GB2495952A - A cadaver storage assembly - Google Patents

Abstract

A cadaver storage assembly 10 comprises the combination of: a storage vessel 12 which in use contains an embalming fluid; a cadaver support structure 20 that is movable relative to the storage vessel 12 between a stowed position, e.g. lowered, in which the support structure 20 lies substantially within the storage vessel 12 and a retrieved position, e.g. raised or remote, in which the support structure 20 is exposed beyond the storage vessel 12; and a transfer apparatus 38 with a lift assembly 48 and which is engagable with the cadaver support structure 20 to move the support structure 20 between its stowed and retrieved positions. The transfer apparatus 38; 78 includes an engagement formation 40 that is engagable with the cadaver support structure 20 and a chassis formation 42 which is engagable with a support surface, e.g. a floor engaging frame. The engagement formation 40 and the chassis formation 42 are interconnected by a lift assembly 48 that is movable between retracted and extended positions. The engagement formation 40 is disengaged for the cadaver support structure 20 while the lift assembly 48 is in the retracted position and the engagement formation 40 holds a cadaver support structure 20 engaged therewith in its retrieved position while the lift assembly 48 is in the extended position. The list assembly may include a scissor lift, as shown, or a lift actuator [80, Figure 5]

Description

A CADAVER SUPPORT ASSEMBLY

This invention relates to a cadaver support assembly.

It is known to store cadavers in a storage vessel, typically a tank, which contains an embalming fluid. One desirable embalming fluid is a Thiel fluid which preserves the cadaver in a solution of salts. Such preservation results in the cadaver having more "life- like" characteristics in terms of flexibility and colour than is achieved with, say, a formalin-based embalming fluid. l0

In any event it is often difficult to retrieve one or more cadavers from the storage vessel when they are required for, e.g. a surgical or medical research or training activity.

According to the invention there is provided a cadaver storage assembly comprising: a storage vessel containing in use an embalming fluid; a cadaver support structure movable relative to the storage vessel between a stowed position in which the support structure lies substantially within the storage vessel and a retrieved position in which the support structure is exposed beyond the storage vessel; and a transfer apparatus engagable with the cadaver support structure to move the support structure between its stowed and retrieved positions, the transfer apparatus including an engagement formation engagable with the cadaver support structure and a chassis formation engagable with a support surface, the engagement formation and the chassis formation being interconnected by a lift assembly movable between retracted and extended positions, the engagement formation being disengaged for the cadaver support structure while the lift assembly is in the retracted position and the engagement formation holding a cadaver support structure engaged therewith in its retrieved position while the lift assembly is in the extended position.

The combination of a cadaver support structure and a transfer apparatus which is engagable to move the support structure between a stowed position and a retrieved position, in which it is possible for an operative to remove a cadaver from the support structure, greatly assists in the handling of the cadavers.

In addition, the inclusion of a lift assembly in the transfer apparatus which is movable between retracted and extended positions provides accurate and controlled movement of the cadaver support structure between its stowed and retrieved positions.

I

Preferably the transfer apparatus is movable relative to the support surface.

The provision of a movable transfer apparatus allows, e.g. for movement of the cadaver support structure, while in its retrieved position, to an unloading station spaced from the storage vessel which permits even easier access to a given cadaver located within the support structure.

Optionally the chassis formation includes at least one alignment member to align the transfer apparatus with the storage vessel.

Such an alignment member helps to ensure that the chassis formation, and hence the transfer apparatus as a whole, is correctly located relative to the storage vessel to ensure accurate engagement of the engagement formation with the cadaver support structure.

In a preferred embodiment of the invention the lift assembly includes at least one scissor lift assembly.

A scissor lift assembly is able to generate a desirable degree of lifting force to move the cadaver support structure into its retrieved position, while also having sufficient travel between its retracted and extended positions to ensure the cadaver support structure is sufficiently exposed beyond the storage vessel, while in its retrieved position, to allow cadaver removal.

The or each scissor lift assembly may include an actuator to move the scissor lift assembly between its retracted and extended positions.

The inclusion of an actuator provides mechanical assistance to an operative wishing to move the scissor lift assembly between its retracted and extended positions and so provides a degree of automation to the retrieval and stowing processes.

Optionally the lift assembly includes at least one lift actuator movable between extended and retracted positions.

The inclusion of one or more lift actuators allows the lift assembly to adopt a compact configuration while providing a desired degree of lifting functionality.

Preferably the transfer apparatus and the cadaver support structure include mutually engagable formations to inhibit lateral movement of the support structure relative to the transfer apparatus.

Such an arrangement helps to maintain a high level of safety throughout movement of the cadaver support structure between its stowed and retrieved positions.

In another preferred embodiment of the invention the cadaver support structure slidably tO receives at least one cadaver tray.

Slidably receiving at least one cadaver tray further assists an operative in removing a cadaver from the cadaver support structure while the support structure is in its retrieved position.

Optionally the cadaver support structure includes a closure member which covers the storage vessel while the support structure is in its stowed position.

Providing the cadaver support structure with a closure member helps to ensure that the storage vessel is enclosed while the support structure is in its stowed position to prevent inadvertent entry into the storage vessel without the need to separately handle a discrete lid or the like.

The cadaver storage assembly may include a plurality of storage vessels each having an associated cadaver support structure, and a corresponding transfer apparatus.

Such an arrangement provides a desired level of cadaver storage capacity while reducing the capital cost of the overall assembly by utilising a given transfer apparatus with more than one storage vessel/cadaver support structure combinations.

There now follows a brief description of preferred embodiments of the invention, by way of non-limiting examples, with reference being made to the accompanying drawings in which: Figure 1 shows a perspective view from above of a cadaver storage assembly according to a first embodiment of the invention including a cadaver support structure lying in a retrieved position; Figure 2 shows a perspective view from below of the cadaver storage assembly shown in Figure 1; Figure 3 shows a partially sectioned, perspective view of the cadaver storage assembly shown in Figure 1 with the cadaver support structure lying in a stowed position; Figure 4 shows a perspective view of a transfer apparatus forming part of the cadaver storage assembly shown in Figure 1; and Figure 5 shows a perspective view of a transfer apparatus forming part of a cadaver storage assembly according to another embodiment of the invention.

A cadaver storage assembly according to a first embodiment of the invention is designated generally by the reference numeral 10.

The storage assembly includes a storage vessel 12 which, in use, contains an embalming fluid such as Thiel fluid.

In the embodiment shown the storage vessel 12 is an open-topped tank which has an inclined floor 14. In use the inclined floor 14 urges the embalming fluid to one end of the vessel 12 to facilitate periodic draining of the vessel 12 for cleaning and/or maintenance purposes.

The storage vessel 12 also includes a floor support 16 on which the vessel 12 sits. The floor support 16 includes a plurality of adjustable foot members 18 that allow levelling of the storage vessel l6on a support surface such as a floor (not shown) during installation of the storage vessel 12.

The cadaver storage assembly 10 also includes a cadaver support structure 20 that is movable relative to the storage vessel 12 between a stowed position in which the support structure 20 lies within the storage vessel 12 (as shown in Figure 3), and a retrieved position in which the support structure 20 is exposed beyond the storage vessel 12 (as shown in Figures 1 and 2).

The cadaver support structure 20 has a skeletal like form which comprises a plurality of elongate frame members 22. Adjacent frame members 22 within respective vertically-extending planes are interconnected by a perforated member 24, in the form of a mesh sheet, to define first and second cadaver chambers 26, 28.

Each cadaver chamber 26, 28 includes first and second groups 30, 32 of roller members 34 that are arranged at corresponding first and second levels within each chamber 26, 28. Each group 30, 32 of roller members 34 slidably supports a cadaver tray 38 on which, in use, lies a cadaver (not shown).

As such the cadaver support structure 20 shown includes four cadaver trays 36 and so is able to support and store four cadavers.

However, in other embodiments of the invention (not shown) each cadaver support structure may include more than or less than two cadaver chambers, and each cadaver chamber may include fewer than or greater than two groups of roller members 34, so as to support and store more than or less than four cadavers.

The cadaver storage assembly 10 also includes a transfer apparatus 38, as shown most clearly in Figure 4. The transfer apparatus 38 is engagable with the cadaver support structure 20 to move the support structure 20 between the aforementioned stowed and retrieved positions.

In particular the transfer apparatus 38 includes an engagement formation 40 that is engagable with the cadaver support structure 20 and a chassis formation 42 which is engagable with a support surlace, such as a mortuary or research facility floor (not shown).

Each of the engagement formation 40 and the chassis formation 42 is open on one side, and more particularly is generally U-shaped, so as to facilitate movement of the transfer apparatus 38 into and out of close proximity to the storage vessel 12.

In this regard the chassis formation 42 includes a plurality of rotatable members 44 secured thereto to facilitate movement of the chassis formation 42, and hence the transfer apparatus 38, on the support surface. In the embodiment shown each of the rotatable members 44 is a lockable swivel castor, although in other embodiments of the invention one or more of the rotatable members may be a fixed caster or some other

rotatable element.

The chassis formation 42 additionally includes a plurality of alignment members 46 that engage in use with the storage vessel 12 to align laterally the transfer apparatus 38 with the storage vessel 12. In the embodiment shown each alignment member 46 is a horizontally mounted wheel located on one side of the chassis formation 42. Four such alignment members 46 are included on the chassis formation 41 (two on each side thereof), although other embodiments of the invention may include fewer or greater numbers of alignment members.

The engagement formation 40 and the chassis formation 42 are interconnected with one another by a lift assembly 48 which is movable between a retracted position (as shown in Figure 3) and an extended position (as shown in Figures 1. 2 and 4).

In the transfer apparatus 38 shown in Figure 4 the lift assembly 48 includes first and second scissor lift assemblies 50, each of which is located on a respective side of the transfer apparatus 38.

Each scissor lift assembly 50 includes first and second arms 52, 54 which are pivotally connected to one another. A first end 56 of the first arm 52 is pivotally coupled with the engagement formation 40 while a second end 58 of the first arm 52 is slidably coupled to the chassis formation 42. A first end 60 of the second arm 54 is pivotally coupled with the chassis formation 40 while a second end 62 of the second arm 54 is slidably coupled with the engagement formation 42.

An actuator 64 is coupled between the second end 58 of the first arm 52 and the chassis formation 42 to effect movement of the scissor lift assembly 50 between its retracted and extended positions by sliding the second end 58 relative to the chassis formation 42.

In other embodiments of the invention (not shown) each scissor lift assembly 50 may be configured differently relative to the engagement and chassis formations 40, 42 while operating on the same scissor-like principle.

The transfer apparatus 38 and the cadaver support structure 20 include four sets of mutually engagable formations 66 which inhibit lateral movement of the support structure relative to the transfer apparatus 38.

In particular the engagement formation 40 of the transfer apparatus 38 includes four protrusions 66 which extend from the engagement formation 40 to define respective locating pins. Meanwhile respective frame members 22 of the cadaver support structure include a corresponding recess 70 to receive a respective protrusion 68.

In addition the cadaver support structure 20 includes a closure member 72 which extends over the support structure 20. In the embodiment shown the closure member 72 takes the form of a planar lid that is fixedly secured to respective frame members 22 of the support structure 20. In other embodiments of the invention (not shown) the closure S member 72 may take a different form.

The aforementioned recesses 70 in the respective frame members 22 of the cadaver support structure 20 extend through the closure member 72 also, such that each protrusion 68 received by a given recess 70 extends through the closure member 72 when so received. In this manner a visible indication of correct engagement of the engagement formation 40 with the cadaver support structure 20 is provided to an operative.

Although not shown, the cadaver storage assembly may include a plurality of storage vessels 12, each of which has an associated cadaver support structure 20 movably received therein, together with a single transfer apparatus 38 which may be used with each of the said storage vessel 12/cadaver support structure 20 combinations.

In use, the cadaver storage assembly 10 shown functions as follows.

To retrieve a cadaver previously loaded into the cadaver support structure 20 an operative first moves the transfer apparatus 38 into position relative to the storage vessel 12. The alignment members 46 help to ensure that the transfer apparatus 38 is correctly aligned laterally with respect to the storage vessel 12, while abutting engagement between the chassis formation 42 and the storage vessel 12 provides a further indication of correct positioning of the transfer apparatus 38 relative to the storage vessel 12.

The scissor lift assembly 50 is in its retracted position and so the engagement formation is disengaged from the cadaver support structure 20.

Such positioning of the transfer apparatus 38 helps to ensure that when the scissor lift assembly 50 is moved from its retracted position towards its extended position the engagement formation 42, and each protrusion 68 in particular, moves into the corresponding recess 70 in the cadaver support structure 20.

Continued movement of the scissor lift assembly 50 towards its extended position lifts the cadaver support assembly 20 from its stowed position to its retrieved position, as shown in Figures 1 and 2.

Once the scissor lift assembly 50 reaches its extended position to place the cadaver support structure 20 in its retrieved position, an operative has two options for removing a cadaver. The operative can slide a cadaver tray 36 and associated cadaver (not shown) out of the support structure 20 without moving the transfer apparatus 38 from its current position, or the operative can move the transfer apparatus 38 to another location spaced from the storage vessel 12 before sliding the cadaver tray 36 out of the support structure 20.

Once one or more cadavers have been removed from the support structure 20 the operative correctly positions, as may be necessary, the transfer apparatus 38 relative to the storage vessel 12, before moving the scissor lift assembly 50 back towards its retracted position. Such movement moves the cadaver support structure 20 back into its stowed position and positions the closure member 72 over the open end of the storage vessel 12.

Storing a cadaver is achieved by reversing the cadaver removal steps set out above.

A second transfer apparatus 78 is illustrated schematically in Figure 5.

The second transfer apparatus 78 is similar to the first transfer apparatus 38 and like features share the same reference numerals.

One way in which the second transfer apparatus 78 differs from the first transfer apparatus 38 is that the lift assembly 48 includes two pairs of lift actuators 80. Each pair of lift actuators 80 lies on a respective side of the chassis formation 42, and each lift actuator 80 is movable between a retracted position (as shown in Figure 5) and an extended position in which an actuator arm 82 extends beyond the remaining actuator body 84.

Each actuator arm 82 defines both an engagement formation 40 and a respective mutually engagable formation 66, i.e. a respective protrusion 68.

In use the second transfer apparatus 78 functions in a similar manner to the first transfer apparatus 38.

An operative positions the second transfer apparatus as desired relative to a storage vessel 12 (not shown in Figure 5). Movement of each lift actuator 80 towards its extended position engages each respective actuator arm 82 with the corresponding recess 70 in the cadaver support structure 20 located in the storage vessel 12.

Continuing extension of each lift actuator 80 moves the support structure 20 into its retrieved position, with each lift actuator 80 lying in its extended position.

An operative is then able to remove one or more cadavers from the support structure 20, without moving the second transfer apparatus 78 from its current position, or once the transfer apparatus 78 has been moved to another location. The operative can then return IS the support structure to its stowed position by moving each lift actuator 80 back into its retracted position.

Storing a cadaver is achieved by reversing the foregoing retrieval steps.

Claims (1)

1. <claim-text>CLAIMS: 1. A cadaver storage assembly comprising: a storage vessel to containing in use an embalming fluid; a cadaver support structure movable relative to the storage vessel between a stowed position in which the support structure lies substantially within the storage vessel and a retrieved position in which the support structure is exposed beyond the storage vessel; and a transfer apparatus engagable with the cadaver support structure to move the support structure between its stowed and retrieved positions, the transfer apparatus including an engagement formation engagable with the cadaver support structure and a chassis formation engagable with a support surface, the engagement formation and the chassis formation being interconnected by a lift assembly movable between retracted and extended positions, the engagement formation being disengaged for the cadaver support structure while the lift assembly is in the retracted position and the engagement formation holding a cadaver support structure engaged therewith in its retrieved position while the lift assembly is in the extended position.</claim-text> <claim-text>2. A cadaver storage assembly according to Claim 1 wherein the transfer apparatus is movable relative to the support surface.</claim-text> <claim-text>3. A cadaver storage assembly according to Claim 2 wherein the chassis formation includes at least one alignment member to align the transfer apparatus with the storage vessel.</claim-text> <claim-text>4. A cadaver storage assembly according to any preceding claim wherein the lift assembly includes at least one scissor lift assembly.</claim-text> <claim-text>5. A cadaver storage assembly according to Claim 4 wherein the or each scissor lift assembly includes an actuator to move the scissor lift assembly between its retracted and extended positions.</claim-text> <claim-text>6. A cadaver storage assembly according to any of Claims 1 to 3 wherein the lift assembly includes at least one lift actuator movable between extended and retracted positions.</claim-text> <claim-text>7. A cadaver storage assembly according to any preceding claim wherein the transfer apparatus and the cadaver support structure include mutually engagable formations to inhibit lateral movement of the support structure relative to the transfer apparatus.</claim-text> <claim-text>8. A cadaver storage assembly according to any preceding claim wherein the cadaver support structure slidably receives at least one cadaver tray.</claim-text> <claim-text>9. A cadaver storage assembly according to any preceding claim wherein the cadaver support structure includes a closure member which covers the storage vessel while the support structure is in its stowed position.</claim-text> <claim-text>10. A cadaver storage assembly according to any preceding claim when dependent on Claim 2 including a plurality of storage vessels each having an associated cadaver support structure, and a corresponding transfer apparatus.</claim-text> <claim-text>11. A cadaver storage assembly generally as herein described with reference to an or as illustrated in the accompanying drawings.</claim-text>