 and 194, respectively, is provided. Because the flaps 226 and 254 of the respective lid portions 192 and 194 are folded over onto the respective window members 218 and 250 and fiberboard panel 228 and 256, there is a gap or space that is formed between the lid portions 192 and 194 when they are attached together. Such a gap allows the lid 14 to be more flexible than is desirable when pressure is placed thereon.

Accordingly, the lid stiffening panel 262 is attached to the inner lid portion on the window member 250 and panel 256 so as to take up this space when the lid portions 192 and 194 are attached. In this regard, the stiffening panel 262 has a thickness roughly equivalent to twice the thickness of the panels 198 and 230 since the gap provided by folding over the flaps 226 and 254 will be roughly equivalent to the thickness of their respective panels 198 and 230. Once the stiffening panel 262 is attached on to the window member 250 and panel 256, the lid portions 192 and 194 can be attached to each other. In this manner, loads applied to the outer lid portion 192 will be transmitted to the stiffening panel 262 and the inner lid portion 194 to provide the lid 14 with greater rigidity and strength.

As previously mentioned, the inner lid portion 194 is slightly smaller than the outer lid portion 192, although having the same generally rectangular configura- tion. The relative sizing of the lid portions 192 and 194 is such that with the tabs 158 formed around the exterior edge 260 of the inner lid portion 194, they can be aligned to slide into corresponding slots 210 formed in the flap sections 226 of the outer lid portion 192, as depicted in

FIG. 42. With the inner lid portion 194 flipped over and the tabs 258 aligned with the corresponding slots 210 of the outer lid portion 192, the lid portion 194 can be dropped down onto the lid portion 192 with the tabs 258 fictionally fitting in slots 210 and the lid stiffening panel 262 being tightly captured between the window members 218 and 250 and the fiberboard panels 228 and 256 and adhered thereto so as to somewhat load the tabs 258 in the slots 210 to enhance the strength of the frictional connec- tion therebetween and thus of the connection between the lid portions 192 and 194.

When the lid portions 192 and 194 are attached, their window openings 212 and 244 and corresponding window parts 214 and 246 will be aligned with each other. A window unit 264 is mounted into the window opening 212 of the outer lid portion 192 by flipping over the finished lid 14 of FIG. 43 so as to provide access to the window frame 216 in the window opening 212 thereof. To install the window unit 264, the plastic window frame 216 is removed from the opening 212 to expose portions of the lid stiffen- ing panel 262 under the notches 227 for attaching the window unit 264 thereto. FIG. 45 illustrates the lid 14 having the window unit 264 attached thereto, as by suitable screw fasteners.

FIG. 46 illustrates in exploded view one suitable construction for a window unit 264 that can be used with the lid 14 herein. As shown, the window unit 264 includes hinged covers 266 and 268 attached to glass frames 270 and 272 which capture a glass panel 274 therebetween. The window unit 264 allows the interior 18 of the container 10 to be viewed through the glass 274 by pivoting open of the window covers 266 and 268 without having to remove the lid 14 from the container body 12. Thus, when the deceased is being waked, the decedent's face can be viewed by opening of the window covers 266 and 268.

Another important advantage provided by the pre- sent container 10 is that it can be folded into a small transport container 290 for shipping purposes as opposed to simply shipping the panels 24,26,44,198 and 230 in their flat, unfolded configuration. Where the container 10 has to be transported by automobile before final assembly thereof, the provision of the transport container 290 as seen in FIG. 47 is especially advantageous so that the panels can be folded or collapsed with the panels fitting into the compact container 290 for being placed in the trunk of an automobile for transportation. To provide for such folding, the fold lines 28 for the body panel portions 58 and 60 include additional transverse fold lines 266,268 and 270 spaced longitudinally at approximately equal intervals along the length of the body panel portions 58 and 60. Similarly, the fold lines 30 for the fluid containment panel 26 include additional transverse fold lines 272 and 274 which, along with transverse fold line 178, are spaced longitudinally at approximately equal intervals along the length of panel 26. Likewise, lid panels 198 and 230 include additional transverse fold lines 276,278 and 280, and 282,284 and 286, respectively, which are spaced longitudinally at approximately equal intervals along the length of their respective lid panels 198 and 230. As is apparent, the above transverse fold lines for the panels 24,26,198 and 230 allow them to be folded into a collapsed state with the jointed panels 44 folded so as to be also fitted in the container 290. Accordingly, the parts for the entire container assembly 10 can be collapsed and fit into a very compact form for transport in a small space, as in a car trunk, and can be later assembled into its operative condition by a person who does not have any special assembly skills and without the use of fasteners or tools in a quick and easy manner.

FIGS. 48 and 49 illustrate another container assembly 300 formed of fiberboard material in accordance

with the present invention. The container assembly 300 is similar to the container assembly 10 as it includes a main container body 302 having a base 310 and upstanding sides 306 and ends 308, and a lid 304 which is sized to rest on upper ends of the upstanding sides 306 and ends 308 of the main container body 302. Thus, with the lid 304 on the main container body sides 306 and ends 308, the lid 304 will close off the opening 312 leading to the interior space 314 defined by the sides 306, ends 308 and base 310 of the main container body 302 (FIG. 113). As can be seen in FIG. 48, the lid 304 for the container assembly 300 preferably includes a first large section 316 and a second small section 318 which when placed on the top of the sides 306 and ends 308 cooperate to close off the main container body opening 312, as will be more particularly described herein. With the sectioned lid 304 and a corpse contained in the container assembly 300, the small lid section 318 can be arranged to be over the upper torso 318 so that to view the head region of the deceased, one need only remove the small lid section 318. Alternatively, the small lid section 318 can be provided with a window unit 320 similar to that provided with the lid 14 of the container assembly 10 for viewing of the deceased. In addition, the lid 304 can have a contoured or shaped top, such as dome or peak shaped top (not shown) as opposed to the illustrated flat top, to provide for different models and grades of containers.

The main advantage of the container assembly 300 over the container assembly 10 described previously herein is that the main container body 302 is adapted to be in a partially preassembled condition when an undertaker removes it from its transport container 320. More particularly, the main container body 302, similar to the previously described main container body 12, is formed from an outer body portion 322 and a fluid containment portion 324 (FIG.

111) placed therein with reinforcing fiberboards, generally

designated 326, therebetween. Again, similar to the previously described container body 12, the main container body 302, and in particular the outer body portion 322 and fluid containment portion 324 thereof, are formed from respective panels 328 and 330 which include a plurality of fold lines, generally designated 332 and 334, respectively, to allow the panels 328 and 330 to be folded to a predetermined operative orientation to form the outer body portion 322 and the fluid containment portion 324. As can be seen in FIG. 111, the predetermined operative orientation of both the outer body portion 322 and fluid containment portion 324 is that of a substantially rectangular box having an open top with the fluid containment portion 324 preferably having a slightly tapered bottom for reasons to be described hereinafter.

Thus, with the outer body portion 322 folded to its predetermined rectangular box shape, the outer body portion 322 will include a base 336 and upstanding walls therefrom including opposite sidewalls 338 and 340 and opposite end walls 342 and 344. Similarly, with the fluid containment portion 324 folded to its operative substantially rectangular box shape, the fluid containment portion 324 will have a base 346 and upstanding walls therefrom including opposite sidewalls 348 and 350 and opposite end walls 352 and 354. Similar to the outer body portion 322 and fluid containment portion 324, the transport container 320 can be formed from a panel 356 having a plurality of fold lines 358 to fold the panel 356 into a predetermined orientation which is preferably that of a compact open top square box shape which is smaller than the container assembly 300. The folding up of the transport container 320, outer body portion 322 and fluid containment portion 324 can be readily determined from the location of the respective fold lines, 358,332 and 334, such that their assembly into their operative orientations will not be described in detail herein except where deemed

necessary for proper understanding of the advantageous features of the container assembly 300, such as with respect to the partial preassembly of the container body 302 and the ability of the outer body portion 322 to be bent or collapsed from its predetermined operative orientation to a smaller predetermined transport orientation.

Referring to FIG. 52, the fold lines 332 of the outer body panel 328 include two pairs of closely spaced, parallel longitudinal fold lines 360 and 362 which extend along either long side of the body panel 328 to delineate and form upper flaps 364 and 366. The fold lines 332 of the outer body panel 328 also include a plurality of transverse bend lines 368 for bending or collapsing the outer body portion 322 from its predetermined operative orientation to a smaller predetermined transport orientation, shown in FIGS. 59 and 60. In this regard, access flaps 370 and 372 are provided on the outer body base 336. The access flaps 370 and 372 are provided to allow the assembly of one of the reinforcing fiberboards 326 to the base 336 to be completed, as will be described hereinafter, and to allow the base 336 and sidewalls 338 and 340 to be bent or collapsed when the outer body portion 322 is changed from its larger operative orientation to its smaller transport orientation.

More specifically, the access flaps 370 and 372 preferably have a trapezoidal shape as formed on the outer body panel 328. The base of the trapezoidal access flaps 370 and 372 is a central portion of respective longitudinal fold lines 374 and 376 which define the junction or corner between the base 336 and sidewalls 338 and 340 of the outer body portion 322. Longitudinal fold lines 378 and 380 are spaced inwardly from respective fold lines 374 and 376 and are shorter in length such that pairs of oblique or diagonal per lines 382 and 384, respectively, extend from the ends of the short longitudinal fold lines 378 and 380

to their respective longer longitudinal fold lines 374 and 376 to form the trapezoidal shaped access flaps 370 and 372. Intermediate longitudinal per lines 386 and 388 extend between the respective pairs of oblique per lines 382 and 384 intermediate the longitudinal fold lines 374 and 378 and the longitudinal fold lines 376 and 380, respectively.

Accordingly, when the outer body panel 328 is folded to its operative orientation with the sidewalls 338 and 340 bent up about fold lines 374 and 376, the access flaps 370 and 372 can be separated along their respective per lines 382-388 so that the access flaps 370 and 372 include portions 370a and 370b, and 372a and 372b, respectively, with the flap portions 370a and 372a being associated with their respective sidewalls 338 and 340 and the access flap portions 370b and 372b being associated with the outer body portion base 336. With the sidewalls 338 and 340 thusly separated from the base 336 by the intermediate longitudinal per lines 386 and 388, the sidewalls 338 and 340 and base 336 can be folded or bent or collapsed in an accordion-style fashion about the transverse bend lines 368 to bring the end walls 342 and 344 closer together with portions of the sidewalls 338 and 340 and portions of the base 336 collapsed together, as will be more fully described herein. Preferably, the bending or collapsing of the sidewalls 338 and 340 and the base 336 changes the outer body portion 322 from its predetermined operative rectangular box shape with the opening 312 thereto having a rectangular shape to a predetermined smaller square box shape with the opening 312 changing to a smaller square shape for fitting into the compact transport container 320 with the opening 312 and interior 314 still being sized sufficient to receive the remaining parts of the container assembly 300 therethrough and therein.

As previously mentioned, it is preferred that reinforcing fiberboards 326 be provided between the outer body portion 322 and the fluid containment portion 324 in forming the main container body 302. The container assembly 300 provides for preassembly of certain of these reinforcing fiberboards 326 to the outer body portion 322 when in its transport orientation. More particularly, the reinforcing fiberboards 326 include a base reinforcing fiberboard 390 (FIGS. 54 and 56) for being attached to the outer body portion base 336, a pair of end fiberboards 392 (FIG. 58) for being attached to the outer body portion end walls 342 and 344, and a pair of side fiberboards 394 (FIGS. 55 and 57) for being attached to outer body portion sidewalls 338 and 340. The reinforcing fiberboards 326 are preferably constructed with a pair of fiberboard sheets that sandwich an internal honeycomb fiberboard structure attached therebetween to provide the reinforcing fiberboards 326 with additional strength over the corrugated fiberboard used for the outer body portion 322 and fluid containment portion 324.

To form the end walls 342 and 344 of the outer body portion 322, pairs of longitudinal per lines 396 and 398 are provided at either end of the panel 328 so that pairs of corner sections 400 and 402 can be separated from respective pairs of end panel sections 404 and 406. The end panel sections 404,406 in a pair are laterally spaced from each other so that when the pairs of end panel sections 404 and 406 are folded up about transverse fold lines 408 and 410, respectively, to be perpendicular with the base 336, the pairs of corner sections 400 and 402 folded up about longitudinal fold lines 374 and 376 and separated along per lines 396 and 398 from the corner sections 400 and 402 for forming the sidewalls 338 and 340 can be bent at right angles to the sidewalls 338 and 340 about transverse fold lines 417 and 419, respectively, so as to extend behind the pairs of end panel sections 404 and

406 and substantially abut each other along their inner edges defined by fold lines 400a and 402a to cover the space left between the end panel sections 404 and 406.

Each of the corner sections 400 and 402 can include transverse flaps 415 which extend along their inner edges 400a and 402a when the corner sections 400 and 402 are folded up behind the end panel sections 404 and 406.

As previously discussed with respect to container assembly 10, it is preferred that the exposed surfaces be covered with a cloth material. Thus, with the outer or exposed surfaces of the outer body portion 322 being cloth covered, the flaps 415 can include the cloth thereon.

Since the inner edges 400a and 402a are abutting with the outer body portion 322 folded to its operative orientation, the transverse flaps 415 can be folded about the fold lines 400a and 402a towards the interior 314 of the container so as to avoid exposure of the edge of the cloth on the outside of the container, as best seen in FIG. 50. To keep the outer body portion 322 folded up with the sidewalls 338 and 340 and end walls 342 and 344 extending substantially perpendicular to the base 336, adhesive 416 can be manually applied to the flaps 415 so that they can be folded back down against the inner surfaces of the corner sections 400 and 402 to be adhered thereto.

After folding the outer body panel 328 as described above, the outer body portion 322 can be collapsed in an accordion-style fashion to its predetermined transport orientation by bringing the end walls 342 and 344 closer together, as previously mentioned.

More particularly, the base 336 and sidewalls 338 and 340 are segregated into five sections by the transverse bend lines 368 for purposes of changing the outer body portion 322 to its transport orientation with each including a large central section 336a, 338a and 340a with intermediate sections 336b, 338b and 340b on either side thereof and outer sections 336c, 338c and 340c between the intermediate

sections 336b, 338b and 340b and, for the sidewalls 338 and 340, the corner sections 400 and 402, and for the base 336, the end panel sections 404 and 406.

To bend the outer body portion 322 accordion- style from its operative orientation to its transport orientation, the sidewall sections 338b and 338c and 340b and 340c are folded about bend lines 368 extending therebetween so that their exterior surfaces are brought into engagement with each other with the sidewall sections 338a and 338b and 340a and 340b being folded about bend lines 368 therebetween so that their interior surfaces are engaged with each other with such bending or folding being shown in progress in FIG. 50. As the sidewalls 338 and 340 are collapsed, the base 336 will likewise be collapsed.

The base sections 336b and 336c will be folded about transverse bend lines 368 therebetween so that their exterior surfaces will be brought into engagement with each other and the base sections 336a and 336b will be folded about the bend lines 368 therebetween so that their interior surfaces are in engagement with each other. Thus, when the outer body portion 322 is in its transport orientation as in the transport container 320, the base section 336c and the sidewall sections 338c and 340c will be exposed in the interior of the container before preassembly of the reinforcing fiberboards thereto.

With the outer body portion 322 in its predetermined transport orientation and placed in the transport container 320, the reinforcing end fiberboards 392 can be preassembled to the outer body portion end walls 342 and 344, as shown in FIGS. 59 and 60. The reinforcing end fiberboards 392 can be provided with a strip of pressure sensitive adhesive 413 preapplied onto one of the surfaces thereof and covered with cover release tape 414 which can be peeled to expose the adhesive strip 413 thereunder. To attach the reinforcing end fiberboards 392 to the end walls 342 and 344, the side without the adhesive

strip 412 thereon can have adhesive 416 manually applied thereto with the adhesive 416 then being pressed against the inside facing surface of the end walls 342 and 344.

The flap sections 364 and 366 of the outer body panel 328 include respective end sections 418 and 420 which are separated from the remainder of the flaps 364 and 366 and are associated with panel corner sections 400 and 402.

The reinforcing end fiberboards 392 have a height which substantially corresponds to the distance between the base section 336c and the inner or lower fold lines 360a and 362a in the flap fold line pairs 360 and 362 when the panel 328 is folded up to its operative or transport orientations. In addition, the distance between the parallel longitudinal flap fold lines 360a and 360b and 362a and 362b is sufficient to accommodate the thickness of the reinforcing end fiberboards 392 with some play provided so that when the end flap sections 418 and 420 are folded over the pair of longitudinal flap fold lines 360 and 362, the thickness of the end panel sections 404 and 406 can also be accommodated. Before folding the end flap sections 418 and 420 down onto the inside surface of the reinforcing end fiberboards 392, the release tape 414 is removed from the end fiberboards 392 to expose the adhesive strip 413 thereunder for adhering to the flap sections 418 and 420, as shown in FIGS. 59 and 60. In this manner, the reinforcing end fiberboards 392 are preassembled to the outer body portion 322 of the main container body 302.

After preassembly of the reinforcing end fiberboards 392 to the outer body portion end walls 342 and 344, the reinforcing base fiberboard 390 can be substantially preassembled to the outer body portion 322 in its transport orientation in the transport container 320.

As best shown in FIGS. 54,56 and 61, the reinforcing base fiberboard 390 has a plurality of transverse fold lines 422 and score or per lines 424 which divide the base fiberboard 390 into five sections, with a large central section 390a

adjacent two intermediate sections 390b on either side which in turn are attached to end sections 390c. As previously mentioned, the construction of the reinforcing fiberboards 326 is that of a pair of sheets sandwiching a fiberboard honeycomb internal structure so that for folding of the reinforcing fiberboards 326, one sheet must have a per line for rupturing the sheet thereat to allow it to bend about a fold line aligned with a per line on the other sheet. Accordingly, the fold lines 422 of the base fiberboard 390 have corresponding aligned per lines 424 on the opposite sheet and the per lines 424 have corresponding aligned fold lines 422 on the opposite sheet. FIG. 54 is a plan view of the top sheet 426 of the base fiberboard 390 with the top sheet 426 including a pair of longitudinal strips of adhesive 413 preapplied thereto. FIG. 56 is a plan view of the bottom sheet 428 with the bottom sheet 428 having a pair of shorter longitudinal adhesive strips 413 preapplied to extend the length of the base fiberboard central section 390a and into the adjacent intermediate base fiberboard sections 390b. In addition, each of the base fiberboard end sections 390c include a pair of transverse adhesive strips 413 preapplied thereto. Tbbend or collapse the reinforcing base fiberboard 390 for preassembly into the container outer body portion 322 in its transport orientation, the base fiberboard intermediate sections 390b on either side of central section 390A are folded down so as to rupture the top sheet 426 along the per lines 424 in the top sheet 426 and with the bottom sheet 428 folded about corresponding fold lines 422 on either side of the central section 390a, as shown in FIG.

62. Thereafter, the base fiberboard end sections 390c are bent or collapsed relative to the intermediate sections 390b by folding about the fold lines 422 therebetween in the top sheet 426 and rupturing the bottom sheet 428 about the corresponding per lines 424 formed therein, as shown in FIG. 63. With the reinforcing base fiberboard 390 so

collapsed, the portion of the bottom sheet 428 on the intermediate sections 390b will be brought into engagement with the portion of the bottom sheet 428 on the intermediate sections 390b will be brought into engagement with the portion of the bottom sheet 428 on the central section 390a and the portions of the top sheet on the intermediate sections 390b and the end sections 390c will be brought into engagement with each other, as illustrated in FIG. 64. The dimensions of the two intermediate sections 390b and the two end sections 390c substantially correspond to that of the central section 390a so that when the reinforcing base fiberboard 390 is collapsed for preassembly, all the edges of the various sections 390a-c will be aligned and will substantially correspond to the combined outer peripheral edge dimensions of the outer body portion base sections 336c less the thickness of the reinforcing end fiberboards 392 preassembled in the outer body portion 322 in its transport orientation. In this manner, the collapsed base fiberboard 390 can be set into the outer body portion 322 for preassembly to the exposed outer body portion base sections 336c.

With the reinforcing base fiberboard 390 collapsed, portions of the bottom sheet 428 on the end sections 390c including the transverse adhesive strips 413 and covering release tape or strips 414 thereover will be exposed for attaching the base fiberboard 390 to the outer body portion base 336. Peeling the release strips 414 off the bottom sheet portions of the fiberboard sections 390c exposes the transverse adhesive strips 413 thereunder so as to adhere the fiberboard sections 390c to outer body portion base sections 336c when the reinforcing fiberboard 390 is set in the outer body portion 322 in its transport orientation on the base sections 336c thereof.

Accordingly, with the reinforcing end fiberboards 392 already assembled to the outer body portion end walls 342 and 344 and the reinforcing base fiberboard 390

substantially preassembled to the outer body portion base 336, when undertakers remove the outer body portion 322 from the transport container 320, all they need to do is to expand the outer body portion 322 back to its operative orientation by folding it open about its respective bend lines 368 with the reinforcing base fiberboard 390 folding open about its respective fold lines 422 and per lines 424.

All the undertaker needs to do to complete the assembly is to attach the remainder of the base fiberboard sections 390a and 390b to the outer body portion base sections 336a and 336b, attach the side fiberboards 394 in the outer body portion 322, assemble the fluid containment portion 324 and attach it into the outer body portion 322, and assemble the large lid section 316. Once the outer body portion 322 is bent or collapsed to its predetermined transport orientation and placed in the transport container 320 with the end fiberboards 392 and the base fiberboard 390 preassembled thereto, the remainder of the various parts of the container assembly 300 can be packed into the compact transport container 320. Specifically, the side fiberboards 394 similar to the base fiberboard 390 are provided with transverse fold lines 430 and per lines 432 for being folded up into a compact fashion to be placed in the transport container 320, as shown in FIGS. 66-68. The fluid containment panel 330 can also be folded up into a small compact form about its fold lines 334, as depicted in FIGS. 69-74, to be placed in the transport container 320.

The components used for assembly of the large lid section 316 are also folded up and placed in the transport container 320. For the large lid section 316, a large lid section outer portion 434 (FIG. 120) is attached to a large lid section inner portion 436 (FIG. 117), as will be described more fully hereinafter. The large lid section outer portion 434 is formed from an outer portion panel 438 of fiberboard material and a reinforcing fiberboard 440 which is to be attached thereto (FIGS. 75-77). The outer

portion panel 438 includes transverse folding or bending lines 442 and transverse and longitudinal pairs of flap fold lines 444 which extend around the periphery of the outer portion panel 438 to define side flap sections 446 and end flap sections 448 on the panel 438. Along one side of the panel, bevelled corners 450 are provided between the end flaps 448 and one of the side flaps 446. At the corners between the other side flap 446 and end flaps 448, locating corner tabs 452 are formed by oblique per lines 454 for detachment of the corner tabs 452 once the reinforcing fiberboard 490 is properly located and attached to the outer portion panel 438.

To fold the outer portion panel 438 for transport in transport container 320, the side flap 446 extending between the bevelled corners 450 can be folded over the outermost longitudinal flap fold line 444 in the pair adjacent thereto, as shown in FIG. 85. Thereafter, the panel 438 can be folded up about the transverse bend lines 442 so that it is in a compact form, as shown in FIG. 86, for placement into the transport container 320.

The large lid section inner portion 436 is constructed similar to the large lid section outer portion 434 from an inner portion panel 456 and a inner portion reinforcing fiberboard 458 for being attached to the panel 456, as will be more fully described hereinafter. The inner portion panel 456 includes a pair of transverse bend lines 460 and transverse and longitudinal pairs of flap fold lines 462 extending around the panel periphery to define opposite side flaps 464 and end flaps 466. The corners 468 along one side of the inner portion panel 456 are bevelled while the corners along the opposite side include locating corner tabs 470 defined by oblique per lines 472. The inner portion panel 456 is folded in a similar manner to the outer portion panel 438 for transport in transport container 320, as can be seen by reference to FIGS. 81-83.

Turning next to the folding of the reinforcing fiberboard panels 440 and 458 utilized in the assembly of the large lid section 316, the reinforcing fiberboard 440 has a transverse per line 474 and a transverse fold line 476 on its top sheet and a transverse fold line 476 and a transverse per line 474 on the bottom sheet aligned with the per line 474 and fold line 476, respectively, on the top sheet, as seen in FIGS. 76 and 77. The reinforcing fiberboard 458 has per lines 474 and fold lines 476 on its respective top and bottom sheets oriented in a similar fashion to that of the fiberboard panel 440, as seen in FIGS. 79 and 80. The fiberboard 440 is folded for transport, as depicted in FIGS. 87-89, with folding occurring about its fold lines 476 and rupturing of the sheets occurring about the per lines 474. The fiberboard 458 is folded in a similar manner to the fiberboard 440 for transport, as can be seen in FIGS. 90-92.

To complete the packing of transport container 320, the small lid section 318 is assembled with such assembly being similar to that of the large lid section 316 in that there is a small lid section outer portion 478 which is attached to a small lid section inner portion 480.

The inner portion 480 is smaller than the outer portion 478 to form a lip 479 around three sides of the smaller inner portion 480 for resting on the top ends of the container body sides 306 and ends 308 with the inner portion 480 extending into the container interior 314.

The outer and inner portions 478 and 480 are formed from respective panels 482 and 484 and reinforcing fiberboards 486 and 488 attached thereto. The outer portion panel 482 includes respective pairs of flap fold lines 490 extending along each side of the panel 482.

Similarly, the inner portion panel 484 includes pairs of flap fold lines 492 extending along the sides thereof.

Both the outer portion and inner portion panels 482 and 484 each include a pair of bevelled corners 494 and 496,

respectively, and have a pair of locating corner tabs 498 and 500 at their other corners formed by oblique per lines 502 and 504, respectively. The outer portion panel 482 includes slots 506 in three of the four flaps formed around its periphery by the flap fold lines 490 with the slots 506 being spaced outwardly from the outermost flap fold line 490a. The inner portion panel 484 includes tab sections 524 formed in three of its four flaps defined by flap fold lines 492 to correspond with the three flaps of the outer portion panel 482 having slots 506 therein with the tab sections 524 being defined by per lines extending from and back to the outermost fold line 492a of the pairs of flap fold lines 492. In addition, the outer portion and inner portion panels 482 and 484 include pairs of small right- angle die cuts 509 and 511, respectively, on the flaps adjacent to the locating corner tabs 498 and 500.

The reinforcing fiberboard 486 for the small lid section outer portion 478 has dimensions about its outer edges substantially the same as that circumscribed by the inner flap fold lines 490b of the pairs of flap fold lines pairs 490 formed on the outer portion panel 482.

Similarly, the reinforcing fiberboard 488 for the small lid section inner portion 480 has dimensions similar to that circumscribed by the inner flap fold line 492b of the flap fold line pairs 492 formed around the inner portion panel 484. The reinforcing fiberboard 486 is also provided with notches 510 along three of its sides to correspond with the three flaps including the slots 506 on the outer portion panel 482.

To form the small lid section inner portion 480, the locating corner tabs 500 are folded over about their associated per lines 504 and back onto the panel. The corner tabs 500 include small right-angle notches 512 so that when they are folded back down onto the panel 484, the edges of the notches 512 will be substantially aligned over the corner junction of the two adjacent innermost flap fold

lines 492b, as best seen in FIG. 97. To hold the locating corner tabs 500 down, the material of the panel at the die cuts 511 can be resiliently lifted from the plane of the panel 484 and then released to rebound into engagement with the sides of the corner tabs 500 to hold them in place.

Strips of adhesive 416 can be manually applied on the panel 489 between the inner flap fold lines 492b. Thereafter, the reinforcing fiberboard 488 can be placed on the panel 484 and located by placing corners thereof against the edges of the locating corner tab right-angle notches 512, as shown in FIG. 98. Adhesive strips 416 can then be applied to the flaps and the locating corner tabs 500 detached from the panel 484 with the flaps then being folded over about the flap fold lines 492 onto the exposed surface of the reinforcing fiberboard 488. As a consequence of folding the flaps about the fold lines 492, the tab sections 508 will break from the flap sections along their per lines to project at right angles from the flaps folded over onto the reinforcing fiberboard 488.

The small lid section outer portion 478 is formed in much the same manner as the above-described assembly of the inner portion 480. Referring to FIGS. 100-102, first the locating corner tabs 498 are folded over their respective per lines 502 down onto the panel 482 such that the right-angle notches 514 are aligned over the innermost flap fold lines 490b with the die cuts 509 utilized to hold the folded over corner tabs 498 in place. Next, strips of adhesive 416 are manually applied to the panel 482 between the inner fold lines 490b and the reinforcing fiberboard 486 is placed on the panel 482 over the strips of adhesive 416 thereon with the notches 510 aligned across from the slots 506 in the flaps of the panel 482. Finally, adhesive 416 is applied to the flaps and the locating corner tabs 498 are detached from the panel 482 with the flaps then being folded over onto the exposed surface of the reinforcing fiberboard 486 to be adhered thereto. The

spacing of the slots 506 from the outermost flap fold line 490a is such that when the flaps are folded over onto the exposed surface of the reinforcing fiberboard 486, the slots 506 will be aligned over the reinforcing fiberboard notches 510. In addition, the small lid section outer and inner portions 478 and 480 are sized such that when the inner portion 480 is centered over the outer portion 478, as shown in FIG. 104, the tab sections 508 will be aligned with the slots 506 so that the tabs 508 can be inserted into the slots with clearance being provided thereunder by the fiberboard notches 510 so as to fictionally retain the outer and inner lid portions 478 and 480 attached together to form the small lid section 318, as shown in FIG. 105.

The flaps of the small lid section outer and inner portions 478 and 480 which do not include respective slots 506 and tabs 508 when folded over form abutment edges 481 and 483 which are aligned with each other when the lid portions 478 and 480 are attached so that the lip or shoulder 479 extends only around three of the sides of the small lid section 318. The small lid section 318 is sized sufficiently small so that it can be fit into the transport container 320 along with the folded-up reinforcement fiberboards 394,440 and 458, the folded-up fluid containment panel 330 and the folded-up large lid section outer and inner portion panels 438 and 456, as can be seen in FIGS 106a and 106b. Accordingly, the container assembly 300 can be fit in a relatively compact transport container 320 thus saving space and costs in shipping and transport of the container assembly 300 herein.

In addition, the partial preassembly of the main container body 302 in the transport container 320 also simplifies and saves time in the assembly process. With the outer body portion 322 including the reinforcing base fiberboard 390 and end fiberboard 392 attached thereto, the outer body portion 322 can be expanded back to its operative orientation from its smaller transport

orientation, as shown in FIGS. 107-109. As the ends 308 of the outer body portion 322 including the reinforcing end fiberboards 392 attached thereto are moved away from each other, the sidewalls 338 and 340 of the outer body portion 322 will open about the transverse bend lines 368 between the sidewall sections 338a-c and 340a-c and the base 336 of the outer body portion 322 will similarly open about the transverse fold lines 368 between the base sections 336a-c.

As previously discussed, the reinforcement base-fiberboard 390 has the portions of its bottom sheet 428 on the end sections 390c attached to the upper surface of the end sections 336c of the outer body portion base 336.

Accordingly, as the outer body portion base 336 is opened and expanded by movement of the outer sections 336c thereof away from each other, the folded-up reinforcement base fiberboard 390 will likewise expand about its fold and per lines 422 and 424 due to the attachment between the base fiberboard sections 390c and the moving outer body portion base sections 336c, so that the remainder of the bottom sheet 428 on the center and intermediate sections 390a and 390b of the base fiberboard 390 will be substantially over central and intermediate sections 336a and 336b of the outer body portion base 336.

To attach the bottom sheet 428 on the central and intermediate sections 390a and 390b of the reinforcing base fiberboard 390 to the top of the central and intermediate portions 336a and 336b of the outer body portion base 336, the expanded outer body portion 322 is turned over, as shown in FIG. 109. The portions 370a and 372a of the access flaps 370 and 372 will be opened relative to the reinforcement base fiberboard 390 and the portions 370b and 372b can be bent back about their fold lines 378 and 380, respectively, so as to fully expose the release tape 414 which extends along the reinforcement base fiberboard central and intermediate sections 390a and 390b. The release tape 414 can be peeled from the base fiberboard 390

and the access flaps 370 and 372 can be folded back down onto the exposed adhesive strips 413 under the peeled off release tape 414 to adhere the flaps 370 and 372 back onto the base fiberboard 390 to complete the assembly of the reinforcing base fiberboard 390 to the outer body portion base 336.

After the base fiberboard 390 is completely attached in the outer body portion 322, the reinforcing side fiberboards 394 can be attached to the outer body portion sidewalls 338, as shown in FIG. 110. To attach the reinforcing side fiberboards 394, the side of the boards 394 having the two parallel adhesive strips 413 are arranged to face towards the outer body portion sidewalls 338 and 340 and the opposite side of the reinforcing side fiberboards 394 having the single adhesive strip 413 are arranged to face towards the interior 314 of the container with the adhesive strip 413 arranged towards the upper end of the side fiberboard 394 as attached to the sidewalls 338 and 340. With the reinforcing side fiberboards 394 attached in the outer body portion 322, the release tape 414 on the top sheet 424 of the reinforcing base fiberboard 390 can be peeled to expose the adhesive strips 413 thereunder for attaching the fluid containment portion 324 folded to its operative orientation in the outer body portion 322 having the reinforcing fiberboards 326 attached therein.

As can be seen in FIG. 112, the fluid containment portion end walls 352 and 354 are shorter than the sidewalls 348 and 350 which are approximately the same height as the corresponding reinforcing side fiberboards 394 attached thereto with both the side fiberboards 394 and fluid containment portion sidewalls 348 and 350 extending up to approximately the innermost flap fold line 360a and 362a of the flap fold line pairs 360 and 362 on the container outer body portion 322. By contrast, the fluid containment portion end walls 352 and 354 have a height

shorter than the sidewalls 348 and 350 by approximately the width of the end flap sections 418 and 420 of the outer body portion 322. As previously described, the end flap sections 418 and 420 are folded down over the reinforcing end fiberboards 392 and attached thereto so that there is a shallow recessed pocket 516 formed between the bottom of the flap sections 418 and 420 and the top of the reinforcing base fiberboard 390 against the end fiberboards 392 for receiving the end walls 352 and 354 of the fluid containment portion 324 therein.

Similar to the previously described fluid containment portion 22, the fluid containment portion 324 includes sealing gussets 518 formed at the juncture of the sidewalls 348 and 350 and the end walls 352 and 354 at the bottom portions thereof. The bottom or lower portions of the fluid containment portion walls 348-354 are tapered inwardly from vertical so as to provide the sealing gussets 518 with sufficient clearance between the fluid containment portion 324 and the fiberboards 326 attached in the outer body portion 322. The taper of the walls 348-354 obviates the need to provide the end fiberboards with the previously described compressed areas or wells 148 that are provided in the reinforcing end fiberboards 144 and 146 of the container assembly 10.

With the fluid containment portion base 346 adhered to the adhesive 413 on the reinforcing base fiberboard 390 and the fluid containment portion end walls 352 and 354 disposed in the recessed pockets 516, the fluid containment portion sidewalls 348 and 350 can be attached to the reinforcing side fiberboards 394 by pivoting of the fluid containment portion sidewalls 348 and 350 inwardly to access the side fiberboards 394 for peeling the release tape 414 therefrom, as shown in FIG. 113. Thereafter, the sidewalls 348 and 350 are pressed against the side fiberboards 394 to attach them thereto. To complete the main container body 302, the release tape 414 covering the

adhesive strips 413 formed at the upper end of the fluid containment sidewalls 348 and 350 is peeled to expose the adhesive 413 thereunder, and the flaps 360 and 362 of the outer body portion 322 are folded over the side fiberboards 394 and the fluid containment portion sidewalls 348 and 350 and down onto the exposed adhesive 413 thereon to attach the flaps 360 and 362 down onto the upper portion of the fluid container portion sidewalls 348 and 350, as best seen in FIG. 114. With the main container body 302 completely assembled, the sides 306, ends 308 and base 310 thereof will have a layered construction consisting of the panels 328 and 330 and the reinforcing fiberboards 326 to provide the container body 302 with good strength and rigidity. To further improve the strength and rigidity of the foldable container assembly 300, none of the transverse fold and/or per lines on the panels 328 and 330 and fiberboards 326, specifically with respect to the outer body portion sidewalls 338 and 340 and the side fiberboards 394, are aligned when the container body 302 is completely assembled in its operative form. Referring to FIGS. 52-57, it can be seen that the spacing of the transverse fold lines across the panels is unequal whereas the spacing of these lines on the side fiberboards 394 are equal so that there will be no alignment when the container body 302 is assembled to thereby improve the strength and rigidity of the sides 306 of the container 300.

After the main container body 302 has been fully assembled, to complete the container assembly 300, the undertaker next assembles the large lid section 316 (FIG.

122) from its component parts packed in the transport container 320. The assembly of large lid section 316 is depicted in FIGS. 115-122 and is similar in many respects to the assembly of the small lid section 318. First, the large lid section inner portion 436 can be assembled by unfolding the inner portion panel 456 and inner portion reinforcing fiberboard 458 from their folded transport

orientations. In addition, the locating corner tabs 470 are folded over their respective per lines 472 and held in place by raising that material from the panel 456 from the die cuts 520 on either side of the right-angle notches 522 formed in the locating corner tabs 470. To attach the fiberboard 458 to the panel 456, the side of the panel having transverse adhesive strips 413 thereon is arranged to face the panel 456 with the release tape 414 then being removed from the strips 413 and the reinforcing fiberboard 458 aligned on the panel 456 by the locating tabs 470 and pressed into place thereon to adhere the reinforcing fiberboard 458 to the panel 456, as shown in FIG. 116.

Thereafter, the longitudinal side and transverse end strips of adhesive 413 on the other side of the reinforcing fiberboard 458 are exposed by peeling the release tape 414 therefrom and the side flaps 464 and end flaps 466 are folded about their pairs of flap fold lines back down onto the exposed adhesive 413 to attach the flaps 464 and 466 to the reinforcing fiberboard 458 to complete the assembly of the large lid section inner portion 436. As the flaps 464 and 466 are folded, tab sections 524 extending from the outermost flap fold line of the pairs of fold lines 462 will break along the per lines to extend substantially at right angles to the folded over flaps 464 and 466 similar to the small lid section inner portion 480, the large lid inner portion has tabs 524 on the side flaps 464 and one of the end flaps 466.

The assembly of the large lid section outer portion 434 follows in substantially the same fashion as the above-described assembly of the large lid section inner portion 436 utilizing the corner tabs 452 on the panel 438 folded over and held in place by material from die cuts 526 to locate the reinforcing fiberboard 440 by abutting corners thereof with right-angle notches 528 formed in the locating tabs 452 with notches 530 formed around the periphery of the reinforcing fiberboard 440 in alignment

with slots 532 formed in side flap sections 446 and one of the end flap sections 448 of the panel 438. When the flap sections 446 and 448 are folded over the fold lines 444 and onto the reinforcing fiberboard 440, the slots 532 will be in alignment of the notches 530. In this manner, when the large lid section outer portion and inner portion 434 and 436 are attached by inserting tab sections 524 into slots 532, there will be clearance below the slots 532 as provided by the notches 530 in the fiberboard 440 for the inserted tab sections 524. To enhance the frictional attachment provided by the cooperating tabs 524 and slots 532, the small lid section inner portion can include longitudinal preapplied adhesive strips 413 on each of the side flaps 464 which can be exposed by peeling the release tape 414 therefrom so as to adhere the flaps 464 of the inner portion 436 onto the side flaps 446 of the outer portion 434.

The flaps of the large lid section outer and inner portions 434 and 436 which do not include respective slots 532 and tabs 524 when folded over form abutment edges 437 and 439 which are aligned with each other.

Accordingly, with the large lid section 316 assembled, there will be a lip 533 formed around the smaller inner portion 436 except along the aligned abutment edges 437 and 439 for resting on the top of the main container sides 306 and 308 with the inner portion 436 extending into the interior space 314. The large lid section 316 and small lid section 318 are sized so that when placed on the container body 302, they close the opening 312 to the interior space 314 therein with their respective lips 533 and 479 resting on the top ends of the body side and end walls 306 and 308 and their respective abutment edges 437, 439 and 481,483 being closely adjacent or engaged with each other in close, tight fitting orientation.

As previously mentioned, the small lid section 318 can be provided with a window unit 320 having a window

frame 534 with covers 536 hinged thereto. Construction of one of the covers 536 is illustrated in FIGS. 123-130.

FIG. 123 shows a thin cardboard panel 538 for forming one- half 536a of one of the covers 536 with the one-half 536a including apertures 540 for hinges and apertures 542 for attaching tassels to the covers 536 for pivoting them open about their hinges. FIG. 127 illustrates a thin cardboard panel 544 from which the other half 536b of the covers 536 is formed. Accordingly, the window unit 320,-similar to the remainder of the container assembly 300, can be formed for a relatively low cost from inexpensive raw materials.

FIGS. 131-151 are directed to components of an alternative container assembly similar to that of container assembly 300. Accordingly, like parts in the modified container assembly (not shown in completely assembled form) will be provided with the same reference numeral as in container assembly 300 with the addition of a prime thereafter. FIG. 131 shows a plan view of the outer body portion panel 328'which includes fold lines 332' substantially the same as on the body panel 328 for the main container body 302 of the container assembly 300. The main difference between the panels 328'and 328 is at either end of the panel where instead of pairs of end panel sections 404 and 406 which include sections in a pair that are laterally spaced from each other, the panel 328' includes solid end panel sections 404'and 406'.

Accordingly, the transverse flaps 415 at the end of the corner sections 400 and 402 are eliminated on the corner sections 400'and 402'of the panel 328'. Also, in contrast to the panel 328, the panel 328'includes pairs of tab receiving slots 550 formed in the panel 328'along sections 408'and 410'of transverse fold lines 417'and 419'which divide end panel sections 404'and 406'from the base 336'on the panel 328'. The corner sections 400'and 402'are each provided with central tabs 554 and 556, respectively, projecting from the pairs of longitudinal per

lines 396'and 398'for being inserted in corresponding slots 550 and 552, respectively, as will be more fully described hereinafter.

Thus, when the solid end panel sections 404'and 406'are folded up about transverse fold lines 408'and 410', respectively, to be perpendicular with the base 336', the pairs of corner sections 400'and 402', folded up about longitudinal fold lines 374'and 376'for forming the side walls 338'and 340', the corner sections 400'and 402'can be bent at right angles to the side walls 338'and 340' about the transverse fold lines 417'and 419', respectively, so as to extend behind the solid end panel sections 404'and 406'. To keep the panel 328'folded up in its operative orientation for forming the outer body portion, the tabs 554 and 556 projecting from the bottom of the upstanding corner sections 400'and 402'can be bent so as to be inserted into tab receiving slots 550 and 552 located at the bottom of the folded up end panel sections 404'and 406'. Similar to the panel 328, after the panel 328'is folded into its operative orientation including the base reinforcing fiberboard 390'and reinforcing fiberboards 392'preassembled thereto, it can be collapsed in an accordion style fashion to a predetermined transport orientation by bringing the ends closer together. As such bending or collapsing is done in substantially the same fashion as with the previously described panel 328, it will not be described further herein.

Another difference between the panels 328 and 328'is in the construction of access flaps 370'and 372'.

With the panel 328', the short longitudinal fold lines 378 and 380 are eliminated so that the oblique per lines 382' and 384'stop at the intermediate longitudinal per lines 386'and 388'. Accordingly, the panel access flap sections 370b and 372b are no longer provided on panel 328'.

FIG. 132 shows the fluid containment panel 330' which is substantially identical to the fluid containment

panel 330 and includes a plurality of per lines 334'and adhesive strips 412'extending longitudinally on either side thereof. As the folding of the fluid containment panel 330'will be readily apparent from the fold lines 334'on the panel 330', it will not be described in detail hereinafter.

Once the outer body panel 328'and the fluid containment panel 330'have been folded up about their respective fold lines 332'and 334'into their operative positions, the reinforcing fiberboards can be attached therebetween. FIGS. 133 and 134 are directed to the base fiberboard 390'for being placed between the top of the outer body portion base 336'and the bottom of the fluid container portion base 346'. The base fiberboard 390' differs from base fiberboard 390 by the provision of pairs of notches 558 formed at the longitudinal edges of the fiberboard 390'. FIG. 133 is a bottom plan view of the fiberboard 390'and indicates adhesive placement 413'at substantially the same locations as on the bottom of fiberboard 390. By contrast, the top plan view of FIG. 134 illustrates that the base fiberboard 390'lack any adhesive thereon unlike the top of fiberboard 390 for reasons to be described hereafter.

It has been found that during assembly, the use of adhesive 413 on the top of the base fiberboard made it difficult to accurately position the fluid containment portion once it was dropped into the outer body portion and pressed onto the adhesive 413 on the top of the base fiberboard 390. This was because once the fluid containment portion 324 was put into the outer body portion 322, it was adhered in place and could not be moved to more accurately align the fluid containment portion 324 in the outer body portion 322, if necessary or desired. As the fluid containment portion on side walls 348'and 350'are to be adhered to reinforcing side fiberboards 394'with the flaps 360'and 362'provided on the panel 328'which, when

the panel 328'is folded to its operative position, are folded down onto the adhesive strips 413'on the inner sides of the fluid containment portion side walls 348'and 350', adhering the base 346'of the fluid containment portion to the base fiberboard 390'is not necessarily required to keep the fluid containment portion in place in the outer body portion.

FIGS. 135 and 136 show the side fiberboards 394' which are substantially the same as the side fiberboards 394 including the location of the adhesive strips 413' thereon. The only difference lies in the provision of tabs 560 along the bottom edge of the side fiberboards 394 which are received tightly in the notches 558 provided in the base fiberboard 390'when the side fiberboards 394'are assembled into the outer body portion. FIG. 137 is a view of one of the end fiberboards 392'which is substantially the same as end fiberboards 392 except with the provision of a second lower strip of adhesive 413'below that of the strip for adhering the folded over end flap sections 418' and 420'when the outer body portion is partially preassembled. With the flap sections 418'and 420'adhered to the upper adhesive strip 413'on the reinforcing end fiberboard 392', the lower adhesive strip 413'will be positioned below the folded over flaps 418'and 420'.

Peeling the release tape off from the lower adhesive strip 413'allows the fluid containment portion end walls 352' and 354'to be adhered to the end fiberboards 392'by way of the lower exposed adhesive strip 413'thereon.

FIGS. 138-142 illustrate the construction of the large lid section 316'which differs from the large lid section 316 in that it is in a partially preassembled form when placed in the transport container for shipping purposes. As seen best in Fig. 142, the large lid section 316'can be partially preassembled and folded back on to itself so as to place it in a more compact form for shipping in the transport container 320. With the lid

section 316'in its compact transport orientation, an undertaker can readily remove it from the transport container 320 and fold it back to its operative condition by pivoting the folded back portions as indicated by arrows 562 in Fig. 142 for completing the assembly of the large lid section 316'.

The large lid section outer portion panel 438'is shown in Fig. 138 and corresponds substantially to large lid section outer portion panel 438 except that transverse bend or fold lines 442'do not extend into the side flap sections 446'and stop at the innermost one of the longitudinal pair of flap fold lines 444'. Where the transverse fold lines 442'stop at the longitudinal flap fold lines 444', score or per lines 564 begin and extend to the outer edge of the side flap sections 446'to allow the large lid section outer portion 434'to be folded back over onto itself, as will be more fully described hereinafter.

In a similar manner, the large lid section inner portion panel 456'illustrated in Fig. 140 is substantially the same as the panel 456 with the exception that the transverse fold lines 460'stop short at the innermost one of the pairs of longitudinal flap fold lines 462'with score or per lines 556 extending therefrom to the outer edge of the side flap section 464'.

The reinforcing fiberboards 440'and 458'are similar to boards 440 and 458 except that they can be provided in segments, as shown in Figs. 139 and 141, respectively. Accordingly, the board 440'can have a pair of end segments 568 and a central segment 570 which are adapted to be attached to the outer portion panel 438'at corresponding locations thereon with the end segments 568 attached on either side of the transverse fold lines 442' and the central segment attached on the portion of the panel 438'between the fold lines 442'. Similarly, the board 458'is segmented with end segments 572 and central segment 574 with the end segments 572 attached on panel

4561 on either side of the transverse fold lines 460'and the central segment 574 attached on the portion of the panel 456'between the transverse fold lines 460'. The reinforcing fiberboards 440'and 458'can have their respective segments 568,570, and 572,574 nicked together as by providing score or per lines therebetween (not shown) for ease and assembly of the boards 440'and 458'to their respective panels 438'and 456'.

In addition to the above, the panels 438'and 456'are slightly different in the positioning of the slots 532'and tabs 522', respectively, along either side thereof. In this regard, the pairs of slots 532'and pairs of tabs 522'on each side of the panels 438'and 456'are located between the respective score lines 544 and 566.

Similarly, the notches 530 on either side of the reinforcing fiberboard 440'are located on the edges of the central segment 570 thereof so that when the panel flap 446'is folded over onto the board 440', the slots 532' will be aligned over the notches 530'so as to provide clearance for the tabs 522'of the large lid section inner portion 436'.

Once the large lid section's outer and inner portions 434'and 436'are assembled, they can be attached together by first exposing the adhesive 413'on the flaps 464'only on either side of the central segment 574, and then inserting the tabs 522'into the slots 532'and pressing the portions 434'and 436'together so that the large lid section 316'is adhered primarily only along the sides of the central segments 570 and 574 of the reinforcing fiberboards 440'and 458'. This allows the large lid section 316'to be folded into a smaller transport orientation for fitting into the transport container 320, as depicted in Fig. 142.

More specifically, the large lid section outer portion 434'can be bent about transverse fold lines 442' away from the large lid section inner portion 436'to bring

the board end segments 568 back onto the board central segment 570 of the outer portion 434'. Such back folding is permitted by the segmentation of the board 438'and also by the per lines 564 which allows the folded over flaps 446'to break thereat. The large lid section inner portion 436'is folded back in a similar fashion about transverse fold lines 460'and per lines 566 to bring the board end segments 572 back towards and against the central segment 574 and breaking the panels 464'at the per lines 566 as an incident of such back folding. To complete the assembly of the partially assembled large lid section 316', the undertaker simply removes the large lid section 316'from the transport container in its backfolded transport form, peels the release tape 414'from the folded over side flaps 464'to expose the adhesive 413'thereunder, and then pivots the large lid section outer portion 434'and inner portion 436'about their respective fold lines and per lines, 442', 564, and 460', 566 as indicated by arrows 562 to bring the corresponding end segments 568 and end segments 572 back together while inserting the upstanding tabs 522'along the end flaps 466'into corresponding slots 532'formed in end flaps 448'. Accordingly, the partial preassembly of the large lid section 316'eliminates the folding up of the various components as with the large lid section 316 and requiring that they individually be packed into the transport container 320, and then requiring the undertaker to remove these components and completely assembly the large lid section 316, thus providing substantial savings in time and effort for assembly of the container assembly by the undertaker.

FIGS. 143-148 are directed to the various components of the small lid section 318 which are all substantially the same as the corresponding components in small lid section 318 except for the provision of a central window opening therethrough. Accordingly, Fig. 143 and Fig. 144 illustrate the small lid section outer portion

panel 482'having a central window opening 576 therein with notches 578 provided therearound for mounting of window framing along the edges of the window opening 576. A reinforcing fiberboard 486'for being attached to the panel 482'is shown in Fig. 144, and similarly includes a corresponding window opening 580 including frame mounting notches 582 formed therearound. The small lid section inner portion is similarly modified so that the panel 484' thereof includes a central window opening 584 and the board 488'to be attached to the panel 484'includes a corresponding window opening 586. When the small lid section 318 is assembled, the window openings 576,580 and 584,586 will all be aligned.

FIGS. 147 and 148 show the option of providing adhesive covered with release tape 414'around the window openings of the panels 482'and 484'to allow a fabric cover to be attached to extend around and cover the exterior of the small lid section.

FIGS. 149 and 150 show components for constructing a door to be hinged to the window frame around the window opening of the small lid section. In contrast to the window covers 536 previously described, the window cover panel 588 has a reinforcing fiberboard 590 attached thereto. The panel has pairs of hinge apertures 540'along one side thereof and tassel apertures 542'along the other side with the fiberboard 590 being provided with hinge notches 592 and tassel notches 594 on opposite sides thereof. When the reinforcing fiberboard 590 is attached on the panel 588, the tassel apertures 542'will be aligned with the tassel notches 594 and the hinge apertures 540' will be aligned with the hinge notches 592. In this manner, fasteners for the hinges and tassels will have clearance when inserted in their respective apertures 540' and 542'.

FIG. 151 depicts packing of the transport container 320 and shows the reduced number of components

that need be packed therein with the partially preassembled large lid section 316'. With the previously described container assembly 300 where the large lid section 316 was not preassembled, the large lid section outer portion and inner portion panels 438 and 456, and the large lid section outer and inner portion reinforcing fiberboards 440 and 458 all had to be separately folded for transport and packed in the container 320, as depicted in Fig. 106b. Accordingly, an undertaker had to remove and unfold all these components and then proceed to assemble the large lid section completely from its constituent components, whereas the large lid section 316'can be folded into its compact form and placed in the container 320 so as to only require the undertaker to remove one part and then unfold the backfolded compact form of the large lid section 316'out to its operative orientation in a relatively simple and quick manner thereby significantly reducing the effort and assembly time required of the undertaker.

Turning next to Figs. 152-163, there is shown a flexible or pliant cover 600 preferably made of a fabric or cloth material for covering assembled box container 602.

The box container 602 can be formed in a manner similar to the previously-described main container bodies 12 or 302, and as such is preferably formed with a layered construction with an outer fiberboard panel on the exterior and a treated fluid containment fiberboard panel on the interior with reinforcing honeycomb fiberboards placed therebetween.

The box container 602 has a base 604 with walls, generally designated 606, upstanding from the periphery thereof to an open top 602a of the container 602.

Preferably, the base 604 has a rectangular configuration such that the upstanding walls 606 include two parallel elongate sidewalls 608 and two parallel transverse end walls 610 extending between the ends of the sidewalls 608.

Due to the fiberboard construction of the box

container 602, it is desirable to change the appearance thereof to one that is more attractive and/or expensive over that presented by the low cost fiberboard material from which it is constructed. In this regard, the cover 600 is provided for being attached in a quick and easy manner about the box container 602. For attaching the container 600 to the container 602, adhesive 612 is utilized between the cover 600 and container 602 such that there is no need for separate fastener members to secure the cover 600 to the box container 602 which may otherwise compromise and detract from the appearance of the finished container with the cover 600 attached thereon (see Fig.

158). In this regard, the adhesive 612 is preapplied at predetermined locations on the cover 600 and container 602 with release tape 614 attached on the adhesive 612 and which can be readily removed to expose the adhesive 612 thereunder. In addition, the predetermined locations of the adhesive 612 are such that when the cover 600 is attached on the container 602, there are no fold lines of the cover 600 on the upstanding walls 606 so as to present a smooth, polished appearance thereto.

For attaching the cover 600 to the container 602, the cover 600 is removed from the transport container 290 or 320 in its folded-up state, as best seen in Fig. 152.

The cover 600 includes a skirt portion 616 for being draped in the interior of the container 602, as will be more fully described herein.

After the folded-up cover 600 is removed from the transport container, it is opened and aligned over the box container 602 for being inserted therein. As can be seen in Fig. 153, when the folded-up cover 600 is opened it assumes a rectangular form similar to that of the assembled box container 602 with parallel sides 618 and ends 620 with an open bottom and top. The height of the unfolded cover is greater than twice the height of the box container upstanding walls 606 but less than three times their

height, and more particularly is approximately two and a half times the height of the container walls 606 for reasons that will become apparent herein.

For inserting the unfolded cover 600 in the box container 602, the cover 600 is oriented so that the lower portion is the skirt 616 while the upper portion 611 is the remainder of the cover 600 that is to be attached about the exterior of the box container base 604 and walls 606. The skirt portion 616 has a height substantially corresponding to that of the height of the upstanding walls 606 on their inner surface. The top of the skirt portion 616 can be embroidered or formed of different material so as to present a decorative margin area 617 along the top of the box container walls 606 along the inner sides thereof.

After the opened cover 600 is aligned over the box container top opening 602a, it can be lowered therethrough so that the skirt portion 616 extends down along the inner sides 608a and 610a of the container walls 608 and 610 with the remainder or upper portion 611 of the cover 600 draped around the outer sides 608b and 610b of the walls 608 and 610, as shown in Fig. 154. With the remainder 611 of the cover 600 draped over the top of the walls 606 so as to extend down along their outer sides 608b and 610b, there will be a portion 622 of the cover 600 that extends below the container base 604 past the walls 606 due to the previously set forth relative height dimensions of the cover 600 to the container walls 606. In addition, it should be noted that when the upper portion 611 is draped over the top of the container walls 606, the surfaces 618b and 620b of the upper portion 611 of the cover 600 that are facing opposite surfaces 618b and 620b on the sides 618 and ends 620 of the opened cover 600 will now be facing in opposite directions and will be presented as the exterior of the finished box container (Fig. 158) with the surfaces 618a and 620a of the cover portion 611 extending down along and against and then beyond the exterior surfaces 608b and

610b of the container walls 606. In this regard, the surfaces 618b and 620b can be formed with a more aesthetically pleasing color or design, and/or different material versus the surfaces 618a and 620a of the cover portion 611 that will not be visible when the container 602 is finished.

For attaching the cover 600 to the container 602 with the skirt portion 616 hanging down into the interior of the container 602 along the inner sides 608a and 610a of the container walls 606 and the remainder or upper portion 611 of the cover 600 draped down along the outer sides 608b and 610b of the container walls 608 and 610, adhesive 612 is utilized that has been preapplied around the top of the container walls 608 and 610 on their inner sides 608a and 610a. More specifically, as the inside tops of the container walls 606 can be formed by flaps of the fiberboard panel of either of the main container bodies 12 and 302, the strips of adhesive 612 are located on their outer sides with release tape 614 placed thereover so that when the flaps are folded down into the interior of the container 602, the adhesive 612 and release tape 614 will be located around the top of the container walls 608 and 610 along their inner surfaces 608a and 610a.

Thus, to attach the cover 600 in the interior of the box container 602, the skirt portion 616 is progress- ively lifted around the container 602 for access to the release tape 616 thereunder which can be peeled in sections to expose the adhesive 612 for adhering the skirt portion 616 thereto with this process being repeated until the skirt portion 616 is adhered completely around the top of the container 602. With the skirt portion 616 adhered to the top of the inner sides 608 and 610a of the walls 606, the embroidered portion 617 will run along the top of the wall inner sides 608 and 610a.

To finish attaching the cover 600 to the container 602, the container 602 is turned over so that the

container base 604, and particularly the outer side 604b thereof is readily accessible for adhering cover portion 622 thereto. At the junctures of the sidewalls 608 with the end walls 610, container corners 624 are formed.

Similarly, when the cover 600 is unfolded, the junctures of the sides 618 and ends 620 thereof form corners 626 substantially corresponding to the corners 624 so that when the cover 600 and specifically the portion 611 thereof is draped over the top of the container walls 606, the cover corners 626 will run along the container corners 624.

Strips of adhesive 612a are preapplied on the cover portion 622, and specifically on sections 619 of the sides 618 that are part of the cover portion 622, so that they extend obliquely from the corners 626 to the edge 623 of the cover portion 622, preferably at an angle of approximately 45° thereto, as best seen in Figs. 154 and 155. The oblique adhesive strips 612a are provided on both surfaces 618a and 618b on side sections 619 of the cover portion 622. Associated strips 612a on the inner and outer surfaces 618a and 618b cooperate so as to form oblique fold lines 628 of the cover portion 622 and particularly the side sections 619 thereof for being folded down onto the base outer side 604b. The term associated oblique adhesive strips 612a and release tapes 614a refers to those strips 612a and covering tapes 614a that are on opposite surfaces 618a and 618b of the cover portion side sections 619 adjacent a particular corner 626 of the cover portion 622 and which cooperate to form a single oblique fold line 628.

In this regard, associated oblique adhesive strips 612a extend along cover oblique fold lines 628 on either side thereof on respective inner and outer surfaces 618a and 618b of the side sections 619 of the cover portion 622.

Before forming the fold lines 628, transverse adhesive strips 612 are exposed by peeling release tape therefrom so that sections 621 of the cover ends 620 on the cover portion 622 can be folded about the bottom of the

container end walls 610 and adhered to the outer side 604b of the container box base 604, as shown in Fig. 156.

Thereafter, a longitudinally running adhesive strip 612 on the base surface 604b is exposed by peeling tape 614 therefrom. The oblique fold lines 628 are then formed by removing the release tapes 614a on the inner surfaces 618a and folding the cover portion 622 about associated obliquely extending tapes 614a on the outer surfaces 618b so that the covered oblique adhesive strips 612a thereunder are brought into overlying relation with the associated exposed oblique adhesive strips 612 on the inner surfaces 618a. In this manner, the obliquely extending release tapes 614a on the outer surfaces 618b serve as guides so that the oblique fold lines 628 can be properly and precisely formed to extend at 45° angles from the corners 624 and 626.

With the fold lines 628 properly formed, the obliquely extending release tapes 614a on the outer surfaces 618b of the cover portion side sections 619 can be peeled to expose the oblique adhesive strips 612a thereunder. The cover portion side sections 619 are pulled tightly and then folded down towards the base outer surface 604b so that a small triangular section 630 of the sections 619 will be adhered on the outer surface 620b of the cover end sections 621 already adhered onto the base surface 604b. The small triangular sections 630 of the side sections 619 are adhered to the end sections 621 by way of the exposed oblique adhesive strips 612a on the outer surfaces 618b of the side sections 619.

When opposite side sections 619 are folded over in this manner, the oblique fold lines 628 at adjacent corners 624 of the box container 602 at the ends thereof will meet generally centrally on the container base 604 at the exposed longitudinal adhesive strip 612 thereon. In the preferred and illustrated form, the sections 619 are sized so that there is some overlap at their longitudinal

edges 623 when folded down onto the outer side 604b of the container base 604. Accordingly, when one of the side sections 619a is folded down onto the base surface 604b, it will be adhered thereto by the exposed longitudinal adhesive strip 612 thereon. For attaching the other side section 619b, the side section 619a has an adhesive strip 612c and a release tape 614c on its outer surface 618b and that run along the longitudinal edge 623 thereof. With the side section 619a adhered to the base surface 604b, the tape 614c can be peeled to expose the longitudinal adhesive strip 612c thereon so that when side section 619b is pulled tightly and folded over the bottom edge of the corresponding box sidewall 608 toward the base 604, its longitudinal edge 623 can be adhered onto the exposed longitudinal strip 612c to attach the section 619b against the base 604.

Thus, with the side sections 619 adhered to the box container base 604, the finished box container and cover assembly 632 will have the more refined and expensive appearance of the material of the fabric cover 600, and particularly that utilized on the outer surfaces 618b and 620b thereof, and also of the cover skirt 616 and embroidered margin 617 in the interior of the container 602. Contributing to the highly refined and expensive appearance is the fact that there are no fold lines of the cover 600 that are visible on the sidewalls 608 or end walls 610 of the box container 602. The use of preapplied adhesive strips 612 also avoids the use of fastener members for attaching the cover 600 to the container 602 which may otherwise compromise the appearance of the finished container assembly 632 and require additional parts, and add expense and time to the process of covering the container 602.

After adhering the unitary cover 600 to the container 602 as described above, only the upper interior surface 604a of the container base 604 remains exposed. To

cover the base surface 604a, a liner 634 of dimensions substantially corresponding to that of the exposed base surface 604a is placed in the interior of the finished container assembly 632 on the base surface 604a, as shown in Fig. 158. Fig. 159 shows a padded insert 636 and a pillow 638 that can be inserted on top of the liner 634 and onto which a corpse can be placed.

Referring next to Figs. 160-163, covers 640 and 642 utilized for large lid section 644 and how they are attached thereto are shown. The lid, generally designated 639, for the finished box container assembly 632 preferably has a large lid section 644 and a small lid section 646 that are sized so as to cooperate to close the top opening 602a of the finished container assembly 632 when resting on the tops of the covered walls 606 thereof. The large lid section 644 and small lid sections 646 correspond substantially to that of the previously-described sectioned lids such that each section 644 and 646 is provided with respective large outer portions and smaller inner portions to provide a lip around the inner portions, less one transverse edge thereof, for resting on the container walls 606 with the inner portions of the sections extending into the container interior. The large lid section 644 preferably is constructed utilizing the previously- described large lid section outer portion 434'and large lid section inner portion 436'.

The use of large lid section outer portion 434' and large lid section inner portion 436'is preferable because they both include respective transverse joints 648 and 650 defined by fold lines and perf lines provided in their panels and reinforcing fiberboards as previously- described to allow the lid portions 434'and 436'to be bent back onto themselves to make the lid more compact for fitting into the transport container 320 while still keeping it in a partially preassembled form. These joints 648 and 650 can be advantageously utilized to allow the lid

portions 434'to be bent from their normal flat configurations to a slightly bent configuration which allows them to be more readily fit into respective pockets 652 and 654 provided on the periphery of the fabric covers 640 and 642, as best seen in Figs. 160 and 162. With the lid portions 434'and 436'bent, they will be shorter in their lengthwise dimension so that their ends can clear the ends 652a and 654a of the respective pockets 652 and 654.

Subsequent straightening of the portions 434'and 436'will cause their ends to slide into the respective pocket ends 652a and 654a for being tightly received therein.

As the fabric covers 640 and 642 have substantially the same width and length dimensions as their corresponding lid portions 434'and 436', it would be a very difficult and cumbersome proposition to fit the covers 640 and 642 over their respective lid portions 434'and 436', and would require stretching of the fabric material and/or bending of the otherwise rigid lid portions absent the joints 648 and 650 provided therein. Accordingly, the jointed lid portions 434'and 436'are well adapted to be fit into their respective cover pockets 652 and 654 in a tight fitting manner without requiring such stretching of the fabric cover 640 and 642 or bending of rigid lid portions.

To finish the covering of the large lid section outer portion 434', adhesive 612 provided on the flaps of the panel utilized to form the lid portion 434'is exposed by lifting the pocket 652 up to access the release tape 614 thereunder. The release tape 614 can then be peeled from the adhesive 612 with the pocket material 652 being pressed down thereon to adhere the cover 640 to the lid outer portion 434'.

In a similar manner, the covering of the large lid section smaller portion 436'is finished by lifting the pocket 644 to access release tape 614 thereunder. The release tape 614 can then be peeled to expose the adhesive

612 with the pocket material 654 then being pressed down onto the exposed adhesive 612 to adhere the cover 642 to the lid inner portion 436'. The position of the adhesive 612 on the lid inner portion 436'and the size of the pocket 654 is such that when the pocket 654 is adhered onto the adhesive 612, there will still be a portion of the adhesive 612 that is spaced inwardly and exposed from the inner edge of the pocket 654. In this manner, when the lid inner portion 436'is finished with the cover 642 adhered thereto, the exposed adhesive 612 on the covered lid inner portion 436'can be pressed onto the underside of the finished lid outer portion 434'for being adhered thereto.

Instead of using tabs and cooperating slots to properly position the finished large lid section inner portion 436'centered on the large lid section outer portion 434', locating jigs 656 can be placed on each corner of the finished large lid section outer portion 434', as shown in Figs. 161 and 162. With both the large lid section outer portion 434'and inner portion 436' finished including respective covers 644 and 646 adhered thereon, the jigs 656 are placed on the finished large lid outer portion 434'and the finished large lid section inner portion 436'can be centered thereon by way of the jigs 656. The jigs 656 frame the corners of the covered lid inner portion 436'so that it is centered on the outer portion 434'as it is adhered thereto with the adhesive 612 on the lid inner portion 436'that is exposed inwardly of the cover pocket 654. In this manner, there is no need to cut the fabric covers 640 and 642 for using tabs and slots formed in the lid portions 434'and 436'.

Because the large lid section outer portion 434' will form part of the container exterior surfaces when placed on the finished box container 632, the cover 640 used thereon should preferably be of the same material, color and/or design as the cover portion 611, and particularly the outer surfaces 618b and 620b thereof. On

the other hand, the cover 642 for the large lid section inner portion 436'should preferably be matched to the skirt portion 616 of the container cover 600 as it will be exposed in the interior of the container 602 when the lid section 644 is placed thereon. The small lid section 646 can also be provided with fabric covers for tightly fitting about the outer portion and inner portion thereof in a manner similar to that of the large lid section 644.

While there have been illustrated and described particular embodiments of the present invention, it will be appreciated that numerous changes and modifications will occur to those skilled in the art, and it is intended in the appended claims to cover all those changes and modifi- cations which fall within the true spirit and scope of the present invention.