DE19915639C2 - Variably collapsible transport / storage container - Google Patents

Description

The invention relates to a variably collapsible transport / storage container, according to Preamble of claim 1.

In order to save packaging material and protect goods, transport and storage container used. In the already uneconomical empty state, they claim a considerable amount of space both during return transport and in the warehouse. That worsens them Economy again. An improvement of this situation is in the use of containers tern can be seen, which can be folded up by means of folding or folding walls and thus reduced in volume are cash.

Such a container is known from DE 297 04 617 U1. It essentially consists of side walls that can be folded inwards and a cover hinged to the rear wall side. This by advantageous folding technology is no longer manageable for containers with a capacity of about 3 m ³ or more without internal or external assembly aids because the weights and dimensions of the components to be moved become too large. However, this development is not suitable for the economical use of auxiliary devices which support the installation or collapse of the container.

Another generic container is shown in DE 40 12 871 A1. From this pressure font is a transport / storage container in the form of a collapsible transport container known for large format home appliances. Can be connected via articulated walls this transport container is transferred from an inoperative position to an operating position become. Based on the articulated arrangement of wall parts chosen for this container, which form the side and back walls, however, it is only possible to completely remove the container to fold folded out of service position into an end position, which the Be drive position with the previously determined load volume. Any intermediate lungs are not possible. Therefore, this type of transport / storage container is inflexible and not to different loading situations in which large or small goods are transported should be stored or stored, customizable.

A transport box is known from DE 42 28 949 A1, but only one Blind closes an opening in a side wall.

DE 43 05 622 A1 teaches a packaging container in which fastening devices are provided to connect rectangular side walls with each other. However, this document does not teach a transport container that is steplessly between the Au Operating position and the operating position is movable.

For the technological background is also on DE 42 11 753 A1 and DE 33 47 367 C2 to refer.

It is therefore an object of the present invention to provide a transport / storage container in the O Generic term of claim 1 specified type to create between the decommissioning and the operating position can be flexibly adapted to different loading situations.

This object is achieved by the features of claim 1. The subclaims have advantageous further training to the content.  

According to the principles of the invention, a transport / storage jig is provided, the multi-part side walls are hinged so that between the floor and roof part that in an inoperative position, horizontally parallel between the outer boundary surfaces of the container and by force application into an operating space forming the cargo space Set up the lungs vertically and at right angles to each other. The target volume should reduction of about 80% does not restrict the functionality of the container and the ge overall economy of its use, compared to containers of conventional design, verbes fibers.

The fact that the side parts and the preferably provided rear wall and front wall is divided into a plurality of articulated wall elements, and there through that the wall elements of the vertically superimposed side parts or wall part le are connected to each other by means of a zipper-like connecting device, it is possible to choose any position between the non-operating position and the operating position adjustment so that different loading space volumes are available. This makes the transport / storage container according to the invention compared to the known solutions extremely flexible and versatile.

According to the invention it can be provided that the side parts of a container in a first Embodiment on a plurality of articulated wall panels exist that connect the roof part to the bottom part of the container so that it can move. The each box-shaped roof and floor part forms a receiving space to the bottom Bringing of drive devices and rar storage of the side parts during your off-site operating position, the side parts, similar to rolling gates, rolled up in the receiving room or can be splinted on.

Preferably, two opposite side parts are accommodated in the bottom part and firmly connected to the roof part, while the front and rear wall are stored in the roof part, the The rear wall is fixed to the bottom part and the front wall is detachably connected to the bottom part.  

If the drive device is actuated in the ground in the inoperative position, the move Side parts vertically and evenly from the bottom part and lift the roof part parallel to Bottom part, while at least the rear wall is pulled out of the roof part at the same time, and the ends of the rear wall panels provided with guide elements are similar to zippers engage in the ends of the side wall panels provided with connecting elements. The most The front wall, which can be fixed in place, can be opened in the manner of the roller door, also guided by grooves and be closed. In the context of the invention, "flexible" or "moving in itself" "understood any sidewall formation that is not rigid. In this way, a stable container with an infinitely variable loading space, the volume between zero and a maximum by the areas between the inside of the side panels and the extended the distance of the side walls is defined.

The drive devices can be operated manually or by motor. Especially before The floor, roof and wall elements made of plastic and / or aluminum can be used in part getting produced.

For containers with higher stability requirements, an advantageous further development is Way provided that two opposing side walls of the container of length after divided into two equal height side wall parts and, swiveling through 180 °, articulated and lockable are connected to each other and the lower side wall halves by 90 ° swiveling inside, parallel to each other, articulated at the edge of the bottom part and the upper side wall halves, can be swiveled through 90 °, can be locked at the edge of the roof section are articulated.

In this embodiment, the flexible, roller shutter-like back and front wall elements are stored in the receiving space of the bottom part, as well as the drive devices. The return and Front wall elements have an inward facing locking profile on the front, which in the Be Drive position of the container protrudes beyond the end face of the side wall parts and into an ent engages speaking locking groove, which is attached to the outer end of the side part halves outside.

The rear and front wall formed by the hinged panels NEN be releasably connected to the roof part or to the bottom part, so that they are in operating position development can also take on the function of roller doors without the stability of the loading halved significantly.

If a drive device is actuated in the base part in the inoperative position, move the front and rear wall elements vertically and evenly from the bottom part and he ben the overlying roof part parallel to the floor part, while at the same time the between The floor and roof sections are folded apart and the side sections are pulled apart, until they snap into a vertical position and at the same time the locking profiles of the back and front engage wall elements in the locking groove of the side wall parts.

In a further system variant, the force for the illumination of the side walls and the stroke of the roof part causing them is introduced by means of articulated, movable force transmission elements from the drive device into the folded side wall parts. In an advantageous embodiment, particularly in the case of containers with a volume of approximately 3 to 6 m ³ , this force is applied by a tension spring with pretension. The Zugfe are perpendicular to the side walls in the interior of the roof and base part and exert their pulling force via tie rods and swivel levers that are wall-mounted in the upper area of the inside of the upper side or in the lower area of the inside of the lower side wall parts ,

A particularly effective and direct-acting drive device is in the form of a Tensioned torsion spring can be provided, which is lying, parallel to and directly on the side wall webs of the floor and roof part is arranged. With this arrangement, one end of the spring is included a clamping device on the side web of the floor or roof part fixed. The other feather de has an unwound spring wire end protruding perpendicular to the spring center line, whose length corresponds approximately to the circumference of a winding. This spring end acts through a Recess in the base plate with its outward leverage directly on the Side walls.

The spring forces, the dimensioning of the swivel levers and the position of the swivel axis are according to the dimensions of the container and the weight of the containers to be moved parts matched to each other so that without a special additional manual or motori force of the container into the operating position and back into the non-operating position can be brought. This complies with the fact that the springs then have their highest resilience exert when the power flow over the side wall parts the most unfavorable leverage finds.

Advantageous further developments exist for increasingly larger and heavier containers the installation aid in electromotive, electrohydraulic or electropneumatic applications powered with an internal and / or external energy source, with a central position in the Bottom part, scissor lifting device arranged parallel to the side walls, which the roof part undertakes, particularly suitable. In this case, the lifting force advantageously acts directly on the Roof part. As soon as the roof part is raised to the operating position and the side walls are locked tiert, the scissor lifting device can be returned to the bottom part. Together Working with a scissor lift device can be an advantageous further development of the Side walls can be seen in that they are three or more parts.

The invention is described below with the aid of schematically simplified drawings for three guidance variants explained in more detail.

Show it

Fig. 1 container in the inoperative position

Fig. 2 container in the operating position

Fig. 3 section through the bottom part of a container

Fig. 4 section through the roof part of a container

Fig. 5 section through the bottom part of a higher container

Fig. 6 side view of two connected wall elements

Fig. 7 horizontal section through the connecting device of the wall elements

Fig. 8 container variant I with two-part side walls

Fig. 9 section through container variant II in the inoperative position

Fig. 10 section through container variant II in incomplete operating position with indicated scissor lifting device

Fig. 11 horizontal section through the connecting device for side walls of variant I.

Fig. 12 horizontal section through the connecting device for side walls of variant II

Fig. 13 vertical section through two different wall elements with film hinge

A container 1 of the container system according to the invention has, as can be seen from Fig. 1, each a six-sided closed, box-shaped base and roof part 2 , 3 on their length and width are approximately identical to the final dimensions of the container, while their height is determined by the space requirement of the side walls to be accommodated and the drive and auxiliary devices moving the side walls.

Fig. 2 shows a container in the operating position with open front wall 4. The bottom plate 8 on the top of the bottom part 2 and the roof plate 9 on the underside of the roof part 3 are arranged congruently opposite one another. Four side walls 4 , 5 , 6 , 7 connect the roof part 3 to the bottom part 2 . The side walls 4 , 5 , 6 , 7 consist of a plurality of wall elements 10 , 11 which are connected to one another in an articulated manner.

FIG. 3 shows how the side walls 6 , 7 lie in the receiving space 12 of the base part 2 in an inoperative position, and are moved out synchronously by means of a common drive device 13 , 14 through openings in the base plate 15 . The side walls 6 , 7 are connected at their upper end to the roof panel 9 , at the other end to the drive device 13 , 14 .

Fig. 4 shows the roof part 3 in a horizontally pivoted position by 90 °. In this exemplary embodiment, the rear wall 5 can be moved analogously to the side walls 6 , 7 by a drive device 16 , 17 , whereas the front wall 4 is moved manually in its guide elements 18 . The rear wall 5 is connected at its lower end to the base plate 8 and secured to the drive device 16 , 17 . The front wall 4 is provided at its lower end with locking elements, not shown here, which engage plate 8 in corresponding counter-elements in the bottom. The upper end of the front wall 4 is secured against being pulled out of the roof-side receiving space 12 .

Fig. 5 shows in a further embodiment, a bottom part 2 with a larger receiving space 12 which is advantageous if the height of a container should be greater than its width or length.

Fig. 6 shows an example of two wall elements 10 , 11 connected by a wire rope 10.1 , one at a time, corresponding to the state of the container in the operating position, arranged vertically one above the other, and once during the movement in the direction R from the receiving space 12 into the operating position. The connection between the wall elements 10 , 11 is established via a spring-tensioned wire rope 10.1 effective in the pulling direction Z, which is arranged between the last wall element 11.1 and the drive device 13 , 14 . Depending on the position of the wall element 11, the semicircular profile grooves 30 in the wall element 10 take on one or both of the semicircular profile webs 29 of the wall element 11 for the coherent transmission of the thrust forces that occur. Forces which act from the maximum semi-right in the example of FIG. 6 are absorbed via the change in position about the pivot point 29.1 and those which act from the left half via the pivot point 29.2 .

The zipper-like connecting device 39 of the side walls 6 , 7 consists, as shown in FIG. 7, of a guide element 6.1 , which forms the end of the wall element 6 and a guide groove 7.1 , which is located in the end of the wall element 7 .

Fig. 8 shows the container variant I. The container 1.1 consists of the bottom part 2.1 , the roof part 3.1 , the side walls 5.1 , 6.1 , the rear wall 7.1 and the front wall 4.1 not visible here. The main difference to the container 1 described above is the design of the side walls 5.1 , 6.1 . They are divided in length into two equal-height side wall parts 21 , 22 and, pivotable by 180 °, articulated together. Each of the lower side wall halves 22 can be pivoted by 90 °, parallel to one another at the edge of the base plate 8.1 and the upper side wall halves 21 can be pivoted by 90 ° to the edge of the roof plate 9 .

The rear wall 7.1 and the front wall 4.1 , which, with the exception of their front locking profiles 33 , are constructed identically to the rear wall 7 and front wall 4 , are accommodated in the receiving space 12.1 of the base part 2.1 together with a drive device.

By applying force via the drive device, the rear wall 7.1 and the front wall 4.1 slide synchronously out of the floor part 2.1 and thus raise the roof part 3.1 parallel to the floor part 2.1 , the side wall parts 21 , 22 continuously rising until they are aligned one above the other lock and engage their locking webs 39 in the locking webs 34 of the front or rear wall elements according to FIG. 11 over the entire height of the side walls 5.1 , 6.1 . The illustration of a locking example can be omitted because numerous design options are available.

FIGS. 9 and Fig. 10 show the variant II container. The container consists of 1.2 2.2 to the bottom part, the roof part 3.2, the side walls 5.2, 6.2, 7.2 of the rear wall and the front wall 4.2. The essential difference to the container 1.1 described above is that the force is introduced for lifting the roof part 3.2 via the side wall parts 23 , 24 .

As can be seen from FIG. 9, angle levers 25 are attached to the lower edge of the lower side part halves 24 and to the upper edge of the upper side part halves 23 , which are connected via rods 26 to a drive device, for example a tension spring 27 or a hydraulic system 28 . By actuating the drive device, a tensile force is exerted on the angle levers 25 , with the result that the lower side part halves 24 straighten up around the articulation points 24.1 and lower the upper side part halves 23 about the articulation points 23.1 . At the steering points 23.2 between the lower and upper side wall halves 23 , 24 assume the function of an abutment.

The container according to FIG. 10 with the indicated scissor lifting device 31 is shown in a partially upright state with the articulation elements 23.1 , 23.2 , 24.1 and the position of a rear wall 7.2 and a front wall 4.2 in the receiving space of the roof part 3.2 . After complete erection and locking of the side parts 23 , 24 of the container 1.2 , rear wall 7.2 and / or front wall 4.2 can be pulled like a roller shutter from the roof part 3.2 and guided by a guide groove 32 on the inside of the side wall parts 23 , 24 to the base plate 8.2 and locked there.

The drive device shown in this embodiment in the form of a scissor lifting device 31 is parallel to the longitudinal axis of the container in the center on the support plate 8.5 of the base part 2.2 . It acts through recesses 31.1 in the base plate 8.2 with a lifting force directed vertically against the underside of the roof plate 9.2 until the side wall parts 23 , 24 are erected and locked. Then it can be moved back into the receiving space 12.2 and closes the recesses in the base plate 8.2 with its support plate 31.2 .

The representation in FIG. 11 has already been mentioned in connection with the explanations for FIG. 8. It represents the basic shape of the side wall connections for container variant I.

Fig. 12 shows an example of the container variant II, the position of the guide groove 32 in the side wall parts 23 , 24 and the rear or front wall 7.2 , 4.2 guided in it.

Fig. 13 shows an embodiment particularly preferred for the above-described container having a rear or front wall 7.2, 4.2 in the form of a sandwich panel 35, 36 of plastic, which has by thermoplastic deformation of a plurality of wall elements 35.1, 36.1, which, by means of film hinges 35.2 36.2 are connected.

Claims (12)

1.Variably foldable transport / storage container ( 1 )

• - with a base plate ( 8 )
• - With a roof plate ( 9 ) arranged opposite the base plate ( 8 )
• - With side parts ( 6 , 7 ) which are connected to the base plate ( 8 ) and the roof plate ( 9 ) to define a loading / transport space, and which are flexible or movable in themselves;
• - The base plate ( 8 ) and the roof plate ( 9 ) between an operating position, in which they are arranged at a distance defining the loading / transport space from one another, and a non-operating position, in which they are arranged adjacent to one another, are movable, and
• - The side parts ( 6 , 7 ) in the course of the relative movement between the floor and roof panels ( 8 and 9 ) are adjustable from the inoperative position to the operating position,

characterized by
that the side parts ( 6 , 7 ) and the front wall ( 4 ) have a plurality of articulated wall elements ( 10 , 11 ; 21 ; 22 ; 35.1 ; 36.1 ) which are aligned with each other in the operating position and
that the wall elements ( 10 , 11 ) vertically adjacent side parts and wall parts ( 6 , 7 and 5 ) are connected to each other by means of a zipper-like connecting device ( 39 ). 2. Transport / storage container according to claim 1, characterized in that a rear wall ( 5 ) is provided which in the operating position with the side parts ( 6 , 7 ) of the Bo denplatte ( 8 ) and the roof plate ( 9 ) the loading / Transport space limited on five sides and connected to the base plate ( 8 ), the roof plate ( 9 ) and the side parts ( 6 , 7 ). 3. Transport / storage container according to claim 1 or 2, characterized by a movable in the operating position between an open position and a closed position front wall ( 4 ) which is arranged opposite the rear wall ( 5 ). 4. Transport / storage container according to one of claims 1-3, characterized by a manually or motor-operated drive device ( 13 , 14 ) for moving the side parts ( 6 , 7 ), the roof plate ( 9 ) and preferably the rear wall ( 5 ) and the front wall ( 4 ) from the non-operating position to the operating position. 5. Transport / storage container according to claim 4, characterized in that the drive device is designed as a manually or motor-driven roller arrangement ( 16 , 17 ) for moving one of the side parts ( 5 ). 6. Transport / storage container according to claim 4, characterized in that the drive device is formed as a manually or motor-driven scissor lifting device ( 31 ), which is arranged between the base plate ( 8 ) and roof plate ( 9 ). 7. Transport / storage container according to one of claims 1-6, characterized in that the bottom plate ( 8 ), together with mutually opposite side wall elements ( 8.1 , 8.2 ), a front wall web ( 8.3 ) and a rear wall web ( 8.4 ) and one Support plate ( 8.5 ), which is arranged opposite the base plate ( 8 ), a receiving space ( 12 ) for the side parts ( 6 , 7 ) limit in the non-operating position. 8. Transport / storage container according to one of claims 1-7, characterized in that the roof panel ( 9 ), together with the side wall webs ( 9.1 , 9.2 ), a rear wall web ( 9.4 ) and a front wall web ( 9.3 ) and one of the roof panel ( 9 ) opposite the arranged cover plate ( 9.5 ) delimits a receiving space ( 12 ) for the rear wall ( 5 ) and preferably the front wall ( 4 ) in the inoperative position. 9. Transport / storage container according to one of claims 2-8, characterized in that the rear wall ( 7.2 ) has a plurality of articulated Wandele elements ( 36.1 ) which are aligned in alignment in the operating position. 10. Transport / storage container according to claim 9, characterized in that the wall elements ( 10 , 11 ) by means of a flexible element running through them, preferably before a flexible wire ( 10.1 ), and via a joint connection arranged between each pair of elements ( 29 , 30 ) are interconnected. 11. Transport / storage container according to one of claims 1-9, characterized in that the wall elements by means of film joints ( 35.2 ; 36.2 ) or hinges ( 37 , 38 ) are connected to each other. 12. Transport / storage container according to one of claims 1-11, characterized in that the connecting device ( 39 ) has a guide element ( 6.1 ) which is arranged on a wall element ( 6 ) via a connecting web ( 6.2 ) with a reduced cross section, and a guide groove ( 7.1 ) is arranged in the respectively assigned wall element ( 7 ) of the adjacent wall, which is open on the side adjacent to the other wall element ( 6 ) via a connecting groove ( 7.2 ) which is dimensionally adapted to the connecting web ( 6.2 ) ,