Patent Application
20250145330
The invention relates to a large load carrier.
Large load carriers, which are also known as large containers, are known, for example, from DE 10 2008 047 857 A1. The large container described there can have standard dimensions of 800 mm×600 mm, 1200×800 mm, 1200 mm×1000 mm or 1200 mm×1600 mm, and namely depending on the desired storage capacity. The height of the large load carrier is typically 1000 mm, wherein this can be defined relatively freely and wherein the optimum utilisation of the loading area of a lorry usually has a decisive influence.
Up to 99 of such large load carriers measuring 1200 mm×800 mm×1000 mm can be arranged on a standard lorry, and namely eleven rows of three large load carriers arranged on top of and next to one another respectively. Stable stackability of the large load carriers is extremely important for the transport of goods.
The side walls of such large load carriers can be folded so that a large load carrier in an empty transport position has a height of only approx. 300 mm with the same external dimensions of 1200 mm×800 mm. In the empty transport position, up to 363 such large load carriers can be transported in one lorry.
EP 1 473 240 A1 discloses a large load carrier having tapered edges on the top of the side walls and feet, which are connected circumferentially to runners. The runners are offset with respect to the feet and have a smaller support surface than the feet. When stacked, the runners and feet rest on the surface of the side wall. This results in a relatively non-slip position of the upper large load carrier in the stack.
US 2006/0260976 A1 shows a large load carrier corresponding to the preamble of claim 1. The large load carrier has top-side projections on the side walls in corner areas where the side walls abut against one another, as well as recesses in the feet. In the stack, the feet of an upper large load carrier are placed with their recesses onto the top-side projections of a lower large load carrier with a precise fit. The feet and runners otherwise rest on the side walls. This also results in a relatively slip-free position of the upper large load carrier in the stack.
WO 2017/205352 A1 discloses a large load carrier having recesses in the feet and corresponding projections in the upper edges of the side walls, wherein, in the stack of identical large load carriers one above the other, the runners and feet of an upper large load carrier rest on the side walls of a large load carrier that is arranged below. The projections in the side walls and the grooves in the feet form a positive fit.
One object of the invention is to create a large load carrier that comprises circumferential side walls and is versatile and compatible with both lattice box pallets and Euro pallets in the stack. Furthermore, the large load carrier should be characterised by stable stackability.
In the case of a large load carrier according to the invention made of synthetic material and having a base part that comprises a number of feet and four side walls, it is provided that the side walls comprise support surfaces for receiving feet of a similarly designed large load carrier in the stack, wherein the support surfaces are arranged recessed relative to projections of the side walls and wherein the projections at least partially surround the feet of a similarly designed large load carrier in the stack on the circumferential side. According to the invention, a first projection at least partially surrounds a foot of the similarly designed large load carrier in the stack on the foot inner side and a second projection at least partially surrounds the foot of a similarly designed large load carrier in the stack on the foot end face side.
In the context of the present disclosure, a “similarly designed” large load carrier is understood to be coordinated in terms of external shape and geometry. The large load carrier according to the invention can also be stacked in a compatible manner with large load carriers made of a material other than synthetic material, in particular for example with large load carriers made of metal or wood, as well as with Euro pallets and lattice box pallets, as will be described in more detail below.
It is preferably provided that the first and second projection are formed in one piece, in other words connected to one another, in particular for example in the L-shaped cross-section. This improves the stability of the projections. In alternative embodiments, however, the first and second projection can also be designed in two parts.
The first and second projection are arranged on the upper edge of the side wall.
The first projection preferably extends over the entire width of the side wall so as to increase stability. Preferably, the first projection in the stack of similar large load carriers lies against the foot inner side of a large load carrier that is stacked on top of it, so that a non-slip composite bonding of the large load carriers in the stack is achieved.
The second projection is preferably aligned with a side wall plane and forms a linear extension of the side wall plane at the top. It is particularly preferably provided that the second projection completely flanks the foot of the large load carrier that is arranged thereon in the stack on the foot end face side.
It is preferably provided that the second projection in the stack of similar large load carriers rests against the end face of the foot of a large load carrier that is stacked thereon, so that a non-slip composite bonding of the large load carriers in the stack is achieved.
It is preferred that the support surfaces are load-transmitting and the projections are load-free. In alternative embodiments, however, the support surfaces and the projections can also be load-transmitting.
These measures make it possible to nest the large load carriers together in the stack of similarly designed large load carriers and thus also to create a stable composite bonding transport unit.
The large load carrier according to the invention made of synthetic material is preferably made of individual injection-moulded parts, usually made of PP and/or HDPE, and comprises a base part and a number of feet that are attached thereto or are formed in a single piece with the base part, for example four, eight or nine feet. The foot area of the large load carrier can be freely designed to a certain extent within the scope of the present disclosure. For example, the large load carrier can comprise four corner feet or, alternatively, four corner feet and four further support feet that are arranged in the centres of the side walls and, additionally or alternatively thereto, a support foot in the centre of the base part. The feet can be firmly screwed, clipped or formed in one piece with the base part.
The base part comprises, for example, flat side wall sections and a one-piece base plate.
The dimensions of the foot areas of the large load carrier preferably correspond to the standard requirements of a Euro pallet according to EN 13698-1:2003, so that the large load carrier can be handled with the same equipment, in particular industrial trucks, as the Euro pallet. In various embodiments, the foot areas can be connected to runners, in particular in order to improve stability. Recesses for the forks of industrial trucks are provided between the base part and the runners. The runners can be firmly screwed to the feet, clipped together or formed in one piece.
This results in a pallet-like structure on the underside of the large load carrier, which can comprise nine feet and runners that in each case connect three feet along the long side of the large load carrier in accordance with the Euro pallet standardised to EN 13698-1:2003.
The large load carrier preferably has two shorter side walls, which are referred to as transverse side walls in the context of the present disclosure, and two longer side walls, which are referred to as longitudinal side walls in the context of the present disclosure. With this in mind, a distinction is also made below between a longitudinal direction and a transverse direction in the case of the large load carrier.
The four side walls of the large load carrier are, for example, hinged in a foldable manner to the base part by means of hinge elements, wherein the present invention also includes rigid embodiments of large load carriers having non-folding side walls, including, for example, circumferential side walls that are formed in one piece.
Furthermore, in preferred embodiments, the side walls have foldable or removable side sections within a side wall, as in the case of a lattice box pallet. For example, one or both longitudinal side walls can be equipped with side wall flaps that can be folded outwards over the lower side wall section. In the unfolded position, the large load carrier allows access to the contents from the outside even when stacked and even when the lid is closed. The design of the flaps in the side walls can be as described in DE 10 2017 113 053 A1, for example.
The upper edges of the longitudinal side walls form part of the support surfaces, which means that the large load carrier is designed so as to receive the feet of a similarly designed large load carrier in the stack.
The transverse side walls enclose the projections.
The support surfaces are preferably designed so that they can accommodate pallets that have support dimensions of a standard size, in particular Euro pallets that are standardised in accordance with EN 13698-1 with support dimensions of 1200 mm×800 mm. Accordingly, the support surfaces in the area of the upper edge areas of the side walls have at least the standard size, in particular 1200 mm×800 mm. The feet of the large load carrier preferably also form a support dimension in the standardised size, in particular 1200 mm×800 mm.
The corner feet of the large load carrier can have support dimensions approximately the standard size of the Euro pallet, in other words with a width of 100 mm in the transverse direction and 145 mm in the longitudinal direction.
However, the width of the feet in the longitudinal direction can also be less or greater than 145 mm, in particular from 60 mm to 250 mm, preferably from 120 mm to 220 mm. Similarly, the width of the feet in the transverse direction can be greater or less than 100 mm, in particular from 60 mm to 120 mm, preferably from 90 to 105 mm. In advantageous embodiments, the width of the feet in the transverse direction is at least 100 mm.
In this case, the first projection is arranged in each case at least far enough away from the longitudinal side wall of the large load carrier in order to surround both the feet of the large load carrier placed on it and, alternatively, the feet of the Euro pallet on the foot inner side.
The base part has shoulders in the longitudinal direction towards the outside, resulting in an upper area of the large load carrier with a larger cross-section and a lower area of the large load carrier with a smaller cross-section. In the present disclosure, the terms “cross-section” or “cross-sectional area” always refer to a reference plane which is parallel to the contact surface of the large load carrier and which is generally also parallel to a base surface in the interior of the large load carrier.
The shoulders on the base part are preferably formed on the sides of the two shorter side walls. The shoulders are preferably between 10 and 20 mm in size, particularly preferably approx. 15 mm. For example, the large load carrier can have an external dimension of 1230 mm×800 mm in the upper area, although this is not limiting for the invention. In this way, the Euro pallet support dimension of 1200 mm×800 mm specified by the EN 13698-1 standard is broken in the longitudinal direction in the upper area of the large load carrier.
It is particularly preferable that the external and internal dimensions of the large load carrier are compatible with the external and internal dimensions of a lattice box pallet that is standardised in accordance with DIN 15155/8-UIC435-3, so that the large load carriers and lattice box pallets can be nested into one another in a mixed stack of large load carriers and lattice box pallets. Accordingly, it is preferable that the feet of the large load carrier have a support dimension in the standard size of the feet of the lattice box pallet. The standard DIN 15155/8-UIC435-3 is cited in its 9th edition of September 2008. The lattice box pallets have a pallet substructure with external dimensions of 1200 mm×800 mm in the foot area, as well as four rigidly connected steel lattice walls with external dimensions of 1240 mm×835 mm. The internal dimensions of lattice box pallets are also standardised, wherein a load length typically corresponds to 1210 mm and a load width typically corresponds to 800 mm. The lattice box pallets with these dimensions can be stacked on top of one another so that a stable composite bonding is achieved in the stack.
Since the standardised lattice box pallets have dimensions of 1200 mm×800 mm in the foot area and 1240 mm×835 mm in the upper side wall area with internal dimensions of 1200 mm×800 mm, the large load carrier can be stacked on a lattice box pallet. Conversely, the lattice box pallet can also be stacked on the large load carrier, since the lattice box pallet comprises feet with support dimensions in the standardized size of 1200 mm×800 mm. With the measures of the invention, stable mixed stacking of lattice box pallets and large load carriers is therefore possible.
Since the standardised lattice box pallet often comprises a steel frame on the underside, wherein individual steel struts form the support surface, it is preferred that a recess is provided between the support surfaces and the second projection, said recess being designed in particular to accommodate individual steel struts of a frame on the underside of the lattice box pallet.
It is preferably provided that the support surface comprises a material-reinforced area for receiving a corner foot. It is particularly preferred that the recess, if present, between the support surfaces and the second projection also comprises a material-reinforced area for receiving the linkage of the lattice box pallet, which in particular is formed in one piece with the material-reinforced area for receiving the corner foot. The material-reinforced area can, for example, be a moulded steel part that is attached to the large load carrier, which is otherwise made of synthetic material. The connection between the steel-reinforced area and the synthetic material of the large load carrier is preferably form-fit, in particular via a latching mechanism.
The reinforced support surface area is preferably at least partially enclosed by the projections. In this way, lattice box pallets can be stacked on the large load carrier without it wearing out, even under constant stress.
The projections can taper upwards in the cross-sectional profile, wherein the projections can be bevelled in particular with respect to the side wall plane, especially in the direction of the interior of the large load carrier. This results in a stacking aid when nesting similarly designed large load carriers, a Euro pallet or a lattice box pallet into a large load carrier.
In the case of foldable side walls, the base part can comprise the same stacking mimicry on the top as the unfolded side walls, in particular the same type of support surfaces and projections. Advantageously, the large load carrier can be safely stacked when empty in the folded state, in particular also in mixed stacking with lattice box pallets and Euro pallets.
Further aspects of the invention relate to arrangements having two or more previously described large load carriers stacked on top of one another, as well as mixed stacks of the described large load carriers with lattice box pallets and/or Euro pallets.
The large load carrier according to the invention is particularly suitable for holding unit loads such as large-volume foodstuffs and in the non-food industry, for example, in the automotive industry. Compared to conventional fruit and vegetable containers, the large load carrier is designed to be thicker and is also heavier overall, so that the filled large load carriers are generally transported mechanically, in particular by forklift trucks and the like.
Examples of embodiments of the invention are explained in more detail below with the aid of schematic drawings.
In the drawings:
In the following, identical elements are labelled with identical reference numerals. Identical elements are not described repeatedly in the individual figures.
The large load carrier 2 comprises two first side walls 4 and two second side walls 6, wherein the first side walls 4 form transverse sides of the large load carrier 2 and the second side walls 6 form longitudinal sides of the large load carrier 2.
The second side walls 6 each contain side wall flaps 8, which are hinged to the second side walls 6 via hinge devices 10 purely by way of example here. One side wall flap 8 can be opened manually via a latching and adjusting mechanism and a handle opening 18, so that access to the interior of the large load carrier 2 is possible from the outside. In embodiments that are not illustrated, removable side wall flaps 8 can be provided.
The side walls 4, 6 are essentially closed-walled towards the outside and towards the inside, although this is not limiting for the invention. The side walls 4, 6 can also comprise an open ribbed structure, in particular towards the outside and/or inside, as is known in the prior art.
In the lower area, the large load carrier 2 comprises feet 20, namely purely as an example four feet 20 arranged on the corner side in the illustrated exemplary embodiment, wherein this is not limiting for the invention.
The feet 20 are attached to a surrounding base part 14, for example by screwing or clipping. The side walls 4, 6 are hinged to the base part 14 in a foldable manner by means of further hinge devices, whereby complete foldability is achieved by varying the height of the base part 14 in the area of the hinges.
The base part 14 comprises four circumferential side walls, which extend upwards perpendicular to a support surface of the large load carrier 2, said support surface being formed by the underside of the feet 20. The base part 14 also comprises an inner base surface (not shown), which can be closed-walled or have a ribbed structure.
Below the first side wall 4, the base part 14 has a shoulder 42 on the end face and said shoulder can be approximately 15 mm in size, for example, but not limiting for the invention. Due to the shoulder 42, the cross-section of the large load carrier 2 is larger towards the top than the standard size 1200 mm×800 mm of the Euro pallet, as will be explained in more detail with reference to
In the illustrated embodiment, which is however not limiting for the invention, the large load carrier 2 comprises four corner feet 20, as well as a further foot 20 on the centre of each of the side surfaces, in other words a total of eight or nine feet 20, depending on whether a further foot 20 is provided in the centre of the interior of the large load carrier. The feet 20 on the second side wall 6 are connected to one another by means of runners 26. The runners 26 extend over the entire length of the second side wall 6. As an example, the runners 26 are arranged here coplanar with the feet 20 of the large load carrier 2, but are not limiting for the invention. In embodiments that are not illustrated, the runners 26 can have indentations and the like, which is known to the person with specialised knowledge.
The runners 26 and the feet 20 form recesses 28 for forks of an industrial truck between them in a known manner, so that the large load carrier 2 has an overall pallet-like substructure.
The break in the module dimension in the longitudinal direction can be clearly recognised in
The feet 20 in the corner area of the large load carrier 2 are assigned an inner foot side 22 and a foot end face side 24. In the illustrated and preferred embodiment, the foot end face side 24 is coplanar with the side wall plane 12 of the first side wall 4, albeit offset inwards and parallel due to the shoulder 42.
The foot end face side 24 can be approximately 105 mm wide. The foot inner side 22 can be approximately 220 mm wide.
As illustrated in
The first projection 32 extends substantially over the width of the side wall 4, but this is not limiting for the invention.
In this case, the second projection 34 extends over an area starting from the corner of the large load carrier 2, so that the first projection 32 can surround the foot of a second large load carrier 2 that is standing above it in the stack on the foot inner side. The second projection 34 is arranged coplanar with the side wall plane 12 of the first side wall 4.
In the illustrated embodiment, the first and second projections 32, 34 are connected to one another in one piece, which is not limiting for the invention. In particular, the first and second projections 32, 34 are L-shaped in cross-section, which is also not limiting for the invention.
As illustrated in
The first and second projections 32, 34 taper upwards in the cross-sectional profile and are bevelled in particular with respect to the side wall plane 12.
As illustrated in
A corner foot 52 of the Euro pallet 50 is surrounded on the end face by the second projection 34. The battens 54, which form runners on the underside of the Euro pallet 50, rest on the support surface 36, in particular on a section of the material- reinforced area 38.
The lattice box pallet 60 comprises a base surface 62, which generally and preferably does not come to rest on the large load carrier 2. Rather, a linkage 64 of the lattice box pallet 60 forms the support area of the lattice box pallet 60. In this case a linkage 64 that is provided at the edge is designed in order to be received in the recess 42. A further part of the linkage 64 rests on the material-reinforced area 38, which extends over the third projection 48. A further section of the material-reinforced area 38 is located in the recess 40. The contact surfaces between the large load carrier 2 and the lattice box pallet 60 are preferably formed here entirely by the material-reinforced area 38, so that in practice no wear of the large load carrier 2 occurs when the lattice box pallet 60 is in place.
As illustrated in
The invention is not limited to the exemplary embodiments described here. Rather, a large number of variations are possible within the scope of the specialised knowledge.
2 Large load carrier; 4 First side wall; 6 Second side wall; 8 Side wall flap; 10 Hinge device; 12 Side wall plane; 14 Base part; 16 Latching mechanism; 18 Handle opening; 20 Foot; 22 Foot inner side; 24 Foot end face side; 26 Runner; 28 Recess for forks of an industrial truck; 30 Projection; 32 First projection; 34 Second projection; 36 Support surface; 38 Material-reinforced area; 40 Recess; 42 Shoulder; 44 Upper area; 46 Lower area; 48 Third projection; 50 Euro pallet; 52 Corner foot; 54 Battening; 60 Lattice box pallet, 62 Base surface; 64 Linkage
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2022 109 976.8 | Apr 2022 | DE | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2023/060958 | 4/26/2023 | WO |
