US6983704B1 | 2006-01-10 | |||
US5507237A | 1996-04-16 | |||
GB2004525A | 1979-04-04 | |||
US5292012A | 1994-03-08 | |||
US6422405B1 | 2002-07-23 | |||
US4165806A | 1979-08-28 | |||
US6357365B1 | 2002-03-19 |
CLAIMS: 1. A cargo rack comprising: a) a frame having a front, a rear, and upper and lower end portions; b) the lower end portion of the frame providing a base with a floor providing multiple load holding positions, each configured to hold a separate load module; c) a plurality of load modules that are supported with the frame during use; d) the frame including a plurality of side walls that attach to and extend upwardly from the perimeter beam base and including at least left and right side walls, the frame having four corners with a corner column at each corner; e) at least one intermediate column positioned in between two corner columns; f) a plurality of gates that are movably mounted to the frame, including a pair of gates at the front and a pair of gates at the rear of the frame, each gate being movably mounted to the frame between open and closed positions, each gate spanning in a horizontal direction from a corner column to an intermediate column; g) a plurality of lifting eyes attached to the upper end portion of the frame, each lifting eye attached to the frame next to an intermediate column; and h) inner walls that separate the base into said load holding position, said inner walls spanning between intermediate columns to define a transverse support that is generally aligned with a pair of lifting eyes. 2. The cargo rack of claim 1 wherein there are four load holding positions. 3. The cargo rack of claim 1 wherein there are a pair of gates at the front of the frame. 4. The cargo rack of claim 1 wherein there are a pair of gates at the rear of the frame. 5. The cargo rack of claim 1 wherein at least a part of the floor is inclined. 6. The cargo rack of claim 5 wherein the floor attaches to an upper end portion of the perimeter beam. 7. The cargo rack of claim 5 wherein there is a drain opening in the floor. 8. The cargo rack of claim 1 wherein the floor attaches to an upper end portion of the perimeter beam. 9. The cargo rack of claim 1 further comprising clamps movably attached to the upper end of the frame between clamping and release positions for restraining vertical movement of a load that is placed on the floor. 10. The cargo rack of claim 1 further comprising raised portions that extend above the raised floor for providing a level surface to engage a load placed on a load holding position of the frame. 11. A cargo rack comprising: a) a frame having a perimeter, a front, a rear, and upper and lower end portions; b) the frame including a plurality of side walls extending upwardly from the frame perimeter and including at least left and right side walls, four corners that each provide a corner column and an intermediate column at the front and rear of the frame in between the corner columns; c) a plurality of gates that are movably mounted to the frame, including a pair of gates at the front of the frame and a pair of gates at the rear of the frame, each gate being movable between open and closed positions, each gate extending between a corner column and an intermediate column; and d) the frame having a raised floor that provides a plurality of load holding positions. 12. The cargo rack of claim 11 wherein there are four load holding positions. 13. The cargo rack of claim 11 wherein there are a pair of gates at the front of the frame. 14. The cargo rack of claim 11 wherein there are a pair of gates at the rear of the frame. 15. The cargo rack of claim 11 wherein the load platform includes inclined portions. 16. The cargo rack of claim 15 wherein there is a drain in the load platform. 17. The cargo rack of claim 11 wherein the frame lower end portion includes a plurality of perimeter beams and the load platform attaches to the perimeter beams. 18. The cargo rack of claim 17 wherein the load platform attaches to the upper end portion of at least one of the perimeter beams. 19. The cargo rack of claim 11 further comprising clamps movably attached to the upper end of the frame between clamping and release positions for restraining vertical movement of a load that is placed on the load platform. 20. A cargo rack comprising: a) a frame having a floor, a front, a rear and upper and lower end portions; b) a plurality of load modules that are supported within the frame and upon the floor during use; c) the frame including a plurality of side walls extending upwardly from a perimeter beam and including at least left and right side walls, the frame having four corners and a corner column at each corner; d) a plurality of gates that are movably mounted on the frame, including a pair of gates at the front of the frame and a pair of gates at the rear of the frame, each gate being movable between open and closed positions, the gates enabling the load modules to be loaded laterally to the floor by accessing either the front or the rear of the frame; e) the frame having positioning beams that segment the floor into a plurality of load holding positions, each having positioning beams that laterally hold one of the load modules in position once a load module is placed on the floor and in a load holding position; and f) wherein the gates expose a majority of the width of the floor for loading a tank to a selected load holding position on the floor, either at the front or at the rear of the frame when the gates are opened. 21. The cargo rack of claim 20 wherein there are a pair of gates at the front of the frame. 22. The cargo rack of claim 20 wherein there are a pair of gates at the rear of the frame. 23. The cargo rack of claim 20 wherein the floor is inclined. 24. The cargo rack of claim 23 wherein the floor attaches to the upper end portion of at least some of the perimeter beams. 25. The cargo rack of claim 23 wherein there is a drain in the floor. 26. The cargo rack of claim 20 wherein the floor attaches to the upper end portion of at least some of the perimeter beams. 27. The cargo rack of claim 20 further comprising clamps movably attached to the upper end of the frame between clamping and release positions for holding restraining vertical movement of a load that is placed on the floor. 28. The cargo rack of claim 20 further comprising raised pedestals that extend above the floor for providing a level surface to engage a load placed on a load holding position of the frame. 29. The cargo rack of claim 20 wherein there are four load holding positions. |
OFFSHORE CARGO RACK FOR USE IN TRANSFERRING LOADS
BETWEEN A MARINE VESSEL AND AN OFFSHORE PLATFORM
CROSS-REFERENCE TO RELATED APPLICATIONS
This is a nonprovisional patent application of US Provisional Patent Application Serial No. 61/657,776, filed 09 June 2012, which is hereby incorporated herein by reference.
Priority of US Provisional Patent Application Serial No.61/657,776, filed 09 June 2012, which is incorporated herein by reference, is hereby claimed.
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT
Not applicable
REFERENCE TO A "MICROFICHE APPENDIX"
Not applicable
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to cargo racks for transferring goods between marine vessels and offshore platforms such as oil and gas well drilling and production platforms. More particularly, the present invention relates to an improved cargo rack that enables a user to load the rack with multiple load modules (e.g. fluid containing vessels or tanks), palletized loads, bulk bags (or other loads) and to then transport the entire rack using a lifting device such as a crane or a forklift from one locale (e.g. marine vessel) to another locale (e.g. marine platform). Additionally, the entire rack can be moved on land or on the platform with a crane or forklift. When supporting fluid holding vessels or tanks, a specially configured manifold can be used to empty a particular or selected tank or vessel. Lifting fittings are placed at the top of intermediate columns and inner reinforcement members (e.g. inner braces or walls) transfer load from one intermediate column to another intermediate column. 2. General Background
In the exploration of oil and gas in a marine environment, fixed, semi submersible, jack up, and other offshore marine platforms are used during drilling operations. Fixed platforms are typically used for production of oil and gas from wells after they have been drilled. Drilling and production require that an enormous amount of supplies be transported from land based storage facilities. Supplies are typically transferred to offshore platforms using very large marine vessels called work boats. These work boats can be in excess of one hundred feet (30.48 meters) in length and have expansive deck areas for carrying cargo that is destined for an offshore platform. Supplies are typically transferred from a land based dock area to the marine vessel using a lifting device such as a crane or a mobile lifting and transport device such as a forklift.
Once a work boat arrives at a selected offshore platform, supplies or products are typically transferred from the deck of the work boat to the platform using a lifting device such as a crane.
Once on the deck of a drilling platform or production platform, space is at a premium. The storage of supplies on an offshore oil well drilling or production platform is a huge problem.
Many cargo transport and lifting devices have been patented. The table below lists some patents that relate generally to pallets, palletized racks, and other cargo racks. The following patents and publications are incorporated herein by reference:
TABLE 1
PATENT NO. TITLE ISSUE DATE
5,078,415 Mobile Carrier for Gas Cylinders 01-07-1992
5,156,233 Safety Anchor for Use with Slotted Beams 10-20-1992
5,292,012 Tank Handling and Protection Structure 03-08-1994
5,507,237 Lifting Apparatus for Use with Bulk Bags 04-16-1996
5,906,165 Stackable Tray for Plants 05-25-1999
6,058,852 Equipment Skid 05-09-2000
6,357,365 Intermediate Bulk Container Lifting Rack 03-19-2002
6,371,299 Crate Assembly and Improved Method 04-16-2002
6,422,405 Adjustable Dunnage Rack 07-23-2002
6,668,735 Pallet with a Plastic Platform 12-30-2003
6,725,783 Pallet for Stacking Planographic Printing 04-27-2004
Plates Thereon
International Application Serial No. PCT/US2011/063524, filed 06 December 2011 (published as No. WO 2012/078625 on 14 June 2012) and US Patent
Application Serial No. 13/312,547, filed 06 December 2011 (published as US
152012-0138554 Al on 07 June 2012), which is a nonprovisional patent application of
US Provisional Patent Application Serial No. 61/420,155, filed 06 December 2010 are related applications by the same inventor. Each of these applications is hereby incorporated herein by reference.
International Application Serial No. PCT/US2012/071071, filed 20 December 20 2012 and US Patent Application Serial No. 13/722,954, filed 20 December 2012, which is a nonprovisional patent application of US Provisional Patent Application Serial No. 61/578,830, filed 21 December 2011 are related applications by the same inventor. Each of these applications is hereby incorporated herein by reference.
This is not a continuation or continuation-in-part of any patent application. 25 BRIEF SUMMARY OF THE INVENTION
The present invention provides a cargo rack having a frame with front, rear, and upper and lower end portions;
The lower end portion of the frame provides abase with a floor providing multiple load holding positions, each configured to hold a separate load module. A plurality of load modules are supported with the frame during use.
The frame includes a plurality of side walls that attach to and extend upwardly from the perimeter beam base and including at least left and right side walls, the frame having four corners with a corner column at each corner.
At least one intermediate column is positioned in between two corner columns.
A plurality of gates are movably mounted to the frame, including a pair of gates at the front and a pair of gates at the rear of the frame, each gate being movably mounted to the frame between open and closed positions, each gate spanning in a horizontal direction from a corner column to an intermediate column.
A plurality of lifting eyes are attached to the upper end port of the frame, each lifting eye attached to the frame next to an intermediate column.
Inner walls or braces separate the base into the load holding positions, the inner walls spanning between intermediate columns to define a transverse support that is generally aligned with a pair of lifting eyes.
In one embodiment, there are four load holding positions.
In one embodiment, there are a pair of gates at the front of the frame.
In one embodiment, there are a pair of gates at the rear of the frame.
In one embodiment, at least a part of the floor is inclined.
In one embodiment, the floor attaches to an upper end portion of the perimeter beam.
In one embodiment, there is a drain opening in the floor.
In one embodiment, the floor attaches to an upper end portion of the perimeter beam.
In one embodiment, clamps are movably attached to the upper end of the frame between clamping and release positions for restraining vertical movement of a load that is placed on the floor.
In one embodiment, raised portions extend above the raised floor for providing a level surface to engage a load placed on a load holding position of the frame.
In one embodiment, the cargo rack provides a frame having a perimeter, a front,a rear, and upper and lower end portions.
The frame includes a plurality of side walls extending upwardly from the frame perimeter and including at least left and right side walls, four corners that each provide a corner column and an intermediate column at the front and rear of the frame in between the corner columns.
A plurality of gates are movably mounted to the frame, including a pair of gates at the front of the frame and a pair of gates at the rear of the frame, each gate being movable between open and closed positions, each gate extending between a corner column and an intermediate column.
The frame has a raised floor that provides a plurality of load holding positions. The cargo rack of claim 11 wherein the load platform includes inclined portions.
In one embodiment the load platform includes inclined portions.
In one embodiment the frame lower end portion includes a plurality of perimeter beams and the load platform attaches to the perimeter beams.
In one embodiment the load platform attaches to the upper end portion of at least one of the perimeter beams.
Another embodiment provides a cargo rack having a frame with a floor, a front,a rear and upper and lower end portions.
A plurality of load modules are supported within the frame and upon the floor during use.
The frame includes a plurality of side walls extending upwardly from the perimeter beam and including at least left and right side walls, the frame having four corners and a corner column at each corner.
A plurality of gates are movably mounted on the frame, including a pair of gates at the front of the frame and a pair of gates at the rear of the frame, each gate being movable between open and closed positions, the gates enabling the load modules to be loaded laterally to the floor by accessing either the front or the rear of the frame.
The frame has positioning beams that segment the floor into a plurality of load holding positions, each having positioning beams that laterally hold one of the load modules in position once a load module is placed on the floor and in a load holding position.
The gates expose a majority of the width of the floor for loading a tank to a selected load holding position on the floor, either at the front or at the rear of the frame when the gates are opened.
In one embodiment there are raised pedestals that extend above the floor for providing a level surface to engage a load placed on a load holding position of the frame.
In one embodiment there are four load holding positions.
BRIEF DESCRIPTION OF THE DRAWINGS
For a further understanding of the nature, objects, and advantages of the present invention, reference should be had to the following detailed description, read in conjunction with the following drawings, wherein like reference numerals denote like elements and wherein:
Figure 1 is an elevation view of a preferred embodiment of the apparatus of the present invention;
Figure 2 is a top, plan view of a preferred embodiment of the apparatus of the present invention taken along lines 2 - 2 of Figure 1;
Figure 3 is an end view of a preferred embodiment of the apparatus of the present invention taken along lines 3 - 3 of Figure 2;
Figure 4 is an end view of a preferred embodiment of the apparatus of the present invention, taken along lines 4 - 4 of Figure 2;
Figure 5 is a sectional view taken along lines 5 - 5 of Figure 1;
Figure 6 is a sectional view of a preferred embodiment of the apparatus of the present invention, taken along lines 6 - 6 of Figure 1;
Figure 7 is a sectional view of a preferred embodiment of the apparatus of the present invention, taken along lines 7 - 7 of figure 2;
Figure 8 is a fragmentary view of a preferred embodiment of the apparatus of the present invention;
Figure 9 is an end view of a preferred embodiment of the apparatus of the present invention;
Figure 10 is a fragmentary view of a preferred embodiment of the apparatus of the present invention;
Figure 11 is a perspective view of a preferred embodiment of the apparatus of the present invention;
Figure 12 is a fragmentary perspective view of a preferred embodiment of the apparatus of the present invention;
Figure 13 is a fragmentary perspective view;
Figure 14 is a sectional view showing an alternate manifold arrangement; Figure 15 is a sectional view taken along lines 15 - 15 of Figure 14;
Figure 16 is an elevation view illustrating a stacking of two cargo racks;
Figure 17 is a fragmentary elevation view of a preferred embodiment of the apparatus of the present invention;
Figures 18 - 23 are fragmentary views illustrating details of the gates and gate closures;
Figure 24 is a view of an alternate embodiment of the apparatus of the present invention, taken along lines 24 - 24 of Figure 25;
Figure 25 is a top, plan view of an alternate embodiment of the apparatus of the present invention, taken along lines 25 - 25 of Figure 24;
Figure 26 is an end view of an alternate embodiment of the apparatus of the present invention, taken along lines 26 - 26 of Figure 25;
Figure 27 is a sectional view of an alternate embodiment of the apparatus of the present invention, taken along lines 27 - 27 of Figure 25;
Figure 28 is a fragmentary view of an alternate embodiment of the apparatus of the present invention;
Figure 29 is a fragmentary view of an alternate embodiment of the apparatus of the present invention; and
Figure 30 is a perspective view of an alternate embodiment of the apparatus of the present invention.
Figures 31 -83 are photograph views of an alternate embodiment of the apparatus of the present invention.
DETAILED DESCRIPTION OF THE INVENTION
Figures 1 - 23 show a preferred embodiment of the apparatus of the present invention designated generallyby the numeral 10. The preferred embodiment lOprovides a transportable cargo rack that is configured to hold multiple cargo modules or tanks 105.
Cargo rack 10 provides a frame 11 having an upper end portion 12 and a lower end portion 13. The lower end portion 13 includes a base 14. Base 14 can provide a bottom 15 configured to rest upon an underlying support surface such as a floor 16.
Base 14 floor 16 is divided into a number of floor segments or quadrants 17, 18,
19, 20. Each floor segment or quadrant 17-20 can contain a load module or tank 105. This arrangement can be seen in figure 11 wherein four floor segments or quadrants 17 - 20 are provided, each being occupied by a tank or load module 105.
Frame 11 has sidewalls or gates or doors. In a preferred embodiment, there are four doors 21, 22, 23, 24. The doors 21 - 24 are arranged in pairs. As shown in figure 2, there are a pair of doors 21 , 22 at one end portion of frame 11. There are another pair of 5 doors 23, 24 at the opposing end portion of the frame 11, positioned generally opposite doors 21, 22 as shown in figure 2.
Each door 21-24 is movably (e.g. hingedly) attached to frame 11. Hinges 25, 26, 27, 28 are provided. The door 21 attaches to frame 11 at hinges 25. The door 22 attaches to frame 11 at hinges 26. Similarly, door 23 attaches to frame 11 at hinges 27. Door 24 10 attaches to frame 11 at hinges 28.
Each of the hinges 25 - 28 is attached to a corner column. There are four corner columns 29, 30, 31, 32. Frame 11 also provides a plurality of intermediate columns. There is an intermediate column in between each pair of corner columns 29 - 32. Upper interior horizontal supports 37 - 40 form a connection between each intermediate column 15 33 - 36 and a central column 41. Diagonal supports 42 - 45 are also provided, each diagonal support 42 - 45 extending between the central column 41 and an intermediate 33 - 36 (see figures 7 and 9). Lower horizontal supports 46, 47, 48, 49 are provided, each extending between the central column 41 and an intermediate column 33 - 36. Each lower horizontal support 46 - 49 can be positioned below the diagonal supports 42 - 45 20 as shown in figures 7 and 9. Thus, interior walls are provided that extend between each intermediate column 33 - 36 and the central column 41. Each wall or divider can be comprised of an upper interior horizontal support 37 - 40, a diagonal support 42 - 45, a lower interior horizontal support 46 - 49 and a plate section 50 - 53.
Plate sections 50, 51, 52, 53 extend between floor 16 and a lower horizontal
25 support 46, 47, 48 or 49. Each plate section 50 - 53 can have openings 120 for enabling easy cleanup or wash down. In figure 7, the plate section 50 extends between floor 16 and lower horizontal support 46. Plate section 52 extends between floor 16 and lower horizontal support 48. Each of the plate sections 50- 53 can be provided with openings or slots 120 that enable fluid to travel from one floor segment or quadrant 17, 18, 19, 20
30 to another floor segment or quadrant 17, 18, 19, 20 such as might occur during washing of the apparatus 10.
Four lifting assemblies 54, 55, 56, 57 are provided. Each lifting assembly (see figures 12, 13) is attached to an upper end portion of an intermediate column 33, 34, 35, 36. Peripheral horizontal members 58 spanbetween each intermediate column 34, 36 and a corner column 29, 30, 31 , 32. Upper central fitting 59 (see figure 9) can be in the form of a block that is receptive of and forms a connection (for example, welded) with central column 41 and each of the upper interior horizontal supports 37, 38, 39, 40 as shown in figures 2 and 7.
In figures 12 and 13, each lifting assembly 54, 55, 56, 57 provides a lifting block or body 60. While one of the lifting assemblies 54 as shown in figures 12 and 13, it should be understood that each of the lifting assemblies 55, 56, 57 can be of the same configuration as shown in figures 12 and 13 for the lifting assembly 54. Lifting block or body 60 has side surfaces 61, 62, front surface 63, and rear surface 64. The lifting block or body 60 has an upper end portion 65 and a lower end portion 66. Upper end portion 65 provides a recess or slot 67 that enables attachment of a lifting sling 80 to the block or body 60 using pin 69 as shown. Openings 68 are provided in block or body 60 extending between each side surface 61, 62 and the recess or slot 67. Pin 69 spans between the openings 68 when the apparatus is to be lifted using slings or lift lines 80. Pin 69 has annular grooves 70 that each interlock with a plate 71 or 72. Each plate 71, 72 has an opening 73 or 74. Similarly sized and shaped openings are provided on body or block 60 so that a bolted connection can be formed using bolt 75 and a nut 79 as shown in figures 12 and 13.
The annular grooves 70 of pin 69 register in slots 77 of end plates 71 , 72 as shown in figure 12. Each of the slots 77 communicates with a circular opening 76 that is slightly larger than the diameter of the pin 69. In this fashion, the pin 69 can pass through the openings 76 of the plates 71, 72. The pin 69 is too large to occupy the recess or slot 77. However, each annular groove 70 at an end portion of the pin 69 is sized and shaped to enable the pin 69 to interlock with the plates 71 , 72. The annual grooves 70 enable this fit of pin 69 to the plate 71 or 72 at the slot 77 as shown in figure 13.
A cover plate 78 can be placed over the block or body 60, the plate 78 being receptive of the bottom 15 of another rack 10 when they are stacked upon one another as shown in figure 16. A lifting line or sling 80 has an eyelet 81 which can be rigged to the pin 69 as shown in figure 13. When a crane or other implement lifts upwardly on the slings 80, each sling 80 eyelet 81 transfers load to the pin 69 and thus to the lifting assembly 54, 55, 56, 57 and thus to the frame 11. Figure 11 illustrates a lifting implement or hook or crown block 82 that is commonly employed in combination with a lifting device such as a crane. Other lifting fitting such as a ring or shackle 83 can be employed as an interface between the slings 80 and the lifting implement 82.
Figure 6 illustrates a manifold or header 84 that can be used to transfer fluid from any one of the load modules or tanks 105 and a discharge or outlet fitting or coupling 91. Header or manifold 84 is contained within base 11 interior 85. The base 11 has a bottom panel 86. A pair of beams or channels 87, 88 extend through base 11 , each providing an opening or bore 89, 90 that is receptive of a forklift tine (see figure 1). In this fashion, the frame 11 can be lifted using a forklift by engaging the forklift tines in the bores 89, 90 of the beams or channels 87, 88.
Valve 92 having valve handle 93 can be placed immediately upstream of discharge of outlet fitting or coupling 91. Header 84 communicates with valve 92. A plurality of four flow lines 94, 95, 96, 97 empty their contents into header 84 as shown in figure 6. Each of the flow lines 94, 95, 96, 97 attaches to a different one of the tanks or modules 105. A detail of the fluid connection between a tank or module 105 and header 85 can be seen in figure 10. Figure 10 illustrates the connection of a single flow line 94 to a tank 105. It should be understood that each of the flow lines 94, 95, 96, 97 can be similarly connected to a tank or module.
Flow line 94 connects to swivel 98. The swivel 98 connects to a riser 99 at elbow fitting 100. Another elbow fitting 101 connects to hose section 102. Hose section 102 is provided with a quick connect fitting 103 that forms a quick connect with a flow line 106 that exits the tank or module 105. This connected position can be seen in figure 11. In figure 11, a tank discharge flow line 106 is shown which can be provided with a tank discharge valve 107. Tank discharge flow line 106 can be provided with a quick connect that forms a connection with the quick connect fitting 103 of figure 10. The swivel 98 enables movement of the quick connect fitting 103 as shown by arrows 104 in figure 10.
Each corner column 29 - 32 can be provided with a stacking fitting 1 10 which enables one cargo rack 10 to be stacked upon another cargo tank 10 as seen in figure 16. Each stacking fitting 110 can be connected to (e.g. welded) to a gusset or stiffener plate
111. Each stacking fitting 110 provides a horizontal and preferably rectangular plate 112 and two vertical plates 113, 114 which intersect at right angles and which extend upwardly from the periphery of plate 112 (see figure 2, 11).
Module receptacles 115 are provided for supporting each corner of a tank or module 105. Each receptacle 115 has a lower plate 116 and side, vertical plates 117, 118 as seen in figures 1 - 5, 11, and 16. Each tank or module 105 has four feet 119, each foot 5 119 registering upon a module receptacle 115 as seen in figure 11, 40 -42.
A drain is provided for draining fluids from floor 16 such as might occur during a wash down or if there is leakage from one of the modules 105. Drain channel 121 is mounted just under floor 16 as seen in figures 7 - 8. Drain channel 121 has flow bore 122. A plurality of floor openings 123 are provided, such as one of the openings 123
10 under each opening 120 as shown in figure 8. Drain channel inlet openings 124 are ports or openings in the channel 121 and are aligned with the floor openings 123. Arrows 125 in figure 8 illustrate the flow path of fluid that drains from floor 16 to channel 121 bore 122. Fluid received in channel 121 flows via gravity to drain pipe 126. Pipe 126 is closed at one end portion with cap 127. The other end portion of pipe 126 is fitted with
15 valve 129. In figure 8, arrow 128 illustrates flow direction of fluid in pipe 126.
Figures 17 - 23 illustrate the doors 21 - 24 and the mechanism for opening or closing a door. While doors 21 - 22 are shown in figures 17 - 23, the same configuration could be used for doors 23 - 24. Each door 21, 22 has a pair of vertical members. The door 21 has vertical members 130, 131. The door 22 has vertical members 132, 133.
20 Horizontal members span between the vertical members of each door 21, 22 as shown.
The door 21 has horizontal members 134 that span between vertical members 130, 131. Similarly, horizontal members 135 span between the vertical members 132, 133 of the door 22. The innermost vertical members 131, 133 are an assembly that includes vertical flanged members 140, 141, rods 138, 139, sleeves 142, 143 and other plates and guides
25 that will be described more fully hereinafter.
Each door 21, 22 can be opened or closed using levers 153, 154 which are attached to the rods 138, 139. Each rod 138, 139 is mounted in a sleeve and in rod guides. The rod 138 is able to move up and down while being supported by sleeve 142, upper rod guide 144, lower rod guide 146 while being moved up or down with a lever
30 153. In figure 17 there are two rods 138 associated with the door 21. It should be understood, that the door 21 as constructed can be used when inverted such as if for replacing one of the other doors. Similarly, the door 22 has two rods 139, each rod having an attached lever 154. The rod 139 is supported by upper rod guides 145, lower rod guides 147 and sleeve 143. Each of the rod guides 144, 145, 146, 147 provides a rod opening 148 through which a rod 138 or 139 can pass (see figures 17, 19). An upper plate 136 and a lower plate 149 are provided for locking a gate 21, 22 in a closed position when a rod 138, 139 is moved upwardly using a lever 153 or 154. In figure 17, all of the rods 138, 139 are in an open position. Figures 22 and 23 illustrate a movement of lever 153 from the open position of figure 17 to the closed position. In figure 23, the lever 153 is shown being moved to the closed position as indicated by arrows 161, 162.
Each of the upper and lower rod guides 144, 147 can be in the form of a horizontal flange 150 or 151.
The upper plate 136 has plate openings 137. Similarly, the lower plate 149 has lower plate openings 152.
Each lever 153, 154 has a lever opening for enabling the lever 153, 154 to be attached to a Tee shaped fitting 157. The lever 153 has lever opening 155. The lever 154 has lever opening 156. Each of the Tee fittings 157 is mounted to a vertical plate. For the door 21, the plate 158 carries two such Tee fittings 157 as shown in figures 17 - 23. Similarly, for the door 22, the plate 159 carries two of the Tee fittings 157. For each door 21, 22 there are a pair of the plates 158 or 159 as shown in figure 17.
In order to lock the gate 21 or 22, the levers 153 or 154 move toward the upper plate 136 for the upper rods or toward the lower plate 149 for the lower rods. When the levers 153 or 154 are moved to the locking Tee fitting 163 as shown in figures 17, 22 and 23, the rods automatically interlock with the openings 137 of the upper plate or the openings 152 of the lower plate. The rods also pass through the rod openings 148 of the upper and lower rod guides 144 - 147.
In alternate embodiments as shown in figures 24 - 30 and photos 31 - 83, a rack 10A is provided wherein the intermediate columns 33 - 36 are replaced by intermediate columns 164, 165, 166, 167 (see figures 77-83) and inclined columns or outer diagonal supports 168, 169, 170, 171 (see figures 25-26, 77). These columns are horizontally braced with upper, inner horizontal members 172, 173, 174, 175 and upper, outer horizontal members 176, 177, 178, 179 (see figure 25, 77-78). One of the intermediate columns can be hollow and provided with an elevating support member 180 having an upper eyelet 181 (see figure 80). A worker can tie a safety harness to the eyelet 181 if the worker is climbing upon tanks contained within the overall rack 10A. The support member 180 has a horizontal pin 189 that travels in slot 182. Slot 182 has offset sections 183, 184 which enable the support member to be locked into an elevated position or a 5 retracted position (see Figures 52, 54-55, 80-83).
Inner lower horizontal supports 185, 186, 187, 188 are each welded to one another at center 289 and to an intermediate column 164, 165, 166, 167 as shown in Figures 25, 33, 77-78. Each inclined column or outer diagonal support 168, 169, 170, 171 is connected (e.g. welded) to a lower horizontal support 185, 186, 187, 188 as shown
10 in Figures 24 - 25, 33, 77. An inner diagonal support 190 - 193 can extend between each lower inner horizontal support 185 - 188 and each upper inner horizontal member 172 - 175 as shown in figure 27, 34, 38.
In Figures 24-30 , as with the preferred embodiment of figures 1-23, the alternate embodiment of the cargo rack 10A provides a frame 294. The rack 10A is adapted to
15 carry a plurality of modules or tanks 105 at the different floor segments or quadrants 17, 18, 19, 20. As with the preferred embodiment, there are provided four gates or doors 21 , 22, 23, 24. A header or manifold 194 can include regular pipe, fittings and/or spool pieces or it can include flexible sections 195 (see figure 59). Flexible sections 195 are provided in both first and second header or manifold sections 197, 198 (see figures 60-
20 61). Flexible sections 195 can be chemically resistant hose such as is shown and described in US Patent number 5,647,400 which is hereby incorporated herein by reference. The sections 197, 198 can be connected with a flanged connection 196 (see figure 60). The flanged connection can be opened or closed using a plate or an orifice, depending upon whether identical or different fluids are being transported in tanks or
25 modules 105. Each section 197, 198 can be provided with a discharge and a valve (or valves) to control discharge from a selected tank or module 105. Each section 197, 198 can provide risers 199 and fittings such as elbow fittings 200 in order to connect the manifold or header 194 to multiple tanks or modules 105. Openings 203 are provided for receiving risers 199 and or elbow fittings 200 or other pipe or fittings (see figures 42, 53,
30 56-59, 61). Header or manifold 194 can be secured to beams 87, 88 using hangers or brackets 201 and/or lateral support members 202 (see figures 44-45). Lateral support members 202 can provide a concavity for receiving a pipe section of header or manifold 194 to this secure it from lateral movement (see figures 44-50).
In an embodiment of figures 24-83, rack 10A may include gates 21, 22, 23, 24 which maybe attached to corner columns 205 - 208 by hinges 204 (see figures 25-26, 57- 58).
In an embodiment of figures 24-30, there is no center column or central column
41. Rather, a bracing arrangement is provided for each of the lifting eyes or lifting assemblies 290, 291, 292, 293 by placing each lifting eye or lifting assembly 290 -293 upon the top of an inclined column or outer diagonal support 168-171 as shown in figures 25-27. As with the preferred embodiment, the cargo rack 1 OA provides upper horizontal members. However, for rack 10A the upper horizontal members include four upper interior horizontal supports 172, 173, 174, 175 and four upper outer horizontal supports 176, 177, 178, 179. In addition to the outer diagonal supports 168-171, there are four inner diagonal supports 190, 191, 192, 193. In figures 28-29, there can be seen a connection between a lifting eye 290 with an upper interior horizontal support 172, an upper outer horizontal support 176, and an outer diagonal support 168. Each outer diagonal support 168-171 is inclined and is generally aligned with the lifting line of a crane, or with a sling or other lifting cable or device that is attached to the pin 296 of the lifting eye 290. There is thus provided a recess 295 for receiving a loop end portion of a sling 80 that is used to lift the cargo rack 10A. In the embodiment shown, there would be four lifting eyes or lifting assemblies 290 -293, one for each of four slings. Each lifting eye, 290 -293, can be spaced in between a pair of corners. Such slings would be attached to a crane and to the cargo rack 10A such as the four such slings 80 shown in figure 11 of the preferred embodiment of figures 1-23 and as shown in Figure 30. Each upper interior horizontal support 172, 173, 174, 175 is welded or otherwise connected to another of said upper interior horizontal supports 172, 173, 174, 175 at the center of the rack 10A frame 294 as shown. Each upper outer horizontal support 176, 177, 178, 179 attaches to an intermediate column such as column 164-167 as shown in figure 25.
In figure 27, each lower interior horizontal support 185, 186, 187, 188 attaches to another of said lower interior horizontal supports 185-188 as shown in figure 27. Such lower interior horizontal supports 185-188 also attach to an intermediate column such as the column 164 shown in figure 25.
The following is a list of suitable parts and materials for the various elements of a preferred embodiment of the present invention.
PARTS LIST
PART NO. DESCRIPTION
10 cargo rack
10A cargo rack
11 frame
12 upper end portion
13 lower end portion
14 base
15 bottom
16 floor
17 floor segment/quadrant
18 floor segment/quadrant
19 floor segment/quadrant
20 floor segment/quadrant
21 gate/door
22 gate/door
23 gate/door
24 gate/door
25 hinge
26 hinge
27 hinge
28 hinge
29 corner column
30 corner column
31 corner column
32 corner column
33 intermediate column
34 intermediate column
35 intermediate column
36 intermediate column
37 upper interior horizontal support 38 upper interior horizontal support
39 upper interior horizontal support
40 upper interior horizontal support
41 central column
42 diagonal support
43 diagonal support
44 diagonal support
45 diagonal support
46 lower interior horizontal support
47 lower interior horizontal support
48 lower interior horizontal support
49 lower interior horizontal support
50 plate section
51 plate section
52 plate section
53 plate section
54 lifting assembly
55 lifting assembly
56 lifting assembly
57 lifting assembly
58 peripheral horizontal member
59 upper central fitting
60 lifting flock/body
61 side surface
62 side surface
63 front surface
64 rear surface
65 upper end portion
66 lower end portion
67 recess/slot
68 opening
69 pin 70 annular groove
71 plate
72 plate
73 opening
74 opening
75 bolt
76 opening
77 slot
78 cover plate
79 nut
80 sling/lift line
81 eyelet
82 lifting implement/hook/crown block
83 ring/shackle/lifting fitting
84 header/manifold
85 base interior
86 bottom panel
87 beam
88 beam
89 opening/bore
90 opening/bore
91 discharge/ outlet fitting/ coupling
92 valve
93 valve handle
94 flow line
95 flow line
96 flow line
97 flow line
98 swivel
99 riser
100 elbow fitting
101 elbow fitting 102 hose section
103 quick connect fitting
104 arrow
105 tank/module
106 tank discharge flow line
107 tank discharge valve
110 stacking fitting
111 gusset /stiffener plate
112 horizontal plate
113 vertical plate
114 vertical plate
115 module receptacle
116 lower plate
117 vertical plate
118 vertical plate
119 tank/module foot
120 opening/slot
121 drain channel
122 flow bore
123 floor opening
124 drain channel inlet opening
125 arrow
126 drain flow pipe
127 cap
128 arrow
129 outlet valve
130 vertical member
131 vertical member
132 vertical member
133 vertical member 134 horizontal member
135 horizontal member
136 upper plate
137 upper plate opening 138 rod
139 rod
140 vertical flanged member
141 vertical flanged member
142 sleeve
143 sleeve
144 upper rod guide
145 upper rod guide
146 lower rod guide
147 lower rod guide 148 rod opening
149 lower plate
150 horizontal flange
151 horizontal flange
152 lower plate opening 153 lever
154 lever
155 lever opening
156 lever opening
157 Tee fitting - unlock 158 vertical plate
159 vertical plate
160 arrow
161 arrow
162 arrow
163 Tee fitting - lock
164 intermediate column
165 intermediate column 166 intermediate column
167 intermediate column
168 inclined column /outer diagonal support
169 inclined column /outer diagonal support
170 inclined column /outer diagonal support
171 inclined column /outer diagonal support
172 upper, inner horizontal member
173 upper, inner horizontal member
174 upper, inner horizontal member
175 upper, inner horizontal member
176 upper, outer horizontal member
177 upper, outer horizontal member
178 upper, outer horizontal member
179 upper, outer horizontal member
180 elevating support member
181 eyelet
182 slot
183 offset section of slot
184 offset section of slot
185 lower inner horizontal support
186 lower inner horizontal support
187 lower inner horizontal support
188 lower inner horizontal support
189 horizontal pin
190 inner diagonal support
191 inner diagonal support
192 inner diagonal support
193 inner diagonal support
194 header/manifold
195 flexible section
196 flanged connection
197 first header section 198 second header section
199 riser
200 elbow fitting
201 bracket/hanger
202 lateral support member
203 opening
204 hinge
205 corner column
206 corner column
207 corner column
208 corner column
289 center
290 lifting assembly/lifting eyes
291 lifting assembly/lifting eyes
292 lifting assembly/lifting eyes
293 lifting assembly/lifting eyes
294 frame
295 recess
296 pin
All measurements disclosed herein are at standard temperature and pressure, at sea level on Earth, unless indicated otherwise.
The foregoing embodiments are presented byway of example only; the scope of the present invention is to be limited only by the following claims.
Next Patent: CONTROLLED ENVIRONMENT AND METHOD