SYSTEM FOR TRANSPORTING, TRANSFERRING, AND/OR STORING GOODS

Abstract

A system for transporting, transferring, or storing goods including stackable receiving containers, wherein stacking structures in a region of the container bases and mating structures in an upper edge region of a side wall interact to lockably stack receiving containers one on top of the other. At least one roll transport unit has a set-up surface for a receiving container and roller transport unit which connect to longitudinal ends of an adjustable length locking bar. A retaining structure is provided on a first longitudinal end of the locking bar for connecting to the upper edge of the receiving container. A retaining structure is provided on the second longitudinal end of the locking bar for connecting to a mating structure on the roller transport unit. The locking bar has a releasable fixing mechanism for limiting the locking bar length and setting the length to a selected dimension.

Claims

1. A system for transporting, transferring, or storing goods, particularly general cargo goods in the wholesale and retail trade, wherein the system comprises: stackable receiving containers, each having: a base; a peripheral side wall; and an upper opening for receiving goods during transport or during storage, stacking structures in a region of the base; first mating structures formed in a region of an upper edge of the peripheral side wall facing the upper opening, wherein the stacking structures are configured to interact with the first mating structures of another receiving container thereby enabling the stackable receiving containers to be stacked one on top of the other in a positively locking manner within a plane of the base; at least one roller transport unit having: a set-up surface for at least one receiving container; a bottom side opposite the set-up surface; roller means; wherein the set-up surface includes receiving structures corresponding to the stacking structures for setting up a receiving container in a positively locking manner within a plane of the set-up surface; and at least one locking bar having a first longitudinal end and a second longitudinal end and being adjustable in length wherein a first retaining structure is provided at the first longitudinal end for connection to the upper edge of one of the stackable receiving containers and wherein a second retaining structure is provided at the second longitudinal end for connection to a second mating structure on the roller transport unit, and wherein a releasable fixing mechanism is provided on the locking bar for limiting the length of the locking bar, said releasable fixing mechanism being settable to a selected dimension, to limit the length of the locking bar to said selected dimension.

2. (canceled)

3. The system according to claim 1, wherein the at least one roller transport unit is a rolling platform with a support platform forming the set-up surface and the rolling means are arranged on the bottom side.

4. The system according to claim 3, wherein the rolling platform is free of superstructures arranged on an upper side of the support platform forming the set-up surface which have a higher overall height than a height of a receiving container.

5. The system according to claim 1, wherein the at least one roller transport unit comprises a plurality of identically formed roller transport units.

6. The system according to claim 5, wherein at least a part of the at least one roller transport unit comprises structures in the set-up surface for positive reception of the rolling means of another roller transport unit of the at least one roller transport unit set up on the set-up surface.

7. The system according to claim 1, wherein the stackable receiving containers are configured as boxes.

8. The system according to claim 1, wherein the receiving containers each have side walls which are pivotable relative to their base and are able to be swung-over onto the base substantially parallel thereto, and wherein the side walls, on a side facing away from the base in a swung-over state, have receiving structures corresponding to the stacking structures for positively locked stacking of another receiving container.

9. The system according to claim 1, wherein the at least one locking bar comprises a plurality of similarly formed locking bars.

10. A locking bar comprising: a first longitudinal end and an opposed second longitudinal end, wherein the locking bar is adjustable in length between the first longitudinal end and the second longitudinal end; a first retaining structure provided at the first longitudinal end of the locking bar; and a second retaining structure provided at the second longitudinal end of the locking bar; and a releasable fixing mechanism for limiting the length of the locking bar, wherein the releasable fixing mechanism is set to a selected dimension, to fix the length of the locking bar to said selected dimension.

11. The locking bar according to claim 10, formed of two bar elements inserted into each other, and wherein the two bar elements are displaceable relative to each other to adjust the length of the locking bar.

12. The locking bar according to, claim 10, which has a rectangular cross-section or a square cross-section.

13. The locking bar according to claim 10, wherein the first retaining structure and the second retaining structure are formed as hook structures.

14. The locking bar according to claim 10, wherein the releasable fixing mechanism allows stepless length adjustment of the locking bar.

15. The locking bar according to claim 10 formed from a metallic material.

16. The system according to claim 1, wherein the at least one locking bar adjusts in length by telescoping.

17. The system according to claim 7, wherein the boxes are formed in the shape of a cuboid.

18. The locking bar according to claim 10 that adjusts in length by telescoping.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0033] Further advantages and features result from the following description of an exemplary embodiment on the basis of the attached figures, wherein:

[0034] FIG. 1 shows a schematic top view of the set-up surface of a roller transport unit of a system according to the invention for transporting, transferring, and/or storing goods;

[0035] FIG. 2 shows a side view of the roller transport unit of a system according to the invention for transporting, transferring, and/or storing goods;

[0036] FIG. 3 shows a rear view of a locking bar according to the invention.

[0037] FIG. 4 shows a side view of the inventive locking bar of FIG. 3 in a maximum telescoped position;

[0038] FIG. 5 shows a side view of the inventive locking bar of FIG. 3 at maximum length;

[0039] FIG. 6 shows a stack of storage containers formed by means of a system according to the invention for transporting, transferring, and/or storing goods, secured by the locking bars and placed on a rolling transport unit;

[0040] FIG. 7 shows a stack of roller transport units placed one on top of the other and secured by means of locking bars according to the invention;

[0041] FIG. 8 shows a side view (left) and a rear view (right) of two stacks of storage containers formed by means of a system according to the invention for transporting, transferring, and/or storing goods and secured by the locking bars, each stack being placed on a roller transport unit; and

[0042] FIG. 9 shows different variations of stacks of elements of the system according to the invention for transporting, transferring, and/or storing goods, each set up on a roller transport unit.

DETAILED DESCRIPTION

[0043] The figures show highly schematic views of embodiments of individual elements of a system according to the invention for transporting, transferring, and/or storing goods, particularly general cargo goods in the wholesale and retail trade. The figures shown are limited to purely schematic representations and are neither to scale nor true to detail. In this respect, they do not serve as design models but merely to explain the principle of the invention disclosed and claimed here.

[0044] FIG. 1 initially shows a top view of a roller transport unit 1, namely with a view to a set-up surface 2. First of all, a strip 3 can be seen running around the edge of the set-up surface 2 and projecting beyond the plane of the set-up surface 2 (see also FIG. 2). Furthermore, it can be seen that recesses 4 and 5 have been made in the set-up surface 2.

[0045] FIG. 2 shows a side view of the roller transport unit 1 and indicates that, in addition to the circumferential strip 3 projecting over the set-up surface 2, a strip 6 formed close to the edge is also provided on an opposite bottom side. Wheels 7 and 8 arranged on the bottom side are visible as well. In the example shown here, the wheels 7 are rigidly arranged, while the wheels 8 are steerable.

[0046] The circumferential strip 3, which defines the top of the set-up surface 2, serves as a form-fitting stack fastening for a correspondingly shaped bottom side of a receiving container (see also below) placed on the set-up surface 2 and the wheels 7, 8 of a second roller transport unit 1 can be inserted in the recesses 4, 5 in the set-up surface 2 of a first roller transport unit 1 and thereby positively fixed against movements within the plane of the set-up surface 2, in order to stack two roller transport units 1.

[0047] FIGS. 3 to 5 schematically show a locking bar 9 of a system for transporting, transferring, and/or storing goods according to the invention. This locking bar 9 consists of two bar elements, a first bar element 10 and a second bar element 11 which is inserted into the first bar element 10 and can be displaced relative to the first bar element 10 by being inserted into it or pulled out of it. In this way, the length of the locking bar 9 can be changed telescopically. A fixing mechanism 12 operated by a lever 13 allows fixing the length of the locking bar 9, which can be steplessly adjusted in this way, after it has been set to a desired dimension.

[0048] FIGS. 4 and 5 show lateral views of the locking bar 9. It can be seen here that retaining structures 16 and 17 in the form of retaining hooks are formed at opposite longitudinal ends, a first longitudinal end 14, and a second longitudinal end 15. FIGS. 4 and 5 illustrate once again the option of adjusting the length of the locking bar 9 by telescoping the two bar elements 10 and 11 relative to each other.

[0049] FIG. 6 shows a schematic view of a stack of containers formed with receiving containers 18 in the form of stacking boxes on a roller transport unit 1. The receiving containers 18 in the form of the stacking boxes each have a circumferential side wall 19 as well as a base 20 and form a stacking structure 21 in the region of their base 20, which interacts with a mating structure 22, in this case the upper edge of the side wall 19, in order to prevent a form fit with respect to relative movements parallel to the plane of the base 20 in a stacked state. In this case, the stacking structures 21 are also formed in such a manner that they likewise interact positively with the circumferential strip 3, which defines the set-up surface 2 of the roller transport unit 1. It can also be seen here how the stack of receiving containers 18 thus formed on the roller transport unit 1 is positively secured in a direction transverse to the planes of the bottoms 20 by means of two locking bars 6, in that the locking bars 9 with their hook-shaped retaining elements 16, 17 grip around the mating structures in the form of the upper edges of the side walls 19 of the uppermost transport container 18 in the stack, or the mating structures in the form of the bottom side strip 6 on the roller transport unit 1, wherein the locking bars 9 are shortened and adjusted in their length in such a manner that the positive connection remains, i.e., that the locking bars 9 secure the stack of receiving container containers in themselves and at the same time retain them on the roller transport unit 1.

[0050] FIG. 7 shows another example of how, for example, a stack of roller transport units 1 placed on top of each other can likewise be fixed and secured with the locking bars 9. Here, too, the locking bars 9 with their retaining structures 16, 17 engage around corresponding mating structures, on the one hand the circumferential bar 3 of the uppermost of the stacked roller transport units 1 and on the other hand the bottom side bar 6 of the lowermost roller transport unit 1 carrying the stack.

[0051] In this way, for example, a stack of roller transport units 1 not currently required for the storage or transport of goods can be formed and either stowed in a warehouse in a space-saving manner or placed in a return transport in a space-saving manner. FIG. 8 shows once again for illustration purposes how two stacks of transport containers 18 are each stacked on a roller transport unit 1 and positively secured with locking bars 9, wherein FIG. 8 shows in each case a side view of the two stacks and next to it a front view of the two stacks now placed next to each other in this view.

[0052] Finally, FIG. 9 shows once again a variety of possible combinations of components of the system according to the invention stacked on a roller transport unit 1 and secured with the locking bars 9, namely on the left a stack of roller transport units 1, again secured with the locking bars 9, and then in five different views and with partially different stack heights, stacks of receiving containers 18, which here are those with fold-down side walls, particularly folding boxes, which are also secured with the locking bars 9 and positively locked into one another. It should be noted that the collapsed receiving containers 18, in a manner already known per se for transport boxes of this type, also form mating structures on an upper side in the collapsed state for receiving the stacking structures 21 on the bottom side of the subsequently stacked receiving container 18. The locking bars 9 engage these structures with their upper retaining structures 16. This representation in FIG. 9 illustrates once again the flexibility with which space-saving stacks can be formed from the various elements of the system according to the invention when they are not in use for the storage or transport of goods, i.e. how this considerably reduces the space required for intermediate storage and/or return transport, while at the same time considerably facilitating the handling of these stacks, since these stacks, just like the stacks shown in FIG. 8 with the receiving containers 18 filled with goods, for example, can also be moved by gripping the locking bars 9 on the roller transport unit 1 arranged at the bottom.

List of reference numerals

[0053] 1 roller transport unit

[0054] 2 set-up surface

[0055] 3 strip

[0056] 4 recess

[0057] 5 recess

[0058] 6 strip

[0059] 7 wheel

[0060] 8 wheel

[0061] 9 locking bar

[0062] 10 bar element

[0063] 11 bar element

[0064] 12 fixing mechanism

[0065] 13 lever

[0066] 14 longitudinal end

[0067] 15 longitudinal end

[0068] 16 retaining structure

[0069] 17 retaining structure

[0070] 18 receptacle

[0071] 19 side wall

[0072] 20 base

[0073] 21 stacking structure

[0074] 22 mating structure