EP1538271A2 - Extensible container - Google Patents

Abstract

• einen Basiscontainer (1) mit Bodenwand (2) und Dachwand (3) und mindestens einer um eine horizontale Achse klappbaren Seitenwand (4,5), sowie
• mindestens ein aus dem Basiscontainer (1) ausfahrbares Erweiterungselement (10;20), welches eine Bodenwand (15;25), eine zum Basiscontainer (1) offene Seite sowie eine der offenen Seite gegenüberliegende Frontwand (16;26) aufweist, wobei das oder die Erweiterungselemente (10;20) nach oben offen sind, und im ausgefahrenen Zustand die Dachwand eines Erweiterungselements von einer aufgeklappten Seitenwand (4;5) des Basiscontainers (1) gebildet wird.
• eine einem Erweiterungselement (10;20) zugeordnete Hubvorrichtung (55), mit der das Erweiterungselement (10;20) derart abgesenkt werden kann, dass nach dem Ausfahren des Erweiterungselements (10;20) die Bodenwand (15;25;2) von Erweiterungselement (10;20) und Basiscontainer (1) auf gleicher Höhe liegen, und mit der ein Erweiterungselement (10;20) derart angehoben werden kann, dass das Erweiterungselement (10;20) nach dem Absenken wieder in den Basiscontainer (1) eingefahren werden kann, wobeizum Absenken und Anheben eines Erweiterungselements (10,20) die Hubvorrichtung (55) auf die klappbare Seitenwand (4,5) wirkt.

The invention relates to containers, in particular as a working space, with variable volume, comprising

• a base container (1) with bottom wall (2) and roof wall (3) and at least one side wall (4,5) hinged about a horizontal axis, and
• at least one extension element (10; 20) which can be extended from the base container (1) and which has a bottom wall (15; 25), an open side to the base container (1) and a front wall (16; 26) opposite the open side; the extension elements (10; 20) are open at the top, and in the extended state, the roof wall of an extension element is formed by an unfolded side wall (4; 5) of the base container (1).
• a lifting device (55) associated with an extension element (10; 20) with which the extension element (10; 20) can be lowered such that after extension of the extension element (10; 20) the bottom wall (15; 25; 2) of the extension element (10, 20) and base container (1) are at the same height, and with which an extension element (10, 20) can be raised such that the extension element (10, 20) are retracted after lowering into the base container (1) can, wherein for lowering and raising an extension element (10,20), the lifting device (55) acts on the hinged side wall (4,5).

Description

The invention relates to an expandable container, e.g. according to ISO standard, in particular as work space, according to the preamble of claim 1. Such Walk-in containers are also used in the Anglo-American language area as shelters designated.

An expandable container is known for example from DE-G 92 16 314.9 . It comprises a base container with hinged side walls and one or more extendable from the base container expansion elements. An extension element comprises two side walls and a front wall. In the state with extended extension element form two unfolded side walls of the base container roof wall and bottom wall of an extension element. A disadvantage of this design, the large sealing lengths that are necessary for the sealing of the container along the roof and bottom wall. This is particularly problematic in the demand for ABC-tightness.

Another expandable container is known from EP 0 682 156 B1 . It comprises a base container and, to expand the interior, one or more extension elements which can be extended from the base container. The extension elements are box-shaped and - with the exception of the open side to the base container - closed on all sides. To achieve a flat bottom within the entire container also has a lifting device with which the extension elements are lowered so that after lowering the bottom walls of base container and extension element are at the same height. When running with two expansion elements, the dimensions of the two extension elements must be selected so that one extension element can be retracted into the other extension element.

In DE 101 35 226 A1 a generic expandable container is described which has a lifting device to achieve a flat bottom, with which the extension elements are lowered so that after lowering the bottom walls of base container and extension element are at the same height. The extension elements are open at the top. On the base container a foldable about a horizontal axis side wall is present, which forms the roof wall of an extension element when the extension element is extended. With this construction, an improved standing height can be achieved in an extension element.

It is an object of the invention to provide an expandable container, the on the one hand has a sufficient standing height in the extension elements and on the other hand, an easy-to-use, mechanically robust lifting device having.

This object is achieved with the subject of claim 1. advantageous Embodiments of the container according to the invention are the subject of dependent claims.

According to the invention, a mechanism already present on the container (a side wall of the base container is pivotable about a horizontal axis so that it can also serve as a roof wall of an extension element in the folded-up state) is used to lower the extension elements, so that a uniform one throughout the container Ground level arises. For this purpose, a lifting device, in particular designed as a linear actuator, is provided, which acts on the hinged side wall. This linear actuator can be supported on both the base container and on the ground on which the container is located.
In order to prevent tilting of the extension element in the pivoting movement of the side wall generated by the lifting device, in a preferred embodiment of the invention, a compensation device is provided. This allows a parallel lowering, ie without tilting of the extension element from the vertical; the bottom of the extension element remains in a horizontal position during lowering.

Fig. 1

a) bis e) eine Prinzipskizze zum Ablauf des Entfaltens eines erfindungsgemäßen Containers in fünf Schritten, jeweils in vertikalen Schnittdarstellungen;

Fig. 2

einen vertikalen Schnitt durch eine erste Ausführung des erfindungsgemäßen Containers mit eingefahrenem Erweiterungselement;

Fig. 3

einen vertikalen Schnitt durch die erste Ausführung des erfindungsgemäßen Containers mit ausgefahrenem und abgesenktem Erweiterungselement;

Fig. 4

Schnitt durch die erste Ausführung des erfindungsgemäßen Containersentlang A-A in Fig. 2.

Fig. 5

einen vertikalen Schnitt durch eine zweite Ausführung des erfindungsgemäßen Containers;

Fig. 6

Ansicht der zweiten Ausführung des erfindungsgemäßen Containers in Richtung Z in Fig. 5;

Fig. 7

einen horizontalen Schnitt durch die zweite Ausführung des erfindungsgemäßen Containers entlang A-A in Fig. 5;

Fig. 8

a) bis d) Skizzen zum Ablauf des Absenkens eines Erweiterungselements gemäß der zweiten Ausführung des erfindungsgemäßen Containers;

Fig. 9

Seitenansicht eines erfindungsgemäßen Containers mit ausgefahrenem und abgesenktem Erweiterungselement sowie zusätzlichen Flächenelementen.

In a further embodiment, an extension element has at its inner end (ie the end which comes to lie next to the Baiscontainer when the extension element is extended) a plurality of upper and a plurality of lower sliding or unrolling elements, eg rollers. Furthermore, at its end adjacent to the relevant extension element (when the extension element is extended), the base container has a plurality of guide elements associated with the upper sliding or unrolling elements, with ramps sloping down towards the extended extension element. In addition, the base container has at its end adjacent to the extension element (when the extension element is extended) a plurality of the lower sliding or unrolling elements associated lower stops, for example in the form of vertically extending moldings on. When the extension element is fully extended, it assumes a statically fixed, stable position in which the lower sliding or unrolling elements abut against the associated lower stops and the upper sliding or unrolling elements rest on the ramps of the guide elements. This stable position forms the starting position for the lowering of the extension element by actuation of the lifting device.
The invention will be explained in more detail with reference to concrete embodiments with reference to drawings. Show it:

Fig. 1

a) to e) is a schematic diagram of the sequence of unfolding of a container according to the invention in five steps, each in vertical sectional views;

Fig. 2

a vertical section through a first embodiment of the container according to the invention with retracted extension element;

Fig. 3

a vertical section through the first embodiment of the container according to the invention with extended and lowered extension element;

Fig. 4

Section through the first embodiment of the container according to the invention along AA in Fig. 2nd

Fig. 5

a vertical section through a second embodiment of the container according to the invention;

Fig. 6

View of the second embodiment of the container according to the invention in the direction Z in Fig. 5;

Fig. 7

a horizontal section through the second embodiment of the container according to the invention along AA in Fig. 5;

Fig. 8

a) to d) sketches for the course of the lowering of an extension element according to the second embodiment of the container according to the invention;

Fig. 9

Side view of a container according to the invention with extended and lowered extension element and additional surface elements.

Fig. 1 a) to e) show the individual steps in the construction of an inventive expandable container with two extension elements 10,20. In Fig. 1 a) is the Initial state (transport state) shown. The box-shaped base container 1 contains the two extension elements 10, 20 (see FIG. 1 d)). That's it Extension element 20 in terms of length and height slightly larger extension element 10 retracted. You can see the bottom wall 15,25 and front wall 16,26 of the two extension elements 10,20 and a side wall 27 of the inner extension element 20. The base container 1 has bottom wall 2, roof wall 3 as well as two hinged side panels 4,5 on, each one horizontal Axis 41,51 are rotatably mounted on the upper edge of a container wall.

In Fig. 1 b), the two hinged side walls 4.5 are folded upwards and are now substantially in a horizontal plane. Side surface of the base container 1 and unfolded side wall 4.8 form a right angle.
In this position, the folded-up side walls 4,5 on a variable-length support 55 (linear actuator) based, which is arranged with its other end to the base container 1. The support 55 may be formed, for example, as a telescopic lifting cylinder (eg hydraulic, pneumatic, electromechanical).

In Fig. 1c), the smaller extension member 20 is already fully extended. This is done by means arranged on the extension element 20 rollers 23,24 (Fig. 3) in the upper region of the side wall of an extension element. These roles engage in guideways 80 (see also Fig. 2), which at the folded up Side wall 5 are provided. For each extension element are advantageously two Guideways provided. In addition, an extension element 10,20 in Floor area further rollers 21, which upon extension to the bottom wall 15 of the unroll larger expansion element 10. The folded-up side wall 5 of the Base container 1 now forms the roof wall of the extension element 20. Die Therefore, folded-up side wall 4 or 5 will also be described below depending on the context referred to as a roof wall.

In Fig. 1 d) is also the larger extension element 10 on the folded up at the Side wall 4 arranged guideways 80 fully extended.

The extension of the two extension elements took place horizontally Direction, i. without change in the vertical. Thus, the soil levels of Extension element 10,20 and basic container 1 each different, the Floor level of the base container 1 is lowest and the floor level of the small extension element 20 highest. For example, the level difference is of the smaller extension element to the base container approx. 100 mm, the Level difference of the larger extension element 10 to the base container 1 approx. 50 mm.

Fig. 1 e) shows the fully unfolded container with lowered extension elements 4.5, so now a uniform ground level within the entire extended container is made. This was the length of the respective Extension member associated support 55 (Fig. 1 d) reduced. This will be the roof walls 4,5, which are rotatably mounted on the horizontal axis 41,51, from swung under their horizontal position.

To tilt the connected to the roof wall 4, 5 via the guideways To prevent extension element 20 is according to a first embodiment of Invention, a compensation device is provided, which will be described later in detail with reference to the Fig. 2 to 4 will be explained. This balancing device conveys at vertical Position change (due to the change in length of the support 55) to the outside End of an extension element, a preferably equal vertical position change of the inner, adjacent to the base container 1 end of the Expansion element. As a result, a parallel lowering can thus be achieved be in which the bottom surface of the expansion element during the lowering process and is oriented horizontally especially when reaching the end position.

An essential advantage of this design is that for lowering only the relevant lifting device 55 must be operated. The mechanism to achieve the parallel depression is coupled to the movement of the lifting device 55 and thus takes place automatically without further external intervention to the controller.

For a more detailed explanation of the lowering mechanism according to the first embodiment of the invention, reference is made to FIG. It shows a vertical section through a container according to the invention. It can be seen the base container 1, in which an extension element 20 is fully retracted. The hinged side wall 5 of the base container 1 is folded from its vertical position of the transport state up into a horizontal position. The fulcrum is designated 51. At the folded-up side wall 5, a guide track 80 can be seen. It is divided into two parts, wherein the two sections 80a, 80b are connected by means of a hinge 85. By means of this hinge 85, the inner (adjacent to the base container 1) section 80a can be folded down. The outside (toward the outer edge of the unfolded container) lying portion 80 b is rigidly connected to the side wall 5.
The extension element 20 has at the upper edge of its side wall on a roller 23 which engages upon extension into the guide track 80. In Fig. 2, it is located in its start position, before the extension of the extension element 20. At the outer end of the guideway, the end position of the roller is shown in dashed lines with fully extended extension element 20. Another roller 24 is located at the same height at the rear end of the extension element (not shown in FIG. 2) (see FIG. 3).
The extension element 20 also has bottom rollers 21, which roll on extension on the bottom wall 15 of the larger extension element 10.

Approximately in the middle of the unfolded side wall 5 engages the variable-length Support 55, which is supported with its other end to the base container 1.

The balancing device, the tilting of the expansion element in Lowering by the lifting device 55 should prevent, as essential Element a rope 57, e.g. from steel. It is with one end to the outer end of the Guideway 80 (alternatively: the side wall 5) connected. The rope 57 is over a deflection roller U1 guided in the lower region of the base container 1. From there will It has a further deflection roller U2 in the upper region of the base container. 1 (above the fulcrum 51) and guided on the foldable portion 80 a of the guideway 80 attached (attachment point B2).

The length of the rope is adjusted so that when folded side wall 5 as shown in FIG. 2, the hinged portion 80 a of the guide track 80 is horizontally aligned, so that there is no kink on the hinge 85. Advantageously, the rope is acted upon by means of a clamping device with a bias voltage.
The extension element 20 can now be extended via the rollers 23 and 24 (FIG. 3), which roll on the guideways 80. When fully extended extension element 20, the two rollers 23,24 come to rest in the region of the beginning or end of the guideway 80. A roller 23 thus comes to lie on the rigidly connected to the folded-up side wall 5 section 80b, while the other roller 24 comes to lie on the hinged portion 80a of the guideway.

To lower the extension member 20, the lifting device is actuated, i. reduces the length of the support 55. The side wall 5 together with the outside lying side of the extension member 20 pivots about the fulcrum 51 after below. By the resulting change in distance of the attachment point B1 the rope 57 to the lower pulley U1 is a corresponding at the other end of the rope Rope length released. This results in the hinged portion 80a of the Guide rail 80, in which the one guide roller 24 of the extension member 20th engages, together with the inner end of the extension member 20th also lowered down. Fig. 3 shows the container in the state with extended and lowered extension element 20.

• der Position der unteren Umlenkrolle U1 zum äußeren Befestigungspunkt B1 des Seils 57,
• der Position des Befestigungspunkts B2 des Seiles 57 an dem klappbaren Abschnitt 80a der Führungsbahn,
• der Position des Scharniers 85 für die Teilung der Führungsbahn 80,

wird erreicht, dass die vertikale Positionsänderung, welche das äußere Ende des Erweiterungselements 20 erfährt, gerade gleich der vertikalen Positonsänderung ist, welche das innere Ende des Erweiterungselements 20 erfährt. Somit kann ein rein paralleles Absenken des Erweiterungselements 20 ohne Verkippung aus der Horizontalen erreicht werden. Der Boden 25 des Erweiterungselements befindet sich während der gesamten Absenkbewegung, insbesondere beim Erreichen seiner Endposition, in horizontalen Lage.By adaptation, in particular

• the position of the lower guide roller U1 to the outer attachment point B1 of the cable 57,
• the position of the attachment point B2 of the rope 57 at the foldable portion 80a of the guideway,
• the position of the hinge 85 for the division of the guideway 80,

it is achieved that the vertical position change experienced by the outer end of the extension element 20 is just equal to the vertical position change experienced by the inner end of the extension element 20. Thus, a purely parallel lowering of the extension member 20 can be achieved without tilting from the horizontal. The bottom 25 of the extension element is in a horizontal position during the entire lowering movement, in particular when reaching its end position.

The direction of movement of the extension element 20 is substantially vertical. The horizontal movement that the extension member 20 due to In fact, that is the outer end of the pivoting roof 5 on a circular path moving around the fulcrum 51 can be neglected when considering the radius the pivoting movement (width of the extension element 10,20 with ISO containers: several meters) and a typically desired amount of lowering of about 100 mm into consideration.

The described lowering movement is completely reversible. When lifting the Extension element 20, the mechanism described in reverse in time Follow through. To lift the lifting device 55 is actuated (change in length the prop). The roof wall 5 pivots about the axis 51 upwards. The resulting position change of the attachment point B1 of the rope 57 am outer end of the roof wall 5 causes the foldable portion 80 a of the Guideway 80 and thus the inside of the extension member 20 is raised becomes, so that a parallel lifting results without tilting from the vertical. When the roof wall 5 has reached a horizontal position, lies the hinged section 80a of the guideway 80 on the roof wall 5 at. The extension element 20 can now be inserted into the base container 1.

To ensure an accurate vertical and parallel lowering in each case, can be attached to the base container 1 additional guide means 99. These may take the form of a vertically extending rail into which pins 98 (Figure 4), pins or bolts connected to an extension member 10,20 are, intervene.

To strain relief of the actuator 55 in the extended state of the extension elements 10.20 diagonal tension struts 101 can be attached. The tie rods may be formed in a particularly advantageous embodiment as ropes, the permanent (both with retracted and extended extension element as in the transitional phase) to the diagonally opposite Attachment points between an extension element 10,20 and the Base container 1 are attached.

When extending these ropes 55 set the maximum horizontal extension of a Extension element 10,20 firmly. They also set a correct orientation of the extension element (no tilting of the extension element from the Vertical) with completely lowered extension element safely.

When retracted expansion element find the ropes 101 in a niche between Side wall 27 of an extension element and the base container 1 place.

FIGS. 5 to 8 show a second embodiment of the container according to the invention. In contrast to the first embodiment described in FIGS. 2 to 4 here for the lowering of the inner end of an extension element no rope 57 (FIG. 2, 3) or any other compensating device is required.

It can be seen in Fig. 5, the base container 1 with extended extension element 20. The solid lines show the state before lowering the extension element 20, the dotted lines indicate the state when lowered Extension element again.

The lifting device 55 is exactly as in the first shown in FIGS Design designed as a linear actuator, which is to achieve the reduction (and lifting) of the extension member 20 acts on the hinged side wall 5.

With regard to the support of the linear actuator 55 are in Fig. 5 two variants located. According to the first variant, the actuator 55 is supported on the Base container 1 on. Alternatively, the actuator 55 may be on the ground support on which the container is located. In this context will pointed out that a support of the lifting device 55 on the ground Also in the first embodiment (Fig. 2 to 4) of the container is possible.

a) Hochklappen der Seitenwand 5 aus ihrer vertikalen Ausgangslage (Fig. 1 a) in seine horizontale Lage (Fig. 1 b) um Gelenk 51 (Fig. 6);

b) Absenken des Erweiterungselements 20

unterschiedlichen Hubvorrichtungen zugeordnet.In the embodiment of Fig. 5 are also the two functions

a) folding up the side wall 5 from its vertical starting position (FIG. 1 a) into its horizontal position (FIG. 1 b) about joint 51 (FIG. 6);

b) lowering of the extension element 20

assigned to different lifting devices.

For folding up the side wall, a second linear actuator 56 is shown in FIG present, between the base container 1 and the folding side wall. 5 acts. The other lifting device 55 is specifically for lowering and lifting the Extension element 20 responsible. According to the different operating loads For example, the actuator 56 may be made weaker than the actuator 55. Again to point out that such a division of the two functions to different Lifting devices also in the first embodiment of the invention Containers according to FIGS. 2 to 4 is possible.

When extending the extension member 20 in the guideway 180 at exactly one place (role 123) out. At this point is the extension element rotatable about a horizontal axis D. This roller 123 is in a (in horizontal Direction extending) area between the center of gravity S of the extension element 20 and the outer end of the extension member 20 is arranged.

The extension member 20 also has at its inner, the base container adjacent end, an upper 201 and a lower roller 202. The two Rollers are in each case via a shaft receiving 205 (FIG. 6) on a side wall of the Extension element 20 attached.

The upper roller 201 is assigned a guide element 211. It's on the top Base container 1, namely at its the extension member 20 adjacent End, arranged. It has the shape of an angle with horizontal as well as vertical aligned legs and a ramp connecting the two legs, which drops towards the extension element. The ramp has a typical design a length (in the horizontal) of 10 mm. Preferred angles are in Range of 20 to 50 degrees relative to the vertical.

The lower roller 202 is associated with a stop 212. He is at the base container 1, and at its end adjacent to the extension element 20, arranged. It has the shape of a substantially vertical profile, which in this embodiment extends over approximately the entire height of the base container 1.

Fig. 5 and 7 show the rollers 201,202, arranged on a side wall 27 of the Extension element 20. Of course, on the opposite Side wall of an extension member 20 corresponding roles present, the with a guide element present on the other side of the base container and vertical stop.

Fig. 7 shows a horizontal section along the line A-A of Fig. 5, in the upper Roller 201 and guide element 211 and stop profile 212 shown in detail are.

Upper roller 201 and lower roller 202 are shown in Figs. 5 and 7 respectively in their Position at fully lowered extension member 20 shown.

As will be explained in more detail later with the description of FIG. 8, serve the rollers 201,202 and the associated guide element 211 and Stop 212 to, for the extension element 20 a statically defined To create position that can serve as a starting position for lowering. In this position, the lower roller 202 is supported on the stop 212, while the upper roller 201 on the ramp of the angular guide element supported, so that by the weight force (focus S) induced tilting moment is recorded around the pivot point D.

The lifting device 55 can be dismantled after the lowering of the extension element 20 and stowed in a niche of the base container. In the extended and lowered state of the extension element, the loads of the extension element 20 are advantageously taken up by the stop 212, on which both lower and upper rollers 201,202 are supported.
Alternatively or additionally, the operating loads can be absorbed by a tension strut 101 between the base container 1 and the extension element 20 when the extension element 20 is extended and lowered, as shown in FIG.

The tie rods 101 may be formed in an advantageous embodiment as ropes which are permanent (both with retracted and extended expansion element as in the transitional phase) to the diagonally opposite Attachment points between an extension member 20 and the base container 1 are attached. With retracted expansion element find the Ropes 101 in a niche between side wall 27 of an extension element and the basic container 1 place.

FIGS. 8 a) to d) show the sequence of lowering in four snapshots an expansion element for the illustrated in Figs. 5-7 embodiment of Containers according to the invention. In each of Figs. A) to d), the areas around the Upper guide element 211 and the lower stop 212 additionally increased shown.

When extending from the base container 1, the extension element 20 rolls on Floor rollers 21, arranged on the bottom wall 25. The bottom rollers 21 roll up the bottom wall 15 of the larger extension element 10 (FIG. 1) which extends still completely in the base container 1 is located. In addition, the extension element becomes 20 by means of the roller 123 in the guide rail 180, attached to the guided up side wall 5, where it is rotatable about a horizontal axis D. is stored. The folded-up side wall 5 is located during extension in a horizontal position.

Fig. 8a) shows the situation when the extension element is almost fully extended 20. The last of the floor rollers 21 is at the outermost edge of the bottom wall 21st reached. Now the load transfer takes place through the top of the base container 1 arranged guide element 211. The upper, arranged on the extension element 20 Roller 201 is now on the horizontal leg of the guide element 211 on.

If the extension element 20 is extended even further (FIG. 8b), then it passes upper roller 201 on the outwardly sloping ramp of the guide member 211st Due to the weight of the extension element (center of gravity S) induced torque (with respect to the pivot point D) rolls the upper roller 201 on the ramp of the guide member 211 from, to the lower, on the extension element 20 arranged roller 202 on the vertical stop 212 of the base container 1 strikes. The extension element is now in a stable, statically fixed position (geometrically clamped), in which the pair of rollers 201,202 a magnitude equal in magnitude to that induced by gravity Torque generated. This stable position, which is shown in Fig. 8b), forms the Starting position for lowering the extension element. The folded up Sidewall 5 is still in a horizontal position.

Now, the lowering of the extension element 20 by pressing the Lifting device 55 (Fig. 5), which acts on the high-capped side wall 5 and this pivots about the axis of rotation 51 down. The lower roller 202 rolls on the vertical stop 212 down (Fig. 8c). The upper roller 201 rolls on the Guide member 211 also down from, and beyond the ramp (Figure 8c) and then on the vertical leg of the guide member 211, until the fully lowered position of the extension member 20 is reached (Fig. 8d).

It is obvious to the person skilled in the art that the lower stop 212 and the leg of the guide member 211 may not necessarily be aligned exactly vertically have to. A reliable lowering is also possible if these two mentioned Elements are tilted out of the vertical.

It is also obvious to the person skilled in the art that to reduce the surface pressure a single roll 201, 202 also by a group of rolls (e.g. or three rollers arranged on a common frame) can be. Instead of the described rollable elements (rollers 201,202) Alternatively, lubricious elements can be used. As a lubricious Element can e.g. a bolt with right-angled cross-section can be used one of its surfaces being lubricious (e.g., by means of a lubricious coating) is trained.

The described lowering movement is completely reversible. By pressing the Lifting device 55 (extension of the linear actuator) becomes the extension element 20 raised until it reaches the stable position shown in FIG. 8b). From this Position, the extension element 20 retracted into the base container 1 become.

After the lowering process is completed, resulting in the extension elements between upper edge side wall and the roof wall 4,5 each trapezoidal openings 95 (Figure 1 e)). To close this, you can at the Top edge of the side walls 17,27 trapezoidal additional surface elements 18,28 be attached hinged. After the extension elements completely are extended and lowered, they can - as shown in Fig. 9 - folded up be so that the openings between the roof wall 4.5 and side wall 17,27 closed. Sectional drawing along lines B-B and A-A illustrate the folding process in detail. It thus results completely outside closed container interior.

Instead of at the top of the side walls, the additional surface elements can also be attached to the roof wall 4.5 of an extension element 10,20 hinged, In a further embodiment, the additional surface elements in the side walls be integrated with an extension element, in such a way that the side walls are formed double-walled and the additional surface element between the two walls of the side wall is arranged. If necessary, the additional surface elements be driven out, e.g. by means of spring force. This is on the Fig. 8a to Fig. 8d) referenced. There is an additional surface element 128 in the side wall integrated. When lowering the extension member 20, the gap arises between the side wall and roof wall 5, automatically moves the additional surface element 128 out of the sidewall and closes the moment existing gap. As can be seen from Fig. 8a, is at the beginning of lowering the Additional surface element 128 is still completely disposed within the side wall. When completely lowered extension element 20 is also the additional surface element 128 extended out of the side wall.

In a further embodiment, the additional surface elements can be double-walled be executed.

For sealing can on the additional surface elements or to base container or Expansion elements 10,20 seals, in particular contact seals, to be available.

Of course, the additional surface elements 18,28 also structurally separated be transported by the container elements as separate components, and in Need to be inserted.

The examples shown in the drawings show each with versions exactly two extension elements. Of course, versions are also available exactly one or more than two extension elements possible. The extension process and the lowering process is analogous to the processes shown for the individual extension elements 10,20.

Claims (15)

Container, in particular as a work space, with variable volume, comprising a base container (1) with bottom wall (2) and roof wall (3) and at least one about a horizontal axis (41,51) hinged side wall (4,5), and at least one extension element (10; 20) which can be extended from the base container (1) and which has a bottom wall (15,25), an open side to the base container (1) and a front wall (16,26) opposite the open side, wherein the or the extension elements (10,20) are open at the top, and in the extended state, the roof wall of an extension element of an unfolded side wall (4,5) of the base container (1) is formed. a lifting device (55) associated with an extension element (10, 20) with which the extension element (10, 20) can be lowered in such a way that, after extension of the extension element (10, 20), the bottom wall (15, 25, 2) of extension element (10,20) and base container (1) are at the same height, and with an extension element (10,20) can be raised so that the extension element (10,20) are retracted after lowering into the base container (1) can characterized in that for lowering and raising an extension element (10,20), the lifting device (55) acts on the hinged side wall (4,5). Container according to claim 1, characterized in that the container has exactly two hinged side walls (4, 5) and there are exactly two extension elements (10, 20) which can be extended in opposite directions from the base container, the dimensions of the extension elements (10, 20) being are selected such that one extension element (20) in the other extension element (10) is retractable, and wherein each extension element is associated with a lifting device (55) disposed between an unfolded side wall (4; 5) and the base container (1) and is effective. Container according to claim 1 or 2, characterized in that a compensating means (57) is provided, the vertical change in position of the outer end of an extension element (10,20) a preferably equal vertical position change of the base container (1) adjacent, inner end of the extension element (10, 20). Container according to one of the preceding claims, characterized in that the lifting device (55) is designed as a variable-length support. Container according to one of the preceding claims, characterized in that guideways (80, 180) are provided on the folding side wall (s) (4, 5) in which the extension elements (10, 20) are guided out of the base container (1) during extension or retraction , Container according to one of the preceding claims, characterized in that the guideways (80) are divided into two sections (80a, 80b) connected by a hinge (85), wherein - in the folded-up state of the foldable side wall (4, 5) - on the outside lying portion (80b) of the guide rail (80) is rigidly connected to the hinged side wall (4,5) and the base container (1) adjacent inner portion (80a) of the guide rail (80) of the hinged side wall (4,5) can be folded down. Container according to claim 6, characterized in that the compensation device comprises a tensile elements transmitting strand-shaped element (57) which is guided over the base container (1) existing deflection rollers (U1, U2) and one end (B2) with the hinged portion (80a ) is connected to a guide rail (80) and the other end (B1) with the outer end of the hinged side wall (4,5) or the rigidly connected portion (80b) of a guide rail (80) is connected. Container according to one of the preceding claims 1 to 5, characterized in that an extension element (10,20) in a guide track (180) on the hinged side wall (4,5) is guided at exactly one point, and there about a horizontal axis of rotation ( D) is rotatable. Container according to one of the preceding claims, characterized in that the extension element has bottom rollers (21) on its bottom wall (15, 25). Container according to one of the preceding claims 1 to 5 or 8 to 9, characterized by the following features: an extension element (10,20) has at its inner end a plurality of upper (201) and a plurality of lower sliding or unrolling elements (202), the base container (1) has at its end adjacent to the extension element (10, 20) a plurality of guide elements (211) assigned to the upper sliding or unrolling elements (201) with ramps sloping down towards the extension element (10, 20), the base container (1) has at its end adjacent to the extension element (10, 20) a plurality of lower stops (212) associated with the lower sliding or unrolling elements (202), when the extension element (10, 20) is fully extended, the extension element (10, 20) assumes a statically determined starting position for the lowering of the extension element (10, 20), in which the lower sliding or unrolling elements (202) are attached to a lower stop (10). 212) and the upper sliding or unrolling element (201) rest on the ramp of a guide element (211). Container according to one of the preceding claims, characterized in that diagonal tension struts (101) are present between the base container (1) and extension elements (20, 30). Container according to one of the preceding claims, characterized in that additional surface elements (18,28,128) are provided with which due to the lowering of the extension elements (10,20) resulting openings (95) can be closed, so that a completely closed to the outside interior arises. Container according to one of the preceding claims, characterized in that the lifting device (55) between the foldable side wall (4,5) and the base container (1) is arranged and effective. Container according to one of claims 1 to 9, characterized in that the lifting device (55) between the foldable side wall (4,5) and the substrate on which the container is located, arranged and effective. Container according to one of the preceding claims, characterized in that a variable-length support (56) which is arranged and operative between the base container (1) and the foldable side wall (4, 5) is provided for folding out and folding in a hinged side wall (4 , 5) between a vertical and a horizontal position.

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