Surgical needles, which are used to insert a suture during surgery, represent a serious danger to a patient if not removed from the surgical site. For example, if a needle is left in the patient, it may perforate vital organs, cause infection, and even result in death. Therefore, it is imperative that all surgical needles are counted at the beginning of a surgical procedure and at the end of the procedure.

Typically, the used needles are recounted several times to ensure that each needle is accounted for, i.e., that none of the needles are left in the patient. Because the used needles are repeatedly counted, the used needles should be stored in a device that permits recounting.

A used surgical needle also represents a danger to the medical personnel responsible for handling the needles. If a used needle perforates the attendant's skin, that needle could transmit some infectious diseases from the patient to the attendant by blood-to-blood contact.

Avoiding this problem requires storing the used needles in a device that minimizes the chances of the used needle contacting an individual. This is made difficult by the fact that used surgical needles should remain visible so that an accurate count of the needles can be made repeatedly.

One conventional needle counting device that attempts to achieve these objectives consists of a flat, bar-shaped magnetic pad having a plurality of sections identified thereon.

After each needle is used, the surgical assistant places the used needle on top of the successively numbered portions of the magnetic pad so that an accurate count of the used

needles can be made at the end of the surgical procedure. This conventional counting device, however, does not adequately prevent individuals from being exposed to the used needles because the needles remain unshielded when placed on the surface of the magnetic pad. The ends of many needles extend beyond the magnetic pad. The risk of exposure to the used needles is especially great when the needles are ultimately disposed of.

In addition, because the used needles typically include a portion of a suture attached thereto, the collection of needles and sutures on an open pad can make this needle discarding system cumbersome, and the indicia on the magnetic pad may be obscured, thereby preventing the number of used needles stored thereon from being quickly counted. In addition, the sutures attached to the needles placed on the magnetic pad can get snagged, pulled, etc., thereby displacing the used needles from their proper positions on the magnetic pad. To avoid these problems, a separate cutting device, such as a pair of scissors, must be available for cutting the excessive lengths of suture from the used needles so that the used needles can be effectively stored on the magnetic pad.

Another conventional discard device consists of a box with a sponge or solid foam material provided at the bottom thereof. A plurality of sections are identified on the sponge material so that the tip of the used needles can be inserted into successive sections of the sponge. This configuration permits an accurate count to be made of the used needles.

However, because all the used needles are inserted into a sponge that is contained within the same box, this discard device also does not adequately prevent the surgical assistant from being exposed to injury from the used needles because the box is not closed until the end of the operative procedure.

Furthermore, the lengths of suture attached to the used needles can make accurately inserting the used needles into their proper location even more difficult and dangerous,

especially in an operating room environment where situations may arise that require surgical assistants to perform such tasks quite rapidly. In addition, the suture attached to the needles can be inadvertently pulled, causing the needles to be pulled out of the sponge, or can interfere with the closing of the box. To cut the suture, a pair of scissors is used.

In an invasive surgical procedure, a substantial amount of blood is present on the surgeons' and nurses' glove covered hands. Anything that these personnel handle is covered with blood. Some procedures become stressful when unforeseen circumstances arise. Small objects like needles can easily become lost in the profuse field of blood. So a device like a needle container should be easy to handle yet safe, easy to operate yet provide a ready visual verification of the number of needles contained therein.

BRIEF DESCRIPTION It is an object of the present invention to provide a discard container for used surgical needles that overcomes the problems associated with previously known surgical needle storage devices.

It is a further object of the present invention to provide a discard container that both 1) stores used surgical needles in a manner that minimizes the risk of attendants being stuck by a needle and 2) facilitates quick, easy, and reliable counting of the used needles.

It is a still further object of the present invention to provide a discard container that does not require a separate, supplemental cutting device, such as a pair of scissors, for removing excess lengths of suture from the used needle.

In accordance with the principles of the present invention, the foregoing objects are achieved by providing a surgical needle discard container that stores used surgical needles therein. The discard container includes a container having a plurality of separate compartments defined therein by a plurality of dividers which are fixed to one another in a unitary structure.

Each compartment is sized so as to receive a surgical needle therein. A wall on one side of the container has an aperture for providing selective access to one of the compartments while the wall and the container block access to the rest of the compartments. The aperture is individually aligned with each compartment as the compartment structure and the wall are moved relative to one another. A ratchet mechanism is provided with respect to the container or the wall, on the one hand, and the compartment structure, on the other hand, to permit incremental movement of the compartment structure and the wall relative to one another in only one direction so that the aperture is selectively aligned with each compartment. In addition, the discard container includes a cutting device. The cutting device severs the portion of the suture that extends out of the side of the container from the needle disposed in one of the compartments when the wall and the compartment structure are rotated relative to one another.

Preferably, one of the unitary compartment structure and the wall are rotated relative to the other. More preferably, the compartment structure comprises a plurality of dividers radiating from a hub and is rotatably disposed in the container for rotation about an axis.

As will become apparent from the detailed description below, the present invention solves the above-identified problems with conventional surgical needle discard devices by sealing each used surgical needle in its own compartment so that they are not a source of danger to the medical personnel. By an incremental rotation one ofthe apertured wall (e.g., a lid) and the compartment structure relative to the other, no more than substantially one full turn, each needle is captured in its own individual compartment and the excess length of suture is removed therefrom. At the end of the surgical procedure, the needles can be quickly, accurately, and safely counted by visualizing each needle in its own compartment. The

compartments may be numbered to facilitate counting. The entire discard container can then be discarded.

Other objects, features and characteristics of the present invention as well as the methods of operation and function of the related elements of structure, and the combination of parts and economies of manufacture, will become more apparent upon consideration of the following detailed description and the appended claims with reference to the accompanying drawings, all of which form a part of this specification, wherein like reference numerals designate corresponding parts in the various figures.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded perspective view of a first embodiment of the used needle storage device of the present invention; Fig. 2 is a top view of the lid of the needle discard container illustrated in Fig. 1; Fig. 3 in a bottom view of the lid used in the needle discard container illustrated in Fig.

1; Fig. 4 is a partial cross-sectional view of the needle discard container illustrated in Fig.

6 taken along line 4-4; Fig. 5 is a cross-sectional view of the lid illustrated in Fig. 3 taken along line 5-5; Fig. 6 is a perspective view of the assembled needle discard container; Fig. 7 is a right side and front perspective view of a second embodiment of a needle discard container in accordance with the present invention; Fig. 8 is an exploded perspective view, on a smaller scale, of the needle discard container of Figs. 7 and 8; Fig. 9 is a longitudinal cross-sectional view of the needle discard container of Figs. 7 and 8, showing a suture cutting blade member; and

Fig. 10 is a longitudinal cross-sectional view similar to Fig. 10, showing the suture cutting blade member removed from a guide slot; Fig. 11 is a transverse cross-sectional view taken along line XI-XI in Fig. 10.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Figs. 1 and 6 illustrate a surgical needle discard container, generally indicated at 30, according to the principles ofthe present invention. Discard container 30 includes a container 32, a lid 34, a lid cover 36, and a handle 44. Container 32 is generally cylindrical and divided into a plurality of circumferentially arranged, wedge-shaped, compartments 38 around a central hub 40. Central hub 40 is aligned with a longitudinal axis 41 of container 32. A plurality of spoke-like dividers 42 radiate from central hub 40 to an outer wall of cylindrical container 32 to define compartments 38. Dividers 42 extend the full height of cylindrical container 32 so as to isolate each compartment 38 from an adjacent compartment. The dividing walls 42 should be made of a material that enhances counting and visualization of needles. In the illustrated embodiment, compartments 38 are sized so as to easily accommodate a surgical needle 39 having a variety of different shapes and sizes therein.

Container 32 can be made from a variety of materials. However, in the illustrated embodiment, container 32 is made from a material that permits visualization of the contents of each compartment 38 so that one can quickly verify that a needle has been placed in a compartment. An example of a suitable material is clear plastic.

A plurality of indicia 46 are provided around the perimeter of container 32 to identify each compartment 38. In an exemplary embodiment of the present invention, indicia 46 are integral with the container, defined during molding, for economies of manufacture. Permitting visual inspection of the needles discarded in each compartment of container 32 and providing

indicia 46 enable the number of needles used during an operation to be easily counted and recounted without exposing the user to the needles.

Lid 34 is rotatably attached to container 32. Details of lid 34 are shown in Figs. 2, 3, 4, and 5. In the illustrated embodiment, lid 34 includes an inwardly extending circumferential lip 48 around a lower portion thereof. Lip 48 engages a circumferentially concave groove 50 provided around the perimeter of container 32 so that lid 34 snaps onto container 32 and can be rotated relative thereto. Lip 48 and groove 50 are sized and shaped so that once lid 34 is attached to container 32, lid 34 cannot be easily removed therefrom. It is to be understood, however, that lid 34 can be attached to container 32 in a variety of different ways so long as lid 34 is rotatable relative to container 32. By attaching lid 34 in the manner illustrated, however, lid 34 can be removed from container 32 and replaced thereon without damaging either lid 34 or container 32, should the need arise.

Lid 34 includes an aperture 52 defined therein. Aperture 52 is sized and shaped so as to substantially correspond to the shape of the compartment 38 when viewed from the top of the container. Lid 34 is positioned on the end of container 32 such that aperture 52 aligns with one ofthe compartments 38 thereby providing access to that compartment while access to the other compartments is blocked by the remaining portions of lid 34. As lid 34 rotates in a direction, such as that indicated by arrow A, aperture 52 is sequentially aligned with each individual compartment 38. A used surgical needle is then placed in the compartment to which access is provided. Lid 34 is then further rotated relative to container 32 to provide access to the next adjacent compartment while blocking access to the preceding compartment in which the used needle is now located. Thus, the used needles are safely, individually stored in separate compartments in discard container 30. Thereafter, the entire discard container,

including the surgical needles disposed therein, can be easily and safely disposed of without exposing the user to the used needles.

Discard container 30 includes a mechanism that permits incremental rotation of lid 34 relative to container 32 so that aperture 52 is maintained in an aligned relationship with one of the compartments at a time. Each incremental rotation of lid 34 places lid 34 into an aligned relationship with the next subsequent compartment. This mechanism also permits lid 34 to be rotated relative to container 32 in only one direction so that once a needle has been placed in a compartment, lid 34 can not be rotated backward, thereby locking needle 39 within a compartment.

In the illustrated embodiment this mechanism is a ratchet. The ratchet includes a plurality of ratchet teeth 54 circumferentially provided on an inside surface of lid 34. Each tooth 54 is essentially an elongated, raised protuberance on the surface of lid 34 and includes an inclined leading edge. At least one ratchet tooth 56 is also provided on the outer surface of container 32. The ratchet teeth 54 on the inside lid 34 are oriented to engage and pass over ratchet tooth $6 shown in Fig. 1 when lid 34 is properly positioned on container 32. Ratchet teeth 54 are sized and spaced relative to one another so that tooth 56 is firmly held between two adjacent ratchet teeth 54.

When lid 34 is rotated relative to container 32, the inclined surfaces of ratchet teeth 54 and 56 engage and produce a slight lifting effect whereby as one of the teeth 54 pass over ratchet tooth 56 so that ratchet tooth 56 is again adjacent to the next ratchet teeth 54. This arrangement of ratchet teeth 54 and 56 allows incremental rotation of lid 34 relative to container 32, assists in aligning aperture 52 over each compartment 38, and locks lid 34 in position until the next incremental rotation is required. The ratchet teeth size and spacing

therebetween are selected so that aperture 52 is individually registered with each compartment during the rotation of lid 34 relative to container 32.

It is to be understood that the ratchet mechanism illustrated in the drawings is provided for purposes of illustration and may not be to scale. It is to be further understood that other sizes, shapes, and orientations, of the ratchet teeth are contemplated by the present invention.

For example, while the ratchet mechanism has been illustrated with a plurality of teeth provided on lid 34 and a single tooth provided on container 32, this arrangement can be reversed.

The ratchet mechanism ofthe present invention includes a stopping member 58 shown in Fig. 3 that prevents lid 34 from being rotated greater than one full turn. This prevents additional used needles from being inserted into occupied compartments once each compartment has been filled. In the illustrated embodiment, stopping member 58 is formed by providing the last ratchet tooth from among ratchet teeth 54 with an abrupt leading edge 59.

The last ratchet tooth 58 is that tooth, from among ratchet teeth 54, that is the last to engage tooth 56 before engagement between ratchet teeth 54 and tooth 56 could otherwise be repeated. In Fig. 3, stopping member 58 is at the leading edge of lid aperture 52. Prior to rotation of lid 34, stopping member 58 is aligned between the first and second compartments when lid 34 is attached to container 32 and aperture 52 is aligned with the first compartment.

As lid 34 rotates counterclockwise relative to container 32, aperture 52 aligns with each compartment. When aperture 52 aligns with the last compartment, stopping member 58 is adjacent tooth 56, which is positioned proximate to the first compartment. The flat leading edge 59 ofthe stopping member 58 significantly impedes stopping member 58 from overriding ratchet tooth 56 on container 32 so that aperture 52 cannot be easily rotated from registration with the last compartment to the initial (first) compartment.

It is to be understood that other mechanisms for preventing greater that one full rotation of lid 34 are contemplated by the present invention. For example, lid 34 and/or container 32 can include a protruding member or protruding members that engage one another after one complete rotation of lid 34, thereby preventing additional rotation.

Although not illustrated in the present figures, hub 40 can be elevated and lid 34 provided with a recess 60 (Fig. 3) to receive the elevated hub therein when lid 34 is attached to container 32. This arrangement between the elevated hub and the recess in lid 34 acts as a stabilizer to prevent excess lateral movement between lid 34 and container 32. This arrangement provides accurate concentric alignment between rotating lid 34 and the elevated hub so that accurate alignment of compartments 38 in container 32 with aperture 52 in lid 34 can be achieved.

In the illustrated embodiment, lid 34 includes thumb grips 62 provided on an outer peripheral surface thereof. Thumb grips 62 facilitate manual rotation of lid 34 relative to container 32 by providing grips which an attendant's thumb can push against to advance lid 34.

Providing thumb grips 62 and handle 44 permit the surgical assistant to hold discard container 30 and rotate lid 34 relative to container 32 at the same time using the same hand by inserting the fingers in handle 44 and using the thumb to rotate lid 34. While thumb grips 62 have been illustrated and described in conjunction with lid 34, it is to be understood that a variety of different configurations for the outer peripheral surface of lid 34 are possible to facilitate rotation. Knurling the outer peripheral surface of lid 34 is an example of such an alternative configuration.

Lid cover 36 is provided for selectively blocking aperture 52 in lid 34. In the illustrated embodiment, lid cover 36 comprises a substantially flat disc having a lid cover aperture 64 defined therein. Lid cover aperture 64, like aperture 52, has a size and shape that substantially

matches the size and shape compartment 38 when viewed from the top of the container. In the illustrated embodiment lid cover 36 is rotatably attached to lid 34 and lid cover aperture 64 is aligned directly over aperture 52 to permit the used needles to pass through both apertures 64 and 52 into compartments 38. Lid cover 36 selectively closes aperture 52 by rotating lid cover 36 relative to lid 34 such that a portion of lid cover 36 overlies aperture 52.

Lid cover 36 is held in close proximity to lid 34 by protrusions 66 circumferentially provided on an inside surface of lid 34. Lid cover 36 is sized and shaped so as to be capable of being snapped into position within lid 34 so that protrusions 66 engage a peripheral portion of lid cover 36. The lid cover, once snapped below protrusions 66, cannot be removed as protrusions 66 have a flat lower surface on a bottom portion thereof The flat lower surfaces of protrusions 66 spaced far enough away from the top flat surface of lid 34 permit lid cover 36 to rotate relative to lid 34. To facilitate its rotation, lid cover 36 includes an elevated handle 68 on a top surface thereof.

A lid cover ratchet mechanism permits incremental clockwise rotation of lid cover 36 relative to lid 34 so that lid cover 36 is maintained in position relative to lid 34 as lid 34 rotates relative to container 32. In addition, once lid cover 36 is rotated, the ratchet mechanism prevents it from rotating counterclockwise.

In the illustrated embodiment, the lid cover ratchet mechanism comprises a plurality-of teeth 70 circumferentially provided on an insider surface of lid 34. Teeth 70 engage slots 72 circumferentially provided on the outer periphery of lid cover 36. Teeth 70, like teeth 54, have a slanted leading surface.

While lid cover 36 has been described above with respect to the device illustrated in the figures, it is to be understood that the lid cover can have a variety of different configurations so long at it serves to selectively close aperture 52. For example, lid cover 36 can be rotatable in

either a clockwise or counter-clockwise direction. In addition, lid cover 36 need not be rotatably attached to lid 34, but instead, can be a cap that is provided over lid 34 following the completion of the surgical procedure. It is to be understood that other configurations for teeth 70 and slots 72 are possible.

A used surgical needle typically includes a suture 74 still attached thereto. See Figs. 4 and 6. As a result, when needle 39 is dropped in compartment 38 of container 32, a portion of suture 74 can extend beyond the end of container 32. The excess portion of suture 74 can interfere with the proper operation of discard container 30 and-may get snagged. Thus, the present invention includes a cutting device associated with container 32 and lid 34. The cutting device severs the portion of the suture that extends out of the container from the needle in the compartment by rotating the lid relative to the container. In the illustrated embodiment, the cutting device comprises a first cutting blade 76 provided along an edge of the lid defining aperture 52. A second cutting blade 78 or counter blade, opposing the first cutting blade is provided along an edge of each divider 42. Rotating lid 34 relative to container 32 causes first cutting blade 76 to move toward second cutting blade 78 in a scissor-like fashion so as to cut the portion of suture 74 that extends beyond the end of container 32 away from needle 39 disposed in compartment 38. This cutting operation is automatically performed each time the lid is rotated so that additional cutting devices are not required.

It is to be understood that only one cutting blade need be employed in the present invention. If only one cutting blade is used, for example on the edge of the lid defining aperture 52, the other surface on the divider prevents the suture from moving so that the cutting blade can sever the suture from the needle.

Figs. 7-10 show a needle discard container 100 having a vertical or "Ferris wheel" design orientation. As particularly illustrated in Fig. 8, needle discard container 100 comprises

a unitary injection-molded container body 102, a spoked carousel 104 and a base plate 106.

Carousel 104 includes a plurality of angularly equispaced dividers 108 extending radially from a hub 110 and having respective parallel outer edges 112. Along one side, dividers 108 are integral with a planar side panel 114 (Fig. 8).

Container body 102 includes a cylindrical wall 116 and a planar side panel 118 (Fig. 11) integral therewith. Wall 116 and side panels 114 and 118 together define a cylindrical chamber (not designated) which receives carousel 104. That chamber is partitioned by dividers 108 into a plurality of wedge-shaped compartments 120 (see Figs. 9 and 10) which are sized for receiving used surgical needles. Compartments 120 are disposed in an annular structure for rotation about a horizontal axis 121 (see Fig. 10).

Along a front side, container body 102 is formed with several elongate compartments 122 of equal size for receiving used scalpel blades 124 discarded during (or immediately after) a surgical operation. As depicted in Fig. 11, compartments 122 are provided at upper sides with respective narrow slots 126 (Fig. 11) which in turn are disposed at the lower ends of tapered recesses 128. Tapered recesses 128 serve to guide discarded scalpel blades 124 to slots 126. Slots 126 are substantially narrower that compartments 122, whereby used scalpel blades 124 are trapped in compartments 122 upon insertion of the scalpel blades 124 through slots 126.

Along a lower side, container body 102 is provided with side walls 118 and 130 (see Fig. 11) which cooperate with base plate 106 and front and rear walls 132 and 134 (Figs. 9 and 10) to define an auxiliary chamber 136. Base plate 106 may be removably attached to body 102 for enabling access to chamber 136 for the deposition of relatively large sharp surgical instruments 138 therein during a surgical procedure. Alternatively, or additionally, rear wall

134 is provided with a narrow slot 140 for enabling insertion of instruments 138 into chamber 136 without necessitating the removal of base plate 106.

Container body 102 is provided along an upper side with a panel or wall 142 having an aperture 144 formed therein for enabling the insertion of surgical needles into compartments 122 and, more particularly, into an upwardly open compartment 146 disposed directly below the aperture 144. Aperture 144 is elongate and extends parallel to axis 121 (Fig. 10). A similarly dimensioned aperture (not designated) is located in cylindrical wall 116 in alignment with aperture 144. The location of these apertures in parallel to axis 121 is considered an especially ergonomic design for needle discard container 100, insofar as the insertion of used surgical needles is facilitated. Generally, the needles are grasped via elongate forceps which are easy to twist or rotate about their longitudinal axes to thereby insert the needles through aperture 144.

For severing a suture (not shown) connected to a surgical needle which is deposited in uppermost compartment 146, discard container 100 is provided with a cutting device 148 comprising a planar blade member 150. Blade member 150 is slidably disposed in a guide slot 152 (Figs. 9 and 10) defined in part by panel 142. Blade member 150 is attached at one end to a flexible arm 154 in turn fixed at a lower end, opposite blade member 150, to container body 102. Flexible arm 154 has an inherent spring bias for automatically returning blade member 150 to a needle receiving position, shown in solid lines in Fig. 9, after a suture severing operation described in detail below.

As shown in Fig. 10, blade member 150 carries a cutting edge or blade 158 along a front end of the blade member, opposite flexible arm 154. Container body 102 is provided along an edge of apertured panel 142 with a thumb rest 160. To sever a suture, the user places a thumb against thumb rest 160 and the other digits of the same hand against an outer surface

of flexible arm 154. A subsequent manual squeezing action shifts blade member 150 towards a substantially vertical anvil surface 162 (Figs. 9 and 10) so that the suture is trapped between the blade member and anvil surface 162. The suture is then severed by virtue of a chopping type action of blade member 150 and, more particularly cutting edge 158, against anvil surface 162. This method of severing the suture is preferable to a scissors-like action like that discussed above with reference to the embodiments of Figs. 1-6. In a scissors-like cutting action, the suture can occasionally escape partitioning by bending between opposing scissors edges, especially where the tension on the suture is low. In contrast, in cutting device 148, the suture is always cut, regardless ofthe tension on the suture. Moreover, in cutting device 148, the quality of cutting edge 158 is not of paramount importance, as it is in a reliable scissors- type cutting device.

As illustrated in Figs. 8-10, blade member 150 is provided along its front edge, opposite flexible arm 154, with a hook or detent element 164. After a shifting of flexible arm 154 and blade member 150 toward anvil surface 162, as indicated by dashed lines 166 in Fig. 9, and after a concomitant severing of a suture, the user releases the manual pressure exerted on flexible arm 154. This release allows the internal spring forces of arm 154 to return blade member 150 to the needle open position shown in solid lines in Fig. 9. Aperture 144, which had been closed by blade member 150 during the severing of the suture, is opened. In addition, hook 164 catches an outer edge 112 of a divider 168 on a rotationally upstream side of the uppermost compartment 146 and incrementally turns carousel structure 104 about axis 121 to move a following compartment into position below aperture 144. It is to be noted that a leading side 170 of hook 164 is beveled or sloped, to permit the riding of the hook over the outer edge 112 of upstream divider 168 at the termination of a suture severing stroke of blade member 150.

To prevent back rotation of carousel or "Ferris wheel" structure 104 while permitting rotation ofthe compartmentizing structure in the one direction about axis 121, an inner surface 172 of cylindrical wall 116 is formed with a ratchet tooth or projection 174 which contacts outer edges 112 of dividers 108. Projection 174 has a beveled upstream side (not shown) and a sharp downstream side to control, in cooperation with outer edges 112 in a known manner, the direction of rotation of carousel structure 104. This ratchet mechanism is enabled in part by a certain resilience of dividers 108 which function in part like ratchet teeth.

An arrest or mechanical stop 176 is provided on carousel structure 104 for preventing rotation ofthe compartmentalizing carousel more than 360C This substantially prevents the inadvertent insertion of more than one needle in any one compartment 120. Arrest 176 cooperates with a part of container body 102 to lock carousel 104 to container body 102.

Needle discard container 100 requires only one hand for effective operation. Container 100 is ergonomic in its needle insertion and suture cutting motions. Cutting is easy and reliable (100%). Cutting edge 158 need not be high quality; blade geometry is not critical.

Accordingly, manufacturing costs are reduced.

Container body 102, or at least panel 114 which forms a side panel of the cylindrical compartmentalized chamber, is made of a transparent or translucent polymeric material which enables visual inspection of compartments 120 to determine contents thereof Side panel 114 is provided with a plurality of numerals (see Fig. 7), one corresponding to each compartment 120, for facilitating the counting of needles deposited in compartments 120.

Side panel 118 may be provided with a shaft or rod (not shown) forming an axle for hub 110. Cooperating snap-lock elements (not shown) may be provided on the shaft and hub 110 for holding carousel 104 to container body 102.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.