AU2002249438B2 - Collapsible transport container - Google Patents

Abstract

A transport container comprises a collapsible substantially rigid liner (2), flexible means (3) surrounding the liner (2), and one or more substantially rigid plug(s) (4) insertable inside the liner (2) to retain the liner in a non-collapsed configuration (for holding transportable contents therein). The, or each, plug (4) is removable from the liner (2) and when so removed the liner (2) is collapsible, in a direction transecting a vertical axis of the container, such that the container is configurable between its non-collapsed state and an at least partially collapsed state (for compact storage when empty). The liner (2) may be of folded cardboard or of plastic such as extruded foam and the flexible means (3) may comprise a sheet wound in layers and may provide insulation. An outer envelope (6) preferably of heat-shrunk material may be provided.

Description

la- COLLAPSIBLE TRANSPORT CONTAINER SThe present invention relates to a transport container for use in safely transporting

C

products.

Any discussion of the prior art throughout the specification should in no way be OC 5 considered as an admission that such prior art is widely known or forms part of common general knowledge in the field.

Transported products generally need to be protected from physical shocks and Sdamage, and therefore there is a general need for transport containers which provide impact resistance to the products they contain.

Some products are temperature sensitive and hence may require either being kept cool or being protected from chilling during transit. Examples of products that need to be kept cool whilst being transported from place to place, for example by postal or courier services (particularly from a manufacturer or distributor to a consumer), include frozen food products, pharmaceutical and biochemical products (including diagnostic agents), and organs for transplantation. Examples of products that, by contrast, need instead to be protected from chilling during transport (particularly, for example, from freezing as part of air cargo), include heated foodstuffs and further pharmaceutical products, as well as blood products. Both types of goods conventionally have been transported in thermally insulated, rigid containers such as boxes fabricated of polystyrene foam. However, polystyrene boxes can be fragile and are expensive to manufacture, as well as being space-inefficient.

As an alternative, the applicant's co-pending International Patent Application No.

PCT/GB99/02225 (published as WO 00/03931) describes an improved transport container that comprises an insulating block and a plurality of layers of flexible insulating foam material forming sides of the container. The plurality of layers are mounted on the block, which closes one end of the container, and an outer envelope is also provided to apply pressure around the exterior of the sides and the block. Although, such a container can be made of materials that can be recycled, and is therefore more environmentally friendly as compared to polystyrene boxes, disadvantageously this prior container is still bulky and thus difficult to store when not being used to transport products.

French Patent Application No. 7808251 (published as FR-A-2419884) discloses a rigid container comprising sides having at least two layers of sheets of plastic material laminated with metal, which provide thermo-insulation of any contents. However, 00 Mc, because the sheets are metalised, the container cannot be collapsed end remains in a bulky, non-collapsed state even when no contents are held.

It is an object of the present invention to overcome or ameliorate at least one of the disadvantages of the prior art, or to provide a useful alternative.

It is hence an aim of the present invention at least in a preferred form to overcome the abovementioned disadvantages of these and other prior containers, by providing a transport container that is both compact to store when empty, that may be composed of materials that can be recycled, and whose components are also easy to manufacture and to construct.

It is a further aim that the container should preferably also provide a space efficient outer shape when full of transportable products, so that the number of containers that can be transported per given transit space may be maximised.

Thus, in a first aspect, the present invention provides a transport container comprising: a substantially rigid liner which is collapsible, in a direction transecting a vertical axis of the container, such that the container is configurable between states that are non-collapsed (for holding transportable contents therein) and at least partially collapsed (for compact storage when empty); and flexible means surrounding said liner comprising a plurality of layers of material.

Unless the context clearly requires otherwise, throughout the description and the claims, the words 'comprise', 'comprising', and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is to say, in the sense of "including, but not limited to".

WO 02/085749 PCT/GB02/01822 3 By "vertical axis" is meant an axis extending through opposite ends of the liner, preferably at least one such end of the liner being open or openable to allow a transported product to be inserted into, and removed from, the transport container. Preferably the (or each) open or openable end of the liner is closable by means of a respective substantially rigid plug (described below). The use of the term "vertical" is not intended necessarily to denote any particular orientation with respect to gravity, although the transport container will usually be oriented with the "vertical axis" of the liner in a substantially vertical orientation with respect to gravity in order to allow the insertion and/or removal of a product into and out of the transport container conveniently.

The flexible means preferably islare impact resistant. Additionally or alternatively the flexible means may be resiliently compressible. In some embodiments of the invention the flexible means may be elastic.

Advantageously, the flexible means may be thermally insulating.

Preferably the transport container includes one or more substantially rigid plug(s) for insertion inside the liner when the container is in its non-collapsed state.

A second aspect of the invention provides a transport container comprising a substantially rigid liner, flexible means surrounding said liner, and one or more substantially rigid plug(s) inserted inside the liner to retain the liner in a noncollapsed configuration (for holding transportable contents therein), wherein the, or each, plug is removable from the liner and when so removed the liner is collapsible, in a direction transecting a vertical axis of the container, such that the container is configurable between its non-collapsed state and an at least partially collapsed state (for compact storage when empty).

WO 02/085749 PCT/GB02/01822 4 The liner provides a means for altering the shape of the container between collapsed and non-collapsed configurations, whereas the surrounding flexible means provides the container with appropriate additional structural integrity (in combination with the liner) and preferably also thermally and/or physically protective insulation properties. Goods can be stored safely inside the noncollapsed liner, which is kept in such a configuration by means of the one or more plug(s), once the latter have been inserted.

The transport container of the present invention is constructed such that it can be collapsed into a space saving, flattened configuration when empty, and hence can be easily stored and moved prior to, or after, holding any transportable contents. Moreover, the collapsible container of the present invention is preferably constructed of materials that can be re-cycled and thus are ecologically friendly.

To keep a product as cold as possible during transit, the pre-chilled product may be placed inside the non-collapsed container together with a desired quantity of "dry ice" in granulated, sliced or chunk form. However, if the product is only required to be kept moderately cool (but not frozen) or indeed warm, instead of surrounding the product with "dry ice", a separate sealed bag containing a refrigerant, or warmed liquid respectively, can be placed inside the container together with the product.

The flexible means preferably comprises a plurality of layers of flexible material, and this generally has the advantage of increasing its thermal and/or physical insulation properties. Advantageously the flexible means may comprise one or more sheets or loops wound around the liner one or more times, thereby providing a plurality of layers of flexible material. The flexible material preferably comprises a polymeric foam material, e.g. polyethylene foam.

WO 02/085749 PCT/GB02/01822 Before and after the container has been used for transporting the goods, the plug(s) can be removed, as mentioned above, so allowing the container to be flattened by an operator into its space saving, collapsed configuration. In this way, multiple flattened containers can be stored or transported without taking up substantial room.

In a third aspect, the present invention provides a kit for assembling a collapsible transport container according to the first or second aspects of the invention, comprising: at least one said liner surrounded by said flexible means; and at least one said plug.

A fourth aspect of the invention provides a method of constructing a transport container according to the first or second aspects of the invention, or a method of assembling a kit according to the third aspect of the invention, the method comprising either: winding a plurality of layers of the flexible means around the outside of the liner; or winding a plurality of layers of the flexible means around a mandrel or the like and subsequently inserting the liner inside the innermost layer of the wound flexible means.

In some embodiments of the method according to the invention, the liner and the flexible means may have greater than the required vertical length for a single transport container, and the method may include the step of cutting the assembled liner and flexible means into a plurality of assembled liners and associated flexible means, thereby to form a plurality of transport containers therefrom.

WO 02/085749 PCT/GB02/01822 6 Preferably the method also includes the step of inserting at least one of said plug(s) inside the liner to maintain the non-collapsed state of the container.

The transport container according to the first and/or second aspects of the invention preferably further comprises an envelope surrounding the exterior of the flexible means.

The kit according to the third aspect of the invention preferably further comprises an envelope for surrounding the exterior of the flexible means.

The method according to the fourth aspect of the invention preferably further comprises the step of surrounding the exterior of the flexible means with an envelope.

The envelope is preferably a pressure envelope which provides compression to the flexible means and/or the liner, at least when the liner is in its non-collapsed configuration.

Advantageously, the envelope may be shrunk around the flexible means, preferably by heat-shrinkage, e.g. by means of a hot air gun. Preferably the envelope is bonded to at least part of the exterior of the flexible means, for example by means of shrinkage, especially heat-shrinkage, of the envelope.

Preferably the method according to the fourth aspect of the invention includes the following additional steps: bonding (for example by heat-shrinking) at least part of an envelope around the outside of the plurality of layers of the flexible means, preferably with the liner in its collapsed state; WO 02/085749 PCT/GB02/01822 7 ensuring that the liner is in its non-collapsed state; inserting at least one of said plug(s) inside the liner to maintain the noncollapsed state of the container; and preferably: bonding (for example by heat-shrinking) at least another part of the envelope to at least one of said plug(s).

Thus, in one embodiment, the fully constructed container has an optional envelope, when present, that is preferably bonded (in separate stages) to both the outermost of the plurality of layers of the flexible means and to the one or more plug(s). In this way, such a container provides a simple and effective way of very securely sealing the contents inside, since the envelope's pressure increases the tensioning of the container walls. Further, sealing the container involves no use of tapes and so forth that can become unstuck and that are often tricky to apply or re-apply.

Furthermore, by sealing a complete outer envelope around such a container, the latter is provided with a tamper evident security feature which can easily be monitored.

In some preferred embodiments of all aspects of the invention, the flexible means, the liner, and the, or each, plug, (and preferably also the envelope) may be contained within a box, for example a box in the form of a carton. The box is preferably collapsible, and preferably the collapsed liner and flexible means (preferably also with one or more plug(s)) may be supplied together with the collapsed box. When the liner is put into its non-collapsed configuration, and the (or each) plug is inserted into the liner, the assembled liner, flexible means and inserted plug(s) (preferably all enclosed within an envelope) preferably are placed within the assembled box. The box therefore provides additional WO 02/085749 PCT/GB02/01822 8 structural integrity and protection to the remainder of the transport container, and therefore provides additional protection to the product(s) contained therein. The box a carton) is preferably made from cardboard, especially reinforced cardboard corrugated cardboard).

Additional (and non-exhaustive), preferred features of the present invention are referred to in the attached subsidiary claims.

The present invention will now be described in greater detail by reference to the following non-limiting example as illustrated in the accompanying drawings, in which: Figures 1A and 1B show two perspective views of a liner of a container according to one embodiment of the present invention; Figure 2A depicts a perspective view of the liner of Figures 1A and 1B after construction and in a collapsed configuration; Figure 2B illustrates a plan view of the liner of Figure 2A; Figures 2C and 2E show perspective views of the collapsed liner of Figure 2A together with a surrounding plurality of layers of flexible insulating material and with a further envelope, respectively; Figures 2D and 2F illustrate plan views of the containers shown in Figures 2C and 2E respectively; Figure 3A shows the collapsed container of Figure 2E; WO 02/085749 PCT/GB02/01822 9 Figures 3B and 3C show the container of Figure 3A in a non-collapsed configuration with top and bottom end plugs in unattached and in attached positions respectively; Figure 4A illustrates the container of Figure 3C with the envelope fully sealed around the container; Figure 4B depicts a plan view of Figure 4A along line C-C'; Figure 4C illustrates an enlarged, cross-sectional view of the container of Figure 4A in the direction of B-B'; Figure 5A shows an alternative arrangement of the liner and a wound plurality of layers; Figure 5B depicts the container shown in Figure 5A being capped at both ends by plugs having slits for engagement with the liner; and Figure 6 depicts an alternative embodiment of liner.

A collapsible transport container is shown in Figures 4A to C that has been fully constructed in its non-collapsed state and has been sealed, and thus is ready for transporting goods (not shown) previously placed within the cavity 1 of the container.

The container comprises a liner 2 that optionally has a rigidity substantially in a direction parallel to a vertical axis C-C' of the container. The container is collapsible, in a direction transecting this vertical axis, between a non-collapsed WO 02/085749 PCT/GB02/01822 state, as shown in Figures 4A to C, and an at least partially collapsed state, as shown in Figures 2A to E and Figure 3A.

Flexible material 3 (which is preferably thermally insulating and/or impact resistant) surrounds the liner 2 so as to form sides of the container with two insulating plug(s) 4 inserted inside the liner 2 in its non-collapsed state.

Alternatively, the liner 2 itself may be provided with flaps (not shown) at either end, which can be inserted instead of the plugs 4, and which can act as a lid and a base for the container. Such flaps may simply be unitary pieces of material or may be provided in a segmented form so as to form "crash-lock" ends to the container.

When flaps are present they may be kept in their inserted position by optional locking means, or may be retained simply by bonding the envelope 5 directly to them.

Further, a combination of plugs 4 and flaps may be employed, if desired.

Although containers can be constructed that are collapsible in directions that transect the vertical axis C-C' at various angles, the container shown in the Figures is collapsible in a direction that is perpendicular to the vertical axis.

The liner 2 is usually extruded in a flat form and then die stamped to shape (see Figure 1A). Cardboard liners 2 are then folded and their ends are glued together, whereas plastic ones are creased and the ends are then heat bonded (see Figure 1B). If such a plastic liner 2 is made of a foam, it can be extruded with integral shallow mitred grooves 7 that allow the liner 2 to be easily folded rather than creased.

WO 02/085749 PCT/GB02/01822 11 Preferred materials for a plastic liner 2 are blown, or solid, low-density polyethylene, polypropylene, nylons and so forth. The plugs 4 may be of similar materials, if desired, although are typically extruded in such a manner as to be more rigid than the walls of the liner 2. Further, the flexible material 3 may also be extruded from the same or similar types of blown plastics as mentioned above.

The material forming the walls of the liner 2 may optionally be corrugated and examples of such material include corrugated cardboard, corrugated plastic (such as CorrexTM and Twinplast T M and so forth.

Typically, the corrugations of such material are fluted in a direction substantially parallel to the horizontal plane containing the line B-B' (see Figure 4A) of the container. This type of fluting provides the container with substantial rigidity, since in the non-collapsed position the corrugations tend to buckle somewhat.

This pushes the corners of the liner 2 outwards, so increasing the tension in the sides of the container. In addition, the presence of the inserted rigid plug(s) 4 provides the container with extra lateral rigidity.

The container's overall rigidity is an important property that enables the transported goods to be insulated from physical shocks during transit. Vertical rigidity is predominantly provided by the rigidity of the walls of the liner 2.

Further, the air trapped within the flutes of the corrugations can also provide a degree of thermal insulation of the goods held within the container.

If desired, the corrugations may be fluted in a direction substantially parallel to the vertical plane containing the line C-C' (see Figure 4A again).

WO 02/085749 PCT/GB02/01822 12 The transport container shown in Figures 4 A to C further comprises a heatshrunk envelope 5 that applies pressure around the exterior of the sides of the container, especially when the container is in its non-collapsed state. Thus, the envelope also contributes to providing the container's overall rigidity.

The flexible insulating material 3 comprises a plurality of layers, which optionally consist of at least one sheet of the material wound a plurality of times around itself. The air trapped within the layers can provide the container with increased properties of insulation. When the material 3 is in the form of a winding, the innermost and outermost edges are typically secured by heat bonding. However as the container changes its shape during opening or flattening, the layers of the winding can still move relative to one another. Thus, if the liner 2 is sufficiently opened and then re-flattened, the container may remain in its non-collapsed state despite the absence of any plug(s) 4. The plugs do, of course, need to be inserted if any contents are to be securely held inside the container.

As shown in Figure 2 E and Figures 3 A to C, the envelope 5 can comprise loose edges 6 that protrude away from the plurality of layers of flexible insulating material 3. Such loose edges 6 can be bonded (see Figure 4 C) to the plugs.

Alternatively, the loose edges 6 can be bonded (not shown) to the edges of the plurality of layers of flexible insulating material 3.

Typically, as mentioned above, at least a portion of an outermost layer of the flexible insulating material 3 is bonded to an adjacent, inner layer of said flexible insulating material 3.

Preferably, the liner 2, the plurality of flexible layers, the plugs 4 and the envelope are made of a convenient thermoplastic such as a low-density polyethylene. Typically, the envelope 5 is heat-shrinkable for ease of sealing the WO 02/085749 PCT/GB02/01822 13 container. It is particularly preferred for all components to be made of the same thermoplastic.

Although the plugs 4 shown in the Figures are used as container closure means, alternative plugs 4 can be used as content separator means for sub-dividing the cavity 1 into compartments. Dividing the container in this manner can also help give the container extra physical strength to protect any contents during transit.

The plugs 4 may be simple disks of material or, as illustrated in the Figures, may be cut into the form of blocks with an outer protruding ledge 8 for closing over the edge of the flexible insulating material 3. However, when relatively simple disks are used, they may be constructed to have slits 9 cut into one of their major surfaces (see Figure so as to be adapted to receive the ends of the liner 2.

In this way (see Figures 5A and such disks can be used to cap the latent openings at the ends of the liner 2, so as to form a base and lid of the container.

This type of arrangement is particularly easy to assemble if the ends 10 of the liner 2 protrude outwards away from the flexible means 3, that is when the latter is shorter in the length than the liner 2.

Preferably, the walls of the liner form a tessellating shape when the liner is in its non-collapsed state. In this way, the outer shape of the fully constructed container filled with goods will allow multiple containers to be packed efficiently together without wasting space during transit.

The container can be assembled (either by its manufacturer or by a subsequent customer) from a kit comprising the following components: at least one of the liners 2, each being surrounded by an amount of flexible insulating material 3; at least one set of a couple of plugs 4; and at least one envelope WO 02/085749 PCT/GB02/01822 14 The kit, and thus the transport container, can be easily constructed by way of the following method steps which define a procedure that is sequentially illustrated by the accompanying drawings in an order starting from Figure 2A and finishing at Figure 3C.

Firstly, a liner 2 is placed in its collapsed state (see Figures 2A and B) around a flat mandrel (not shown). Secondly, a plurality of layers of flexible insulation material 3 is wound around the outside of the liner 2 (see Figures 2C and If a relatively long mandrel is used, multiple container units may be produced at the same time.

Subsequently, the partially constructed container is removed from the flat mandrel and may be supplied in this flattened state. Thus, a manufacturer may supply such a product directly to a customer wishing to transport goods, in a kit form (as mentioned above) that further comprises the required separate plugs 4 and separate envelopes When a long mandrel is used the long, partial construction that is removed from the mandrel can be cut into separate container units, so that multiple container units can be simultaneously produced.

To assemble the kit, the customer can bond at least part of each envelope around the outside of the plurality of layers of each container with the liners 2 still in their collapsed state (as illustrated in Figures 2E and F and Figure 3A).

Then, after each liner 2 has been opened into its non-collapsed state, plugs 4 can be inserted at each end of the liners 2. This helps to maintain the noncollapsed state of the liner of each container, as shown in Figures 3B and C, and the goods can be placed inside the container. Finally, the loose protruding edges WO 02/085749 PCT/GB02/01822 6 of the envelope of each container can be bonded to both plugs 4, so as to seal the contents within the container.

Preferably, the bonding steps are achieved by heat shrinking, for example when the envelope 5 is also a thermoplastic material. Such an envelope 5 is typically formed as a mono-extrusion of low density polyethylene, polypropylene, nylon and so forth. When the container is subsequently opened into its non-collapsed configuration tension increases in the plurality of layers of flexible material 3 and the envelope 5. The increased tension provides the container with extra rigidity.

Although the Figures only show a four-sided liner 2, any number of liner walls can be employed. In this way, the container need not only be substantially rectangular, but can be generally any shape, including substantially polygonal shapes, as desired, when three or more walls are present.

Thus, a customer can purchase a kit that can be easily assembled into a transport container comprising components composed of a single, re-cyclable material. The assembled container can be efficiently and simply sealed, for example, by using only a single piece of bonding machinery such as a heatshrinking device.

Advantageously, the resultant transport container is easy to store when it is empty, because it is at least partially collapsible and can therefore be flattened to a compact state. It may also have a space efficient outer shape in its noncollapsed state, so that the number of such containers that may be transported per given transit space can be maximised.

WO 02/085749 PCT/GB02/01822 Figure 6 shows an alternative embodiment of liner 12 in which the collapsibility of the liner is provided by means of longitudinal folds 14 in a pair of opposing sides 16 of the liner, as indicated by the arrows.

Claims (32)

1. A transport container comprising: a substantially rigid liner which is collapsible, in a direction transecting a vertical axis of the container, such that the container is configurable between states that are non-collapsed (for holding transportable contents therein) and at least partially collapsed (for compact storage when empty); and: 00 flexible means surrounding said liner comprising a plurality of layers of flexible material. ,I

2. A container according to claim 1 further comprising one or more substantially rigid plug(s) for insertion inside the liner when the container is in its non-collapsed state.

3. A transport container comprising: a substantially rigid liner flexible means surrounding said liner comprising a plurality of layers of flexible material; and: one or more substantially rigid plug(s) inserted inside the liner to retain the liner in a non-collapsed configuration (for holding transportable contents therein); wherein the, or each, plug is removable from the liner and when so removed the liner is collapsible, in a direction transecting a vertical axis of the container, such that the container is configurable between its non-collapsed state and an at least partially collapsed state (for compact storage when empty).

4. A container according to any preceding claim, in which the flexible means is/are impact resistant.

A container according to any preceding claim, in which the flexible means is/are resiliently compressible.

6. A container according to any preceding claim, in which the flexible means is/are elastic.

7. A container according to any preceding claim, in which the flexible means is/are -18- thermally insulating. t,

8. A container according to any preceding claim, in which the flexible means 00 comprise(s) one or more sheets or loops of the flexible material wound around the liner ¢€3 one or more times. C

9. A container according to any preceding claim, in which the flexible material comprises a polymeric foam material, e.g. polyethylene foam.

A kit for assembling a collapsible transport container according to any one of claims 2 to 9, comprising: at least one said liner surrounded by said flexible means; and; at least one said plug.

11. A method of constructing a transport container according to any one of claims I to 9, or a method of assembling a kit according to claim 10, the method comprising either: winding a plurality of layers of the flexible means around the outside of the liner; or winding a plurality of layers of the flexible means around a mandrel (or the like) and subsequently inserting the liner inside the innermost layer of the wound flexible means.

12. A method according to claim 11 when dependent upon claim 2 or claim 3, or any claim dependent thereon, further comprising the step of inserting at least one of said plug(s) inside the liner to maintain the non-collapsed state of the container.

13. A method according to claim 11 or claim 12, in which the liner and the flexible means have greater than the required vertical length for a single transport container, and the method includes the step of cutting the assembled liner and flexible means into a plurality of assembled liners and associated flexible means, thereby to form a plurality of -19- transport containers therefrom.

14. A method according to any one of claims 11 to 13, further comprising the step of surrounding the exterior of the flexible means with an envelope. 00

15. A container according to any one of claims 1 to 9, further comprising an C€3 envelope surrounding the exterior of the flexible means.

S16. A kit according to claim 10, further comprising an envelope for surrounding the S 10 exterior of the flexible means.

17. A method, container or kit according to any one of claims 14 to 16, in which the envelope is a pressure envelope which provides compression to the flexible means and/or the liner, at least when the liner is in its non-collapsed configuration.

18. A method, container or kit according to claim 17, in which the envelope is shrunk around the flexible means.

19. A method, container or kit according to claim 18, in which the envelope is shrunk around the flexible means by heat-shrinkage.

A method, container or kit according to claim 18 or claim 19, in which the envelope is bonded to at least part of the exterior of the flexible means, preferably by means of said shrinkage of the envelope.

21. A method according to any one of claims 11 to 14, or 17 to 20, the method further comprising the following additional steps: bonding (for example by heat-shrinking) at least part of an envelope around the outside of the plurality of layers of the flexible means, preferably with the liner in its collapsed state; ensuring that the liner is in its non-collapsed state; and; inserting at least one of said plug(s) inside the liner to maintain the non- collapsed state of the container.

22. A method according to claim 21, further comprising the step of: bonding (for example by heat-shrinking) at least another part of the envelope 00 to at least one of said plug(s).

23. A container, kit or method according to any preceding claim, in which the C"I container further comprises a box in which the rest of the container is contained or is containable.

24. A container, kit or method according to claim 23, in which the box is collapsible.

A container, kit or method according to claim 23 or claim 24, in which the box comprises a cardboard carton.

26. A container, kit or method according to any preceding claim, in which the liner is formed from cardboard or polymeric material.

27. A container, kit or method according to any preceding claim, in which the liner is formed from a corrugated material.

28. A container, kit or method according to claim 2 or claim 3, or any claim dependent thereon, in which the plug(s) is/are formed from a polymeric foam material.

29. A container, kit or method according to any one of claims 14 to 20, or any claim dependent thereon, in which the envelope is formed from a thin flexible polymeric material.

30. A transport container substantially as herein described with reference to any one of the embodiments of the invention illustrated in the accompanying drawings and/or examples. -21-

31. A kit for assembling a collapsible transport container substantially as herein described with reference to any one of the embodiments of the invention illustrated in the accompanying drawings and/or examples.

32. A method of constructing a transport container substantially as herein described 00 with reference to any one of the embodiments of the invention illustrated in the accompanying drawings and/or examples.