The present invention relates to a carrying case for electronic equipment and other delicate instruments. The carrying case comprising, preferably, shock absorbing means for protecting the equipment against impact forces and includes, preferably, a retrieving system for easy pull-out of the equipment.
BACKGROUNDTravellers often carry computers within cases specifically designed for holding the computer. Portable electronic equipment such as computers are not rugged enough to withstand being dropped or otherwise subjected to shock loading. Often the size does not leave any internal room for shock absorbing materials to protect the vulnerable parts of the equipment. Furthermore some modern electronic equipment is very fragile and comprises areas (screens, hard discs, cabinets and/or other sensible parts) which may be damaged by even low levels of pressure and/or shocks imposed by impact. Thus, various methods of arranging the equipment in the case protecting the equipment have been suggested in the prior art, it is however important that the protection of the equipment functions well with the other purposes of the case, such as for carrying papers. It is further desirable to have easy and fast access to the equipment and to be able to place the equipment securely in the bag without difficulties. US 2004/0188202 discloses a fetching structure for a carrier bag essentially comprised by a support board fixed to the inner edge of the opening of the bag and it is assumed that the present invention provides at least an improvement thereto.
SUMMARY OF THE INVENTIONAccordingly, the present invention relates to a carrying case for electronic equipment or other delicate instruments, comprising: at least a left side wall and a right side wall, a front wall and a back wall, means for protecting the equipment against impact forces (shock absorbing means) and/or a retrieving system for easy pull-out of the equipment (retrieving means).
In a preferred embodiment of the carrying case according to the present invention, the retrieving means is/are attached to or made integral with a wall of the carrying case. During use of the retrieving means, the force resulting from e.g. a pulling motion, on the wall may result in a bending of the wall. Bending of the wall may result in that the carrying case is folded, leaving only very limited space to retrieve the equipment. Furthermore, if the carrying case is dropped, the inertia of the equipment may bend the wall resulting in that the equipment stored in/by the retrieving means may come in contact with the bottom of the carrying case during the drop whereby the equipment may be damaged.
Thus, in the preferred embodiment, at least the wall to which the retrieving means is/are attached has a sufficient strength to substantially prevent bending of the wall when the retrieving means is/are used and/or when the carrying case e.g. is dropped.
The shock absorbing means is/are at least partly made of shock absorbing material.
In one embodiment the shock absorbing means and retrieving means are comprised by the combination of at least one rigid strap and at least one shock absorbing strap.
In another embodiment the shock absorbing means and/or retrieving means is/are comprised by an internal flexible wall attached to the front or back wall or alternatively to an optional partition wall substantially parallel with the front or back walls. At least a part of said internal flexible wall is preferably made of a flexible shock absorbing material. Said internal flexible wall together with at least one wall define a compartment for the electronic equipment or other delicate instruments.
In a preferred embodiment, at least one residual compartment is left open when the compartment housing the equipment is closed. The rest of the case may then be used for the other purposes of the case, optionally divided into two or more separate compartments.
DRAWINGSThe invention, and in particular preferred embodiments thereof, will be further disclosed in connection with the accompanying drawings, in which:
FIG. 1 shows the case according to the invention where the internal flexible wall is fastened to the front wall and the extended opening flap is in the open position.
FIG. 2 shows a side view of the case ofFIG. 1 housing a computer, with the compartment housing the computer closed.
FIG. 3 shows the lifting of a computer by pulling the free end of the internal flexible wall.
FIG. 4 shows loading/unloading of a computer—or equipment in general—into/out of the compartment for housing the equipment, the loading/unloading is done by use of the flexible wall which, when the free end of the flexible wall is fastened, is wrapped around the computer.
FIG. 5 shows an open side view of the case during loading/unloading of a computer—or equipment in general—by use of the flexible wall which, when the free end of the flexible wall is fastened, is wrapped around the computer.
FIG. 6 shows the internal partition wall of the case when pulled out of the case shown inphotograph1.
FIG. 7 shows schematic side view of carrying cases according to the invention comprising an internal flexible wall.
FIG. 8 shows an open side view of a carrying case with a strap system.
FIG. 9 shows the retrieving function of a carrying case with a strap system.
FIG. 10a-dshows varying embodiments of the interior of a wall to which an internal flexible wall is attached.
The figures show possible implementations of the present invention and are not to be construed as being limiting to other possible embodiments falling within the scope of the claims.
DETAILED DESCRIPTION OF THE INVENTIONOne object of the present invention is to provide a carrying case for electronic equipment or other delicate instruments capable of accommodating the equipment or other instruments secured and protected against shock loads applied to the case itself.
In the present context the term “for electronic equipment or other delicate instruments” is meant to include any kind of computers capable of being transported in a case, such as notebooks and laptops, as well as any other kind of electronic equipment, such as cameras, radios or the like. Other delicate instruments are any instruments in risk of being damaged when subjected to the acceleration forces applied to the case, if the case for example is dropped. Such instruments may be measurement instruments, telescopes or the like. In a preferred embodiment the case is adapted for computers and/or cameras. Throughout this text electronic equipment or other delicate instruments is referred to as equipment for short.
It should be mentioned that while the description of the invention may focus on carrying cases equipped with both shock absorbing means and retrieval means, and typically referred to as integrated means, the scope of the invention is intended to be broader at least in the sense that carrying cases having only shock absorbing means or retrieval means are also encompassed by the scope of the invention.
Thus, a further object of the invention is to provide a carrying case for electronic equipment with easy retrieval of the equipment. In conventional carrying cases the user is required to retrieve the equipment by grabbing either the top or side wall(s) of the equipment which often is so positioned inside the bag that retrieval is troublesome. The carrying case according to the invention comprises retrieving means, whereby a system for easy pull out of the equipment is provided.
The carrying case is preferably designed as a conventional case, i.e. having at least a left side wall and a right side wall, a front wall and a back wall, connected to each other to form a case. In a preferred embodiment the case is provided with a bottom and a top wall as well. The terms side wall, bottom wall, front wall, back wall and top wall refer to the position of the walls when the case is carried. The walls may be connected by a seam. Alternatively, one or more walls may be made of a continuous sheet of material. For example the front, back and bottom walls may be of a continuous sheet. Also the side and bottom walls may be of a continuous sheet.
In an embodiment the case is formed by having the two side walls disposed in a substantially parallelly spaced relationship, and the front wall and the back wall disposed in a substantially parallelly spaced relationship, all four connected non-releasable to each other, whereby the four walls constitute a rigid peripheral wall for the case.
It is further intended that the bottom wall may be of rigid material and connected non-releasable to the four walls, whereby a case with high stability is formed.
In alternative embodiments at least the front wall, the back wall or a partitioning wall is made of rigid material providing the required strength.
The carrying case may comprise at least one partitioning wall substantially parallel with the front or back wall.
The top wall may be manufactured as the open part of the case, for example by hinging the top wall to at least a part of the back wall or the front wall. The top wall may be extended further to overlay with the front or back wall when closed. These overlaying parts may include means for closing and opening of the case.
In a specific embodiment the case may be formed as a backpack/rucksack including shoulder bands for carrying the case.
Shock Absorbing MeansAs described above the invention relates to a carrying case comprising shock absorbing means for protection of the electronic equipment housed by the case.
The shock absorbing means is preferably at least partly made of a shock absorbing material, such as a resilient material or other suitable material known by a person skilled in the art. Such material may be for example Neoprene (a registered trademark of DuPont Chemical) or another synthetic rubber or other elastic material. The weight of the equipment is mainly carried by a non-resilient material, but in response to shock the shock absorbing material stretches and the equipment is thereby protected. The shock absorbing material must provide adequate resistance not to allow the equipment to touch the bottom wall in case of shock. As described below the shock absorbing means may be coupled to the retrieving means.
Retrieving SystemAn object of the invention relates to a carrying case comprising a system facilitating easy pull-out of the equipment. Often the position of the equipment in a carrying case makes it troublesome to retrieve the equipment from the case. In order to solve this problem the carrying case of the present invention comprises a retrieving system. The system enables easy access to the equipment by pulling a handle/strap or other means whereby the equipment is lifted from its secured position within the carrying case. At least a part of the sides of the equipment is thereby raised above the sidewalls of the carrying case and is thus easy to grab from either side of the carrying case. Using the retrieving function enables moving of the equipment relative to the walls of the carrying case and the user thus has easy access to the equipment.
A handle or strap or other part of the retrieving means is used for manual moving of the equipment relative to the walls of the carrying case.
The retrieving means may be part of an internal flexible wall or a strap or any other suitable means positioned around part of the equipment.
In the following, different embodiments of the retrieving system and the shock absorbing means is/are described as examples of the invention, although the invention is not limited to the embodiments described herein.
Strap SystemThe retrieving means may be comprised by straps or tissue of mainly non-resilient material and the shock absorbing means comprised by straps or tissue made of mainly shock absorbing material. For optimal function of both characteristics, the retrieving means and shock absorbing means need to be well organised.
In an embodiment the strap system is comprised by at least one strap of shock absorbing material positioned within the equipment compartment. The at least one strap is fastened to the front wall and the back wall of the compartment and positioned at a height preventing the strap, even in its most stretched form, from reaching the bottom wall, thus forming the shock absorbing means of the carrying case. An alternative to a strap may be a tissue of shock absorbing material having the same characteristics as the straps described.
In combination with the shock absorbing means made by straps or tissue of shock absorbing material, a retrieving system may be located within the same equipment compartment. The retrieving system may preferably comprise at least one strap made of non-resilient material. The retrieving system may alternatively be made of tissue or other non-resilient material.
The retrieving system is fastened to at least one wall or an edge of a wall of the equipment compartment, such as the back wall or front wall of the equipment compartment. When the retrieving system comprises one or more straps, said straps may be attached to the opposite wall in a loose arrangement to allow lifting of the straps as seen inFIG. 8, whereby the equipment may be raised as seen inFIG. 9.
The compartment for housing the equipment may be closed by independent securing means attached to one or more walls of the carrying case.
The shock absorbing means of the strap system may be combined with the internal flexible wall described here below. In this embodiment the internal wall may be made of non-resilient material as the shock absorbing means is/are provided by resilient straps or tissue within the equipment compartment.
Internal Flexible WallThe shock absorbing means and the retrieving system may comprise an internal flexible wall.
In an embodiment the carrying case comprises an internal flexible wall attached to a wall substantially parallel with either the front or back wall. The internal flexible wall is preferably attached to the front wall or back wall, but may alternatively be attached to a partition wall positioned in the case, said partition wall being at least substantially parallel with the front or back wall (seeFIG. 7). The internal flexible wall may be releasable attached to the wall to which it is attached, or it may be fixed to the wall. It is preferred that the internal flexible wall is releasable attached to the walls whereto it is attached in order to adjust the position of attachment or to remove the internal flexible wall if the case is used for other purposes.
The internal flexible wall comprises a stationary end and a free end. The stationary end may be firmly attached to a wall of the case. In a specific embodiment the stationary end is attached at the edge of a wall. Alternatively the stationary end may be releasable attached in order to allow adjustment in relation to the wall whereto it is attached. Thereby the size of the compartment for the equipment may be adjusted by changing for example the height of attachment of the internal flexible wall.
The free end of the internal flexible wall is generally releasable attached and comprises securing means for fastening the internal flexible wall.
In a specific embodiment the internal flexible wall is releasable attached in both ends.
The free end may be fastened to the same wall to which the stationary end is attached when the internal flexible wall is attached to either the front wall or back wall of the case. Alternatively the free end may be fastened to the front wall, the back wall or a partitioning wall, when the internal flexible wall is attached to a partitioning wall.
Thus, the free end comprises securing means for fastening the free end of the internal flexible wall and thereby enclosing the equipment in the compartment. The securing means is/are preferably releasable so that the internal flexible wall may be adjusted in relation to the wall. Said securing means may also serve to fasten the internal flexible wall to the top wall or to an extension of the top wall overlaying with the front wall, if convenient.
In an embodiment the case comprises securing means for the free end of the internal flexible wall on one or more of the walls of the case.
Fastening of the free end encloses the electronic equipment in a protected compartment and leaves open at least one residual compartment.
In an alternative embodiment the internal flexible wall comprises both shock absorbing means and retrieving means, the bottom part of the internal flexible wall is comprised by two layers. One layer of shock absorbing material and one layer of non-resilient material. The outer layer comprised by the non-resilient material may be continuous with the remainder of the internal flexible wall. The resilient layer may be straps or a sheet of shock absorbing material fastened to the inside of the internal flexible wall in a position preventing the resilient layer, even in its most stretched form, from reaching the outer non-resilient layer. The stationary end and the free end may be fastened as described for the above mentioned embodiment.
Attachment Means and Securing MeansThe shock absorbing means and retrieving means may be fastened at one or more ends through any suitable means such as fasteners comprising hook and loop type fasteners, such as Velcro (a registered trademark of Velcro Industries B.V.) tape. In an embodiment the shock absorbing means and/or retrieving means is/are fastened by a seam.
As described above the shock absorbing means and/or retrieving means may be provided by an internal flexible wall. The stationary end of said internal flexible wall may be attached through any suitable means. When the stationary end is firmly attached, it may e.g. be attached by a seam. When the stationary end is releasable attached, it may be attached using any means with a releasable mechanism, such as fasteners comprising hook and loop type fasteners, such as Velcro® tape. Thereby it is possible to adjust the position of the internal flexible wall continuously.
The position of the internal flexible wall may however also be adjusted stepwise, such as by attaching the stationary end of the internal flexible wall to the walls by means of other releasable mechanisms, such as snap fasteners, hooks or the like.
In the carrying case, the length of the internal flexible wall is preferably selectively adjustable to accommodate various sizes of equipment and instruments.
The free end may be fastened by any suitable attachment means, such as through fasteners comprising hook and loop type fasteners, such as Velcro® tape. Thereby it is possible to adjust the position of the internal flexible wall continuously. By fastening the free end, the compartment enclosing the equipment is closed and the equipment is in a secured position.
In a preferred embodiment the carrying case is easily accessed from the top, and the equipment may be inserted in the pocket formed by the internal flexible wall and the surrounding walls. Before inserting the equipment the internal flexible wall may be adjusted to accommodate and fit the equipment, such as by changing the length of the internal flexible wall and/or changing the position of the internal flexible wall in relation to the walls, so that the distance between a lower part of the internal flexible wall substantially parallel with the bottom wall and the top wall corresponds to a dimension of the equipment. Furthermore, a partition wall may be moved to adjust to another dimension of the equipment.
In an embodiment the carrying case is accessed from the top, and the equipment is loaded into the compartment from the top (seeFIGS. 1,3,4,5 and9).
When releasing the securing means of the internal flexible wall, the equipment is easily accessible. By pulling the free end of the internal flexible wall, the equipment is raised above the side walls of the case and may thereby be reached from the side (seeFIGS. 3 and 4).
In an embodiment the securing means of the internal flexible wall is automatically opened when the case is opened to access the case.
Alternative embodiments may comprise similar fastening and attachment means as the embodiment described above. As described above straps may be firmly or loosely arranged to one or more walls of the carrying case by any suitable means. The strap may serve as handle for retrieving the equipment.
MaterialThe shock absorbing means and/or retrieving means is/are at least partly made by a shock absorbing material. The shock absorbing means and retrieving means are thus made of shock absorbing and/or non-resilient materials. The shock absorbing material provides the shock absorbing function by absorbing the forces generated by shock, whereas the non-resilient material provides stability and at least part of the retrieving function.
In an embodiment the shock absorbing means and/or retrieving means is/are provided by an internal flexible wall made from a material capable of absorbing at least some of the forces when impacts are applied to the case. In a preferred embodiment at least a part of the internal flexible wall is made from a flexible material, said material for example being resilient. It is preferred that not the whole internal flexible wall is made of a shock absorbing material in order to avoid that the forces applied to the case may be passed to the equipment, for example if the internal flexible wall is so resilient that it allows the equipment to hit the bottom of the case during an impact.
In a preferred embodiment the internal flexible wall comprises two internal flexible wall parts being made from a flexible, substantially non-resilient material. The remaining part of the internal flexible wall is preferably made from a shock absorbing material (FIG. 6). One part of the internal flexible wall made of non-resilient material is the part attached to a wall of the case and having a length shorter than the side length of the equipment to be carried. The second part made of non-resilient material is used for securing the free end of the flexible wall. In this context the term “resilient” is used in its normal meaning, i.e. allowing stretching of the material with subsequent retraction to substantially return to the position that the internal flexible wall had before stretching. The shock absorbing material may preferably be a synthetic rubber, preferably such as Neoprene®.
In a further preferred embodiment the internal flexible wall comprises one continuous wall part made of flexible, substantially non-resilient material and at least a second part made from a shock absorbing material.
The material for the carrying case may be selected based on strength and appearance. Suitable materials for the outer covering are leathers and synthetic polymers, such as nylons.
The internal material of the walls of the carrying case must provide strength and flexibility at appropriate positions. At least one wall should comprise a strong internal material such as carton or plastic material, preferably the front wall, the back wall or a partitioning wall comprises a strong internal material. In a preferred embodiment the back wall comprises plastic as internal material.
Equipment CompartmentA compartment for the electronic equipment may be defined by the walls of the carrying case, the front wall, back wall or a partitioning wall in combination with the side walls, bottom walls and top walls. Part of shock absorbing means and/or retrieving means may participate in defining the compartment.
In an embodiment of the invention comprising an internal flexible wall, a compartment for the electronic equipment or other delicate instruments is defined by the internal flexible wall together with at least one wall of the carrying case. Normally the compartment will be defined by the internal flexible wall, a part of the side walls, a part of the rear wall or a part of the front wall. When closed, the internal flexible wall also serves as top and bottom walls of the compartment (seeFIG. 2).
Further CompartmentsThe case may be divided into several compartments by the use of partition walls. In one embodiment the carrying case according to the invention comprises at least one partition wall. The internal flexible wall may be attached to either of the walls of the case being a back, a front or a partitioning wall, and capable of being secured to one or more walls of the case.
In another embodiment, the carrying case according to the invention comprises at least two partition walls.
The partition wall(s) may be stationary walls or they may be movable within the case or even capable of being removed from the case. Preferably the partition wall(s) is/are movable, so that the size of the compartment between the walls, between which the internal flexible wall is attached, is adjustable. Each partition wall may individually be stepwise movable for example by arranging a slide or the like in the bottom wall and the top wall of the case, said slide comprising recesses for receiving the partition wall. In another embodiment each partition wall may individually be continuously movable on a slide leading to a more easily adjusted compartment.
In cases where the case is accessible from the top, the partition walls may be arranged in slides on the back wall and the front wall, whereby said slides may be as discussed above.
REFERENCE SIGNS- 1. carrying case
- 2. left side wall
- 3. right side wall
- 4. front wall
- 5. back wall
- 6. bottom wall
- 7. top wall—opening flap
- 8. partition wall
- 9. internal flexible wall
- 10. non-resilient part(s)
- 11. resilient part
- 12. compartment
- 13. shock absorbing means
- 14. closing means
- 15. computer (equipment)
- 16. residual compartment
- 17. strap (shock absorbing means)
- 18. strap (retrieving means)
DETAILED DESCRIPTION OF DRAWINGSFIG. 1 shows the carryingcase1 in a form wherein the case is accessible from the top. The case has aleft side wall2 and aright side wall3, as well as afront wall4. Furthermore, thecase1 has aback wall5, abottom wall6 and an extendedtop wall7 for closing of the case. An internalflexible wall9 is attached to thefront wall4 and secured to the outside of the same wall byshock absorbing means13 using Velcro® tape attached to the free end and the front wall. The case is shown with thecompartment12 for holding the computer in the closed (secured) position and with the residual compartment in the open position. Thecompartment12 is defined by the internalflexible wall8, thefront wall4 and part of theside walls2 and3. In order to secure any equipment arranged in thecompartment12, the internalflexible wall8 is secured on the outside of the front wall byshock absorbing means13. Apart from thecompartment12 thecase1 may comprise residual compartment or compartments16′ or16″. The size of the residual compartment(s) depends on the necessary size of thecompartment12. The residual compartment(s) may be used for accessories to the equipment or other belongings of the user.
FIG. 2 shows an open side view of thecase1 ofFIG. 1, with thecompartment12 holding the equipment (here a computer15) exposed. The computer is held in thecompartment12 formed by the internal flexible wall attached to the front wall and to be fastened by securingmeans13 on the outside of the front wall.
FIG. 3 shows thecase1 ofFIG. 1, wherein a computer15 is being retrieved from thecompartment12 by pulling the free end of the internal flexible wall. Once theshock absorbing means13 is released, the internal flexible wall is raised and the computer may easily be taken out of the compartment.
FIG. 4 shows thecase1 where a side wall has been excised to view the interior of the case during loading or unloading of the computer. Thecompartment12 is formed by the front wall and the internal flexible wall. By pulling the internal flexible wall the computer may easily be taken out. By folding the internalflexible wall9 around the computer15 and the upper edge of thefront wall4, thecompartment12 may be closed and the computer placed securely in the compartment.
FIG. 5 shows thecase1 ofFIG. 1, where a computer15 is being positioned in thecompartment12. Once the computer15 is inserted, the free end of the internal flexible wall is folded around thefront wall4 and fastened thereto by securingmeans13 thus forming thecompartment12. The compartment is thereby adapted to the size of the computer15.
InFIG. 6 the internalflexible wall9 of the case inphotograph1 is shown in greater detail. The internal flexible wall is pulled out of thecase1 showing the resilient11 andnon-resilient parts10 of the internal flexible wall. The flexible wall absorbs all impacts on thecase1 before they are transferred to equipment in thecase1.
FIG. 7 shows schematic side views of several embodiments of a carrying case according to the invention. The cases are shown without a top wall (opening flap) for clarity. The figure shows different attachment possibilities of the internal flexible wall. The internalflexible wall9 may be attached to the back wall5 (A), the front wall4 (B), or alternatively to a partition wall8 (C and D) inside the case. In the latter example the free end of the internal flexible wall may be fastened to the partitioning wall (C) or alternatively the front wall (D) or back wall (not shown). The arrow points to thecompartment12 for housing of the computer.
Thepartitioning wall8 with theflexible wall9 may be made as an insertion to be inserted into a carrying case. Thus, such an insertion may provide a carrying case, which is not manufactured with retrieval and/or shock absorbing means beforehand, to be equipped with such means. In this case, the insertion will preferably comprise a substantially rigid wall similar to thepartitioning wall8. Theflexible wall9 will at one end (the stationary end) either be made integral with or releasable attached to the top of the substantially rigid wall. Theflexible wall9 has, at its other end (the free end), fastening means allowing it to be releasable attached to either a wall of the carrying case or to the substantially rigid wall as shown inFIG. 7. The stiffness of the substantially rigid wall is selected so that its strength is sufficient to allow retrieval of a device housed in thecompartment12 and/or to allow the shock absorbing means to take up shock occurring during normal use of the carrying case.
More than one insertion may be provided in a carrying case e.g. for providing easy retrieval of more than one computer or for the carrying of different kinds of electronic equipment.
FIG. 8 shows an open side view of an embodiment of the invention comprising a strap system. The shock absorbing means is/are provided with the two straps (17) of shock absorbing material fastened to the front and back walls of the carrying case. The retrieving means is/are provided by an additional strap (18) made of non-resilient material. This is fastened to the front wall below the shock absorbing straps and is loosely attached to the back wall through a casing.
FIG. 9 shows the retrieving function of the carrying case displayed inFIG. 8. By pulling the strap (18) the computer is raised from the compartment and may easily be taken out of the carrying case.
The material—or composition of materials—of the wall to which the internalflexible wall9 is attached to or made integral with should preferably be so rigid as to provide a sufficient strength to avoid bending. InFIG. 10aawall19 to which the internalflexible wall9 is attached is shown. The attachment of theflexible wall9 to thewall19 is indicated by the cross hatching20. Thewall19 comprises arim19ahaving smaller thickness than thepart19b. The wall is made integral with the carrying case preferably by stitching therim19ato the carrying case as indicated by the dottedlines21. Thewall19 may be covered by fabric or leather to at least visually cover thewall19 once it is integrated in a carrying case.
As indicated above, the strength of thewall19 should prevent bending of the wall at least when the retrieval system is used. Retrieval comprises typically pulling in theflexible wall9 thereby lifting the computer or the like housed in thecompartment12 out of the carrying case. This pulling action may introduce a force atposition20 tending to bend thewall19. If thewall19 is not sufficiently stiff to withstand the bending force, thewall19 may bend as indicated inFIG. 10brendering it difficult to retrieve the computer or the like housed in thecompartment12.
Furthermore, the strength of thewall19 should preferably also be sufficient to prevent bending in case the carrying case e.g. is dropped. If thewall19 is not sufficiently strong, a bending as shown inFIG. 10cmay occur where the bottom of thecompartment12 touches the bottom of the carrying case at position22 (seeFIG. 10c) whereby the impact applied to the carrying case e.g. during a drop is transferred to the equipment stored in thecompartment12.
The wall is preferably made of polypropylene, polyethylene, cardboard, aluminium, plywood, a glass and/or carbon fibre composition or the like. The embodiment shown inFIG. 10bis composed by a honey comp structure constituting at least a part ofpart19b. Thepart19bis preferably glued to e.g. a plastic plate having a larger area than thepart19bin order to provide therim19a.
FIG. 10dshows a further embodiment of thewall19. In this embodiment thewall19 comprises abase wall element19din the form of a plastic plate to which three supportingelements19eand19fare attached. The supportingelement19fis typically a honey comp structure and the twoelements19eare typically aluminium elements.
It should be noted that even though the flexible wall is disclosed as a sheet of flexible material, the flexible wall may be a number of straps.