Patent Grant
11897657
This application is the United States national phase entry of International Application No. PCT/EP2020/059749, filed Apr. 6, 2020, and claims the benefit of priority of European Application No. 19173132.2, filed May 7, 2019. The contents of International Application No. PCT/EP2020/059749 and European Application No. 19173132.2 are incorporated by reference herein in their entireties.
The present invention relates to a container, in particular to a container for transporting goods on roller conveyors having a bottom, side walls and a support plate connected via ribs to a lower side of the bottom.
Conventional containers are known, for example, from DE 10 2008 020 916 A1 or DE 10 2013 207 943 B4. These containers each have a bottom with a rectangular outline, side walls extending vertically upwards from the bottom, and a support plate, which is connected to a lower side of the bottom via ribs.
The problem with these containers is that they generate relatively loud noises during transport on roller conveyors due to contact between the stable composite of the bottom and the support plate with rollers of the roller conveyor.
It is therefore an object of the present invention to provide a container which allows a quieter transport on roller conveyors.
A container according to the invention has a bottom, side walls, and at least one support plate connected via ribs to a lower side of the bottom.
The side walls extend transversely, in particular perpendicularly, upwards from an upper side of the bottom.
The support plate is spaced from the lower side of the bottom and extends in particular parallel to the lower side of the bottom.
The ribs connecting the at least one support plate to the lower side of the bottom extend transversely, in particular perpendicularly, to the bottom or to the lower side of the bottom and transversely, in particular perpendicularly, to the support plate.
The container according to the invention is configured such that at least two projections project laterally from at least one edge portion of the support plate extending along one of the side walls. In particular, the projections each have the shape of a plate. In particular, the projections are configured in such a way that they each have free ends on three sides and are connected to the support plate by a fourth side.
In other words, the container according to the invention is characterized in that at least two projections are formed on the at least one support plate in such a way that the support plate together with the at least two projections form, at least in sections, an outline with a crenellated outer contour.
In particular, the plate-shaped projections each have a rectangular or substantially rectangular or trapezoidal or substantially trapezoidal outline. In particular, one edge of each plate-shaped projection having a rectangular outline is connected to the at least one support plate. In particular, three of the four edges of each plate-shaped projection with rectangular or trapezoidal outline are free or at least free in sections.
By providing the projections, the deformability of the support plate can be increased locally. In addition, when the container is transported on a roller conveyor, direct impact of the support plate on rollers can be made more difficult or prevented.
In the upper edge portion of the at least one side wall, at least two support indentations are provided for receiving at least two projections of a support plate of an identically constructed container stacked thereon.
In other words, at least the side wall along which the at least one edge portion of the at least one support plate provided with at least two projections in each case extends has at least two respective support indentations, in an edge portion facing away from the bottom, in particular in an upper edge portion on an upper side, wherein the support indentations are configured in such a way that they each receive a projection of a support plate of an identically constructed container in a state in which the identically constructed container is stacked on the container.
The projections increase the outer dimensions of the support plate so that more rollers can be touched simultaneously by the container during transport on a roller conveyor compared to a container with a support plate without lateral projections. Thus, a more stable and thus quieter transport behavior can be achieved. By providing support indentations, the excess length by which the projections project laterally can be increased in an advantageous manner without impairing the stacking properties of the container.
At least one of the at least two projections can be connected to the lower side of the bottom via at least one rib extending transversely to the bottom and transversely to the at least one support plate. In particular, the rib connecting the projection and the lower side of the bottom can extend perpendicularly to the bottom or to the lower side of the bottom and/or perpendicularly to the support plate.
By providing the rib connecting the projection and the lower side of the bottom, the local increase in deformability caused by the free ends of the projections can be limited.
The at least one rib connecting the bottom to one of the at least two projections may have a wall thickness that is less than an average wall thickness of the container. Additionally or alternatively, the at least two projections may have a wall thickness that is less than the average wall thickness of the container. The wall thickness of the at least one rib connecting the bottom to one of the at least two projections and the wall thickness of the at least two projections may be equal. Alternatively, the wall thickness of the at least one rib connecting the bottom to one of the at least two projections may be less than the wall thickness of the at least two projections. In this context, ‘wall thickness’ is understood to mean the thickness of plate-shaped components, for example the plate-shaped rib or the plate-shaped projections. In particular, the wall thickness of the rib connecting the bottom to one of the at least two projections and/or of the projections may be less than a wall thickness of the bottom or a wall thickness of the side walls.
By locally reducing the wall thickness, the flexibility of the container can be increased locally in an advantageous manner, so that an impact on rollers can be dampened when the container is transported on a roller conveyor. Such improved impact behavior can alternatively or additionally also be achieved by a local reduction in the density of the ribs connecting the bottom to the projections. In this context, the term ‘density of the ribs’ refers to the number of ribs per predetermined uniform area of the plate-shaped projections.
On an edge portion of the at least one support plate, which is opposite the edge portion of the at least one support plate provided with the at least two projections, at least two laterally projecting projections can also be formed, in particular in the form of a plate in each case. In other words, at least four similar projections according to the invention can be provided on the at least one support plate. Those of the side walls along which the edge portions of the at least one support plate extend, each provided with at least two projections, can each have at least two support indentations in an edge portion facing away from the bottom, i.e. in particular in an upper edge portion on an upper side. The support indentations can be designed in such a way that they each receive a projection on a support plate of an identically constructed container in a state in which the identically constructed container is stacked on the container.
If projections are provided on two opposite sides of the at least one support plate, a noise-reducing effect can be achieved not only when the container is moved in a single particular orientation on a roller conveyor.
On the side walls provided with at least two support indentations in each case, at least one handle can be formed in the edge portion facing away from the bottom, i.e. in particular the upper edge portion, on an outer side of the respective side wall between the corresponding at least two support indentations.
A bulge extending outwards can be formed on each of the side walls provided with at least two support indentations in the area of each support indentation on the outer side of the corresponding side wall. The at least two handles can each be formed as a rib extending between the at least two bulges of a corresponding side wall transversely, in particular perpendicularly, to the corresponding side wall.
Lower sides of the at least four projections of the at least one support plate may extend in a common plane. Lower surfaces of the at least four support indentations may extend in a common plane. A distance between the common plane of the lower sides of the at least four projections of the at least one support plate and the lower side of the bottom may be less than or equal to a distance between the common plane of the lower surfaces of the at least four support indentations and an upper border of the container. This configuration of the support indentations or projections can advantageously ensure that the container does not rest on the projections when it is stacked on an identically constructed container.
At edge portions of the bottom, which extend along edge portions of the at least one support plate provided with at least two projections in each case, at least one respective column can be formed which extends transversely, in particular perpendicularly, downwards to the bottom or to the lower side of the bottom, and wherein said column projects downwards from the container by less than the at least one support plate and projects outwards or laterally from the container by less than the respective at least four projections on the at least one support plate. In particular, the columns may be formed at corners of the bottom. The edge portions of the side walls facing away from the bottom, in particular the upper edge portions, which are each provided with at least two support indentations, and the corresponding support indentations can be coordinated with the projections on the support plate and the columns in such a way that, in a state in which the container is stacked on an identically constructed container, a lateral displacement of the container in relation to the identically constructed container is limited and/or prevented by cooperation of the columns with an inner side of side walls of the identically constructed container, and the projections of the at least one support plate of the container do not touch inner surfaces of corresponding support indentations of the identically constructed container. This adjustment allows the projections to be protected from stress when several identically constructed containers are stacked on top of each other. In the vertical direction, a force introduced by an identically constructed container stacked on top of a container can be dissipated via the upper border of the container, and in the lateral direction or in lateral directions, the columns of the container can dissipate lateral forces introduced by the identically constructed container.
The ribs connecting the at least one support plate to the lower side of the container may have apertures. Due to the apertures, the ribs can be easily formed.
The apertures may be arranged non-mirror-symmetrically to each other. The non-mirror-symmetrical arrangement of the apertures can make it more difficult for acoustic waves and/or vibrations to propagate.
The apertures of the ribs can be arranged rotationally symmetrical to each other with respect to a central axis of the container extending perpendicular to the bottom. In particular, the apertures can be designed and arranged in such a way that they are mapped onto themselves when rotated by 180° about the central axis. A rotationally symmetrical arrangement can simplify the design of the container or of tools.
The projections may be covered with a material or may be made of a material that is softer than a material or materials of the other parts of the container. Thus, advantageously, the material of the projections can be optimized for damping an impact on rollers of a roller conveyor without compromising the structural integrity of the remaining container parts.
The bottom, the side walls, the at least one support plate and the ribs connecting the bottom and the at least one support plate can be formed in one piece. A one-piece design can save time-consuming assembly steps.
The container may be made of plastic. Plastic is advantageously suitable for applications with high hygiene requirements, for example for foodstuffs.
The at least one support plate may have at least one aperture. In particular, the at least one support plate may have a central aperture such that the support plate is substantially in the shape of a ring. In particular, the annular support plate extends along the edges of the bottom. In this way, the container can be manufactured in lightweight construction and can still be placed in a stable manner on a flat support.
The bottom may have a substantially rectangular outline. The side walls may have two opposite, long side walls arranged at long edges of the bottom and two opposite short side walls arranged at short edges of the bottom. The container may be formed such that projections are formed only on edge portions of the at least one support plate extending along the long side walls. When a container with a rectangular outline is transported on a roller conveyor, noise is generated in particular when the container is transported with one of its long side walls running in front. If projections are only provided on the long side walls of the support plate, a noise-reducing effect can be achieved with relatively few adjustments.
The present invention is described in more detail below with reference to the accompanying drawings by way of preferred configuration examples, in which:
As shown in
Below the bottom 4, a support plate 14 extending at least substantially parallel to the bottom 4 is provided, which is connected to a lower side of the bottom 4 via ribs 16.
The support plate 14 has the outline of a substantially rectangular ring and is dimensioned such that outer edges of the support plate 14 extend parallel to the edges of the bottom 4.
The ribs 16 extend perpendicularly to the bottom 4 or perpendicularly to the support plate 14. Furthermore, the ribs 16 extend not only between the support plate 14 and the bottom 4 but also reinforce the bottom 4 in an area within the annular support plate 14.
Projections 18 are formed on the outer edges of the support plate 14, which extend along the long side walls 6 and 8. Each of the two corresponding outer edges has two respective projections 18. Each of the projections 18 has the shape of a plate with a trapezoidal outline. The projections 18 are each connected by their long base or base side to the support plate 14 in such a way that they each extend the support plate locally. This means that the support plate 14 and the projections 18 lie in a common plane. Furthermore, the projections 18 have a chamfer on a lower side at their short base.
The projections 18 are each connected to the lower side of the bottom 4 via two ribs 20. The ribs 20 run perpendicularly to the lower side of the bottom 4 and perpendicularly to the respective projection 18.
The outer edges of the support plate 14, which extend along the short side walls 10 and 12, each have a chamfer on the lower side of the container 2. The chamfer on the outer edges of the support plate 14 along the short side walls 10 and 12 corresponds in its shape to the chamfer on the short bases of the plate-shaped projections 18. The ribs 16 and the ribs 18 are designed in such a way that several ribs are lined up parallel to each other along the outer edges of the bottom 4 in such a way that they form pockets 22 open to the outside between them and together with the lower side of the bottom 4 and an upper side of the support plate 14 or an upper side of the projections 18.
The ribs 12 are also formed in such a way that one of the ribs 12 connects an inner edge of the annular support plate 14 to the lower side of the bottom 4. The pockets 22 are bounded inwards by this circumferential rib. As also shown in
A respective column 26, hereinafter referred to as corner column 26, is formed at the corners of the bottom 4. The four corner columns 26 each connect a long side wall 6 or 8 with a short side wall 10 or 12.
As shown in
The support indentations 32 are implemented by bulges of the long side walls 6 and 8. This means that the long side walls 6 and 8 each have a bulge 34 on their respective outer side in the area of a respective support indentation 32. Between the two bulges 34 of a respective long side wall 6 or 8, a rib running perpendicularly to the corresponding long side wall 6 or 8 is provided, which forms a handle 36.
| Number | Date | Country | Kind |
|---|---|---|---|
| 19173132 | May 2019 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2020/059749 | 4/6/2020 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2020/224895 | 11/12/2020 | WO | A |
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| Search Report received in International Search Report received in Application No. PCT/EP2020/059749 dated May 12, 2020, with translation, 5 pages. |
| Extended European Search Report received in European Application No. 19173132.2-1017 dated Oct. 25, 2019, with translation, 11 pages. |
| Written Opinion received in International Application No. PCT/EP2020/059749 dated May 12, 2020, with translation, 9 pages. |
| Number | Date | Country | |
|---|---|---|---|
| 20220204208 A1 | Jun 2022 | US |
