This application claims the priority of European Patent Application Serial No. EP22187931.5 filed Jul. 29, 2022, pursuant to 35 U.S.C. 119(a)-(d), the subject matter of which is incorporated herein by reference.
The present disclosure refers to a pallet especially for use in logistics, for example for storing and transport of containers.
For the storage and transfer of goods it is well-known to use pallets comprising a pallet body and a plurality of support feet. Containers comprising the goods can be placed on the pallets. The pallets can be transferred for example using a forklift. Therefore, the pallets usually have standardized dimensions regarding length and width. Furthermore, the support feet usually are arranged at the pallet body in such a way that the forklift can place the forks between the feet to lift the pallet. Different types of pallets are shown in DE 10 2015 215 098 A1, WO 2021/181266 A1, US 2011 0132801 A1, EP 3 354 586 B1, U.S. Pat. No. 5,769,003 A, WO 2006/130191 A1, EP 3 592 653 A1, DE 10 2009 038 963 B4 and DE 10 2012 221 843 A1.
The pallets have to be designed to be able to carry specific loads. It is known to produce pallets using wood or plastics. If made of plastics, underneath the feet skids are arranged to achieve the necessary stiffness.
Further, it is desirable that the pallets are suitable for storage in a high rack storage area in which they are placed on two tracks being arranged in parallel and supporting the pallet at two edges being arranged opposite only.
For pallets suitable for storage in a high rack storage area it is known to include metal parts to achieve the necessary stiffness. This involves use of additional materials and process to achieve the desired result which takes time and is expensive. It is one task of one embodiment of the present disclosure to propose a pellet made of plastics being suitable for use in a high rack storage area.
It would therefore be desirable and advantageous to provide an improved pallet to obviate prior art shortcomings and to provide a pallet made of plastics being suitable for use in high rack storage area that fulfills desired characteristics and features as set forth below.
According to one aspect of the present invention, a pallet is disclosed, which includes a pallet body and a plurality of support feet, the pallet body having a length, a width and a height, the height extending between an imaginary lower plane and an imaginary upper plane, wherein the pallet body compasses several body parts being arranged alternately in the upper plane and the lower plane along the direction of the width, thereby forming grooves extending in the direction of the length, wherein at least in one of the grooves several ribs extending in direction of the width are arranged.
Further advantageous embodiments are subject to the dependent claims.
According to an embodiment of the present disclosure, a pallet made of plastics comprises a pallet body and a plurality of support feet, the pallet body having a length, a width and a height, the height extending between an imaginary lower plane and an imaginary upper plane, wherein the pallet body comprises several body parts being arranged alternately in the upper plane and the lower plane along the direction of the width, thereby forming grooves extending in the direction of the length, wherein at least in one of the grooves several ribs extending in direction of the width are arranged.
Body parts being arranged alternately in the upper plane and the lower plane along the direction of the width, thereby forming grooves extending in the direction of the length, with other words provide a pallet body having at least one cross section parallel to the width of the pallet body comprising the form of a square signal. In such a structure, the grooves open alternately to the upper plane and the lower plane along the direction of the width. Such a structure can provide a light weight but stiff structure, especially when bending in direction of the length. The arrangement of several ribs extending in direction of the width in at least one of the grooves provides rigidity when bending in direction of the width.
The specific structure of the pallet enables to provide a pallet being made of plastics without the necessity of including further supporting or reinforcing metal elements. The pallet can be produced of plastics in its entirety. Further, the specific structure of the pallet enables to provide a pallet being made of plastics without the necessity of providing skids underneath the support feet and therefore a pallet being made of plastics being suitable for use in a high rack storage area.
According to one embodiment, in all of the grooves being open in the upper plane and/or all of the grooves being open in the lower plane several ribs extending in direction of the width are arranged, especially to enhance rigidity.
According to a further preferred embodiment, the grooves extend between the support feet or over the entire length of the pallet body, to provide the rigidity enhancing structure to the most possible extent of the pallet body.
According to a preferred embodiment, the length is longer that the width. As a result, the grooves extend in the longer direction and, in case the pallet is used in a high rack storage area, in direction of curvature, thereby providing higher rigidity in this direction.
According to a further embodiment, the support feet are protruding from the lower plane and are extending through the pallet body up to the upper plane. In case the support feet extend through the pallet body the rigidity can be further enhanced.
According to a preferred embodiment, each of the support feet comprises an outer tube and at least one inner tube especially extending over the entire height of the support feet, the inner tube being arranged within the outer tube and being connected to the outer tube via connecting ribs. This structure of a support foot was found to provide high stability.
Preferably, outer tube has a rectangular cross section and the at least one inner tube has a circular cross section which can enhance the stability further.
According to an embodiment, the pallet body comprises a circumferential rim projecting above the upper plane. Such a rim on the one hand can enhance stiffness of the pallet body. On the other hand, such a rim can provide a limit stop for the goods or containers placed on the pallet body.
To enhance rigidity further, the rim can comprise at least in sections a wave-like-structure.
According to a preferred embodiment, a channel is arranged between the pallet body and the circumferential rim, the channel being open to the upper plane and preferably extending from the lower plane to the upper plane. It is possible to position a pallet wall or pallet ring in this channel to build a box-like structure for transport of goods.
To enable better fastening of the pallet wall or pallet ring, according to a further embodiment at least one locking projection is arranged within the channel, preferably four, six or eight locking projections are arranged within the channel.
According to further embodiment, an inner rim is arranged between the pallet body and the channel extending over at least part of the circumference of the pallet body, preferably extending at least around the corners of the pallet body. Such an inner rim can provide a limit stop for the goods or containers placed on the pallet body. Especially, the relative arrangement of the channel and the inner rim can be chosen in such a way that both the pallet wall or pallet ring and standardized containers can be fastened on the pallet.
According to a further embodiment, the circumferential rim, the upper side of the pallet body and the lower side of the pallet body comprise recesses. Such recesses enable positioning of fastening belts thereby reducing the risk of damaging the fastening belts.
According to a preferred embodiment, the pallet is produced by injection-molding. Injection-molding allows a cost-effective production of the pallet.
Other features and advantages of the present invention will be more readily apparent upon reading the following description of currently preferred exemplified embodiments of the invention with reference to the accompanying drawing, in which:
Throughout all the Figures, same or corresponding elements are generally indicated by same reference numerals. For better overview, not all reference numbers are included in all figures.
Turning now to the drawing, and in particular to
The pallet 10 comprises a pallet body 20 and a plurality of support feet 30. The pallet body 10 has a length l, a width w and a height h1, the height h1 extending between an imaginary lower plane p2 and an imaginary upper plane p1 (see
The pallet body 20 comprises several body parts 21. The body parts 21 may be shaped as rectangular body parts 21. The body parts 21 are arranged alternately in the upper plane p1 and the lower plane p2 along the direction of the width w (see especially
In such a structure, the grooves 22 open alternately to the upper plane p1 and the lower plane p2 along the direction of the width w. In the figures, grooves 22 being open in the upper plane p1 are labeled with 22a in addition, and grooves 22 being open in the lower plane p2 are labeled with 22b in addition.
The grooves 22 can extend between the support feet 30 or over the entire length l of the pallet body 20.
At least in one of the grooves 22 several ribs 23 extending in direction of the width w are arranged (see especially
The support feet 30 are protruding from the lower plane p2. Further, the support feet 30 can extend through the pallet body 20 up to the upper plane p1. Each of the support feet 30 may comprise an outer tube 31 and at least one inner tube 32 especially extending over the entire height h2 of the support feet 30, the inner tube 32 being arranged within the outer tube 31 and being connected to the outer tube 31 via connecting ribs 33. The connecting ribs 33 preferably extend either parallel to the direction of the length l or parallel to the direction of the width w. According to an embodiment, the connecting ribs 33 extending parallel to the direction of the width w are in line with at least one of the ribs 23 arranged in the grooves 22. Further, according to an embodiment, the connecting ribs 33 extending parallel to the direction of the length are in line with at least one of the side walls 21c.
The embodiment of the pallet 10 as shown in the figures comprises nine support feet 30. Especially in each of the corners of the pallet body 20, one support feet 30 is arranged. Further, the support feet 30 can be arranged in lines of three support feet 30, both in direction of the length l and the width w.
Some of the support feet 30, preferably at least the support feet 30 arranged in the corners of the pallet body 20, more preferably the support feet 30 arranged along the shorter lateral edges of the pallet body 20, can comprise three inner tubes 32. In an embodiment, the support feet 30 arranged in the middle of the longer lateral edge of the pallet body 20 can comprise two inner tubes 32. It may be possible that only the support foot arranged in the center of the pallet body 20 comprises only one inner tube 32.
The outer tube 31 of the support feet 30 may have a rectangular cross section and the at least one inner tube 32 of the support feet 30 may have a circular cross section.
Each of the support feet 30 may have a reinforcing floor part 34 being between the inner tube 32 and the outer tube 31 and extending parallel to the upper plane p1 and the lower plane p2, especially at half height (see especially
The pallet body 20 can be surrounded by a circumferential rim 25 projecting above the upper plane p1 (see for example
A channel 40 may be arranged between the pallet body 20 and the circumferential rim 25, the channel 40 being open to the upper plane p1 and preferably extending from the lower plane p2 to the upper plane p1. As can be seen for example in
An inner rim 44 may be arranged between the pallet body 20 and the channel 40 extending over at least part of the circumference of the pallet body 20, preferably extending at least around the corners of the pallet body 20. The inner rim protrudes above the upper plane p1, preferably less than the circumferential rim 25, especially less than half height of the circumferential rim 25.
The circumferential rim 25, the upper side 20a of the pallet body 20 and the lower side 20b of the pallet body 20 may comprise recesses 50. The recesses 50 are suitable for positioning fastening belts (not shown).
To enable water flow from the pallet 20, holes 60 can be provided, for example in the body parts 21b arranged in the lower plane p2 and/or the channel 40 and/or the reinforcing floor elements 34 (see for example
The pallet 10 especially is for use in logistics, for example for storing and transport of containers. It is possible to fasten a pallet wall or pallet ring in the channel 40 surrounding the pallet body 20. Further, it is possible to place containers on the pallet 10 which can be secured against lateral movement by the inner rim 44.
While the invention has been illustrated and described as embodied in a pallet, it is not intended to be limited to the details shown since various modifications and structural changes may be made without departing in any way from the spirit of the present invention. The embodiments were chosen and described in order to best explain the principles of the invention and practical application to thereby enable a person skilled in the art to best utilize the invention and various embodiments with various modifications as are suited to the particular use contemplated.
What is claimed as new and desired to be protected by Letters Patent is set forth in the appended claims and their equivalents:
Number | Date | Country | Kind |
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22 187931.5 | Jul 2022 | EP | regional |