Receptacles – Sectional – Folding
Reexamination Certificate
2000-12-06
2001-09-25
Moy, Joseph M. (Department: 3727)
Receptacles
Sectional
Folding
Reexamination Certificate
active
06293417
ABSTRACT:
The present invention relates to an improved hinge mechanism between the side walls and the base of a collapsible container and a method for the assembly of such a container.
Packages can be made of different materials such as wood, metal, plastics etc. One problem with most packages is that they will demand an equal amount of transport volume when returned to the source.
One alternative to return transport is the so-called one way package, which is disposed of when it has served its purpose.
Another way of solving the problem is to provide the package with a so-called nesting function. This means that empty packages is partly placed, one into the other, by providing them with sloping sides.
Yet another way to solve the problem is to make the sides of the containers removable or foldable. The most commonly known container with removable sides is the pallet and pallet-collar combination. One example of commonly used foldable package is the collapsible pallet container. The sides are here made foldable by attaching the side walls to the base part via hinges. One disadvantage with this type of package is that the mechanical stability is radically reduced when compared to solid, non-foldable containers. The main reason to this is that the corner sections of non-collapsible containers will absorb up to 80% of the load coming from above. It will be necessary to compensate for this by adding reinforcing profiles on the side walls since these load absorbing corners are parted on collapsible containers. This will, in addition to an increase in weight also lead to a package that is more difficult to clean due to all the pockets and recesses that are formed on the side walls. Furthermore, the hinges will also be exposed to a very high level of mechanical stress.
One problem with these containers is to achieve hinges that are easy to assemble and disassemble and which at the same time have a good load absorption capability since collapsible containers will be exposed to very high mechanical stress during its useful life. Since this type of container is assembled from a number of parts it is desirable to be able to replace damaged and worn parts that no longer meet the demands. These spare parts will then be manufactured at a different time than the parts they are to be assembled with. This means that the funcionality will not always be the desired one when parts are replaced, due to differences in manufacturing tolerances and thermal shrinkage.
It has through the present invention been possible to achieve a colapsible container where the above mentioned disadvantages and drawbacks has been avoided. The invention relates to a collapsible transport and storage container comprising a base member and inwards foldable side walls. The side walls are moveably attached to the base member via hinges. The container is manufactured through injection moulding of a thermoplastic material in one or more moulds. The moulds are provided with each one or more mould cavities in which the different parts are manufactured. The side walls are provided with upper hinge members at their respective lower ends, which upper hinge members are constituting an integrated part of the respective side wall. Said upper hinge members each includes a pivot shaft and a strut which pivot shaft extends mainly parallel to the profile which forms the lower end of the side wall. The strut extends mainly perpendicular downwards from said lower end as seen when the side wall is in erected position. Said pivot shafts are in one of their ends and in one piece, attached to each one outer end of a strut. The struts are attached to the lower end of the side wall via their respective other end. All pivot shafts are pointing in the same direction within one and the same side wall. The base member is provided with lower hinge members at its respective outer ends. The lower hinge members are constituting an integrated part of the base member, whereby said lower hinge members are constituted by wall members which are provided with holes. The wall members extends mainly perpendicular to the base surface of the base member and the extension of the pivot shaft. The holes, whose centre axis extends mainly parallel to the base surface of the base member and the outer end where the holes are located, are provided with a first hole wall and a second hole wall. The invention is characterised in that the lower hinge members are provided with assembly grooves in the form of recesses which are located in the wall members. The assembly groves extends mainly parallel to the extension of the pivot shaft. The assembly grooves are applied at an angle A from the base surface of the base member, as seen from an angle looking through the holes. The side walls are provided with one or more locking profiles at thier respective lower ends which are intended to cooperate with the assembly grooves during assembly and disassembly. The locking profiles are provided with a locking edge which runs against a wall member during the main part of the folding and unfolding motion of the side wall.
According to one embodiment of the invention the wall members of the base member are provided with support walls which extends mainly parallel to the extension of the pivot shaft.
The pivot shafts are preferably provided with a mainly circular cross-section which possibly is provided with recesses. This type of recesses are suitable since the pivot shafts often need to be of a heavier dimension that the rest of the container due to the mechanical stress they will be exposed to. Such a dimension would otherwise cause problems during cooling of the pivot shaft during manufacturing. The invention also relates to a procedure for the assembly of foldable side walls on a base part which side walls and base part together forms a collapsible container according to the invention. The invention is characterised in that the base part is provided with lower hinge members at its respective outer ends. The lower hinge members includes wall members which are provided with holes. The wall profiles extends mainly perpendicular to the base surface of the base member and perpendicular to the extension of an outer end placed closest to the wall member. The centre axis of the holes extends mainly parallel to the base surface of the base member and the outer end where the holes are applied. The lower hinge members are furthermore provided with assembly grooves in the form of recesses which are located in the wall members and/or possibly in connected support walls. The assembly grooves are applied at an angle from the base surface of the base member, as seen from an angle looking through the holes. The side walls are provided with upper hinge members at their respective lower edges. The upper hinge members each includes a pivot shaft and a strut which pivot shaft extends mainly parallel to the profile that forms the lower end of the side wall. Said strut extends mainly perpendicular downwards from said lower end as seen when the side wall is in erected position. All pivot shafts is pointing in the same direction within one and the same side wall. The side walls are furthermore provided with one or more locking profiles at their respective lower ends. The locking profiles are provided with a locking edge, whereby the side walls independantly is moved down towards the base member with the ends of the pivot shafts edge to edge with the vertical surfaces of the wall members. The side walls are introduced at an angle B between the base surface and the side wall so that the locking profiles falls into engagement with the assembly grooves. The side wall is then pushed in the direction of the pivot shafts so that the pivot shafts is brought into engagement with the holes. The locking profiles are hereby disengaged from the assembly grooves whereafter the side wall may be folded up and down and that the side wall is prevented from moving in a lenghtwise direction during most of the positions possible, preferably including the completelly erected and completelly down-folded positions, by the interacting contact
Moy Joseph M.
Perstorp Plastics Systems AB
Stevens Davis Miller & Mosher L.L.P.
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