CN216152311U - Tool box - Google Patents

Abstract

The utility model relates to a tool box (1) provided with a mounting leg (2) with a changeable position.

Description

Tool box

Technical Field

The utility model relates to a tool box having mounting feet, by means of which the tool box can be mounted at a first height.

Background

Different solutions for such toolboxes are known in practice. Tool boxes typically form a container having an interior space in which tools may be stored. The container typically has a carrying handle to carry the tool case. A lattice or retaining member for the tool is typically found in the interior space of the tool box. This allows tools to be stored in the toolbox in an orderly manner. It is known that the mounting feet can be formed securely on the housing of the tool box. The purpose of the mounting feet is to mount the box in a stable position.

Disclosure of Invention

In view of this, it is an object of the present invention to improve the functional range and operability of a toolbox.

The solution of the utility model for achieving the above object is a toolbox (1) with mounting feet (2) by means of which the toolbox (1) can be mounted on a first level (28), the position of the mounting feet (2) can be changed so that the toolbox (1) can be mounted on a second level (29). Thus, according to the utility model, in order to achieve the above object, in particular it is proposed that the position of the mounting feet can be changed so that the tool box can be mounted at the second level, in the case of a tool box of the type mentioned in the opening paragraph.

The advantage of the height adjustability of the toolbox achieved thereby is that it can be used, for example, as a seat, as a tool table or as a raised tread. The latter may for instance be useful when work has to be carried out at a height which is difficult to reach from the ground, so that a separate footstool has to be used for this purpose, which footstool can be omitted by the utility model.

In an advantageous embodiment of the tool box, it can be provided that the mounting feet can be extended and/or extended. The spreading out of the legs can be achieved, for example, by a rotational movement. In this case, the rotary movement is preferably carried out about an axis parallel to the wheel axle of the conveying wheel. The extension of the legs may be achieved, for example, by a translational movement. These movements may be combined with each other so that preferably any type of movement can be represented. In this way, a particularly practical height adjustment is achieved.

It is possible to provide that at least four mounting feet are constructed. The at least four mounting feet are preferably constructed at the four corners of the toolbox. In this way, the box can be mounted particularly stably.

In order to further increase the stability of the toolbox, it may be provided that the mounting feet are connected to each other in pairs by stabilizing elements. The mounting feet of at least one foot pair or of further foot pairs can be connected to one another by means of a stabilizing element. In order to prevent accidental height adjustment, locking means can be constructed which lock the mounting feet in the first position, in particular in the folded and/or retracted position, and/or in the second position, in particular in the extended and/or extended position. Preferably, the first position corresponds to a folded and/or retracted position and the second position corresponds to an extended and/or extended position. More preferably, the locking in the first position allows the tool box to be mounted at a first height and the locking in the second position allows the tool box to be mounted at a second position.

In a further advantageous embodiment of the tool box, it can be provided that a movably arranged ladder is constructed below the top side of the tool box. The ladder is preferably extendable and/or extendable. Such solutions make it easier to step on the top side of the toolbox.

Preferably, the ladder is built on a pull-out delivery handle. In this case, the ladder can be pulled out by pulling out the carrying handle in the pulling-out direction of the carrying handle. In a particularly preferred embodiment of the tool box, the ladder can be pulled out by pushing a pull-out carrying handle (for example the carrying handle already mentioned) under the box in the opposite direction to the pull-out direction of this carrying handle. In this way, the carrying handle can achieve a plurality of objects, so that the number of parts can be reduced.

To prevent undesired pushing in of the tread, a locking member can be built for locking the ladder being pulled out.

Furthermore, it can be provided that the extension and/or deployment means of the mounting feet are coupled with locking means of a pull-out carrying handle, such as the carrying handle already mentioned above. The coupling can be designed so that the carrying handle cannot be pulled out when the mounting feet are mounted.

In order to prevent rolling away in the lying position, the mounting feet can be arranged in such a way relative to one another and constructed in such a way that the toolbox lies flat on the folded and/or retracted mounting foot and at the same time on the at least one transport wheel. In this case, a projecting bearing surface is preferably formed on at least one mounting foot, on which the tool box rests. In particular, it is preferred to form at least one projecting bearing surface on at least two or even all mounting feet.

It is possible to set that the length of the mounting feet can be varied. This is preferably achieved by means of a telescopic mechanism or another pull-out or folding mechanism. This can be used, for example, to compensate for an uneven base, for example on a staircase, so that the box can be placed horizontally. In this way, the tool box can be installed at a higher position.

In a further advantageous embodiment of the tool kit, the tool kit can have a pull-out transport handle (for example the transport handle already mentioned above) and at least one transport wheel (for example the transport wheel already mentioned above), wherein the transport wheel has a radius and is mounted so as to be rotatable about an axle, wherein the transport handle is guided in a handle guide in a plane, and wherein the distance of the plane from the axle is at most 2/3, preferably at most half of the radius. This proximal guidance of the carrying handle results in a greater distance between the force line and the bearing point of the tool box, which makes it easier to negotiate obstacles, such as stairs.

Preferably, a conveying wheel is provided, the diameter of which is greater than 15cm, particularly preferably greater than 18 cm. According to the standard, the height of the stair steps is 18 to 22cm, so that when the conveying wheel is in the order of the stair steps, the effect is that the stair steps can be easily crossed.

It is further facilitated to surmount such obstacles if the transport wheels protrude on at least two sides of the toolbox. The transport wheels preferably project on at least two sides of the base body of the tool box. This type of solution allows the tread of the stair tread and the end face of the stair tread to be applied.

In order to avoid additional installation space due to the two-sided mounting, it is advantageously provided in one embodiment of the tool box that the transport wheel is mounted on the tool box only on the inside.

Furthermore, the conveyor wheel may comprise an idler, the outer circumference of which is surrounded by a driving tire. The active tire is preferably made of solid rubber.

In a further advantageous embodiment of the tool box, a top side of the tool box, for example the top side of the tool box described above, can be designed as a tread surface, wherein rib-like reinforcements are designed on the top side. The rib-like reinforcement is preferably built on the inside.

Furthermore, the top side is preferably formed by a cover of the tool box, which cover is placed on a base body, for example on the base body already mentioned above. In this case, the reinforcement is preferably constructed in such a way that the toolbox can withstand a load of not more than 150 kg. Therefore, this toolbox can bear the weight of a human body, and thus can be used as a tread.

The at least one reinforcement built on the inside can be formed by changing the shape of a top side of the toolbox (e.g. the top side already mentioned before) such that a recess is built on the outside of said top side. The recess is preferably groove-shaped. Furthermore, the recess is preferably embossed or embossed with one scale or a plurality of preferably different scales. More preferably, the recess may be configured in such a way that a workpiece to be machined, preferably a tubular workpiece, is inserted into the recess. Thus, the tool box can also be used as a work bench.

Furthermore, the recess can be led out laterally on one side of the top side in a region projecting relative to a wall formed on this side. This makes it possible to provide space for machining a workpiece, for example, with a saw or the like. Preferably, a support surface for mounting the tool box is formed in the region on the top side. Thus, this toolbox may also be mounted on one side.

Furthermore, the top side of the tool box, such as the one already mentioned, may be partly or completely provided with a non-slip coating. This anti-slip coating improves the operational safety when the tool box is used as a step. Preferably, the non-slip coating is built up on a transparent layer which can be printed on the back side. This may for example set any flag.

In a further advantageous embodiment of the tool box, the tool box can have a compartment which is completely enclosed on the inside and can be accessed from the outside through an opening in the housing. The lattice is preferably removably connected to the tool box. Such a compartment can be used, for example, for a laptop computer or documents, which can then be easily accessed without having to open the case, wherein the contents are not damaged by the tools in the case. The removability of the compartment may be advantageous in that it may be exchanged for other functional units, which may for example be provided with drawers or other fixing systems.

On the top side of the tool box, for example on the aforementioned top side of the tool box, there may be built-in fixing members for mounting and/or holding accessories. The accessory can be, for example, a preferably encapsulated lattice layer and/or an electrical device, such as a lamp and/or a printed label. The securing means are preferably lugs and/or hooks and/or clips and/or magnets. Such technical solutions facilitate a flexible use of the tool kit.

In a further advantageous embodiment of the tool kit, a joint for receiving a tool is formed in the interior of the tool kit, said joint having a gripping opening, a gasket for receiving a tool being insertable into the opening of the joint, and the opening of the joint being oriented transversely to the plane described by the gasket inserted and stored in the tool kit. An advantage of arranging the openings of the articulations transversely to the plane is that these gaskets cannot be opened or separated automatically when the toolbox is closed, but remain in their hinged position. The opening of the joint can be given, for example, by a slot in the joint that is accommodated. This joint part to be accommodated is preferably cylindrical on the inside.

The housing of the tool case may have connections for power supply or data transmission. The housing can have, for example, a USB connection for accessing a device arranged in or in an interior of the tool box. Which may for example comprise a mobile power supply or another electrical device.

In addition, a cable drum can be built on the tool box. Preferably, the dispenser is adapted to supply a plurality of electrical devices.

Furthermore, the solution of the utility model to achieve the above object also consists in using a tool kit according to the utility model, in particular as described above, as an insulating mat. In order to be able to be used in the manner described above, the tool box is preferably constructed in such a way that it meets the technical standards relating to insulation. Thus, the tread or the casing of the toolbox may be made of plastic, for example.

Drawings

The present invention will now be described in detail with reference to some examples, but the present invention is not limited to these examples. Further technical variants and embodiments of the utility model are described in the context of single or multiple features of the embodiments and/or combinations of the aforementioned technical variants of the device and method according to the utility model.

Wherein:

fig. 1-7 are embodiments of a toolbox constructed according to the present invention, shown in different views and having folded mounting feet.

Fig. 8-11 are the toolbox of fig. 1-7 with the mounting feet deployed.

Fig. 12 is the toolbox of fig. 1-11 with the ladder pulled out.

Fig. 13 is a tool case with a partially pulled transport handle.

Fig. 14 is a carrying handle of the tool box.

Fig. 15 is a tool box with some parts removed.

Figure 16 is an axle stabilizer for the kit.

Fig. 17 is a rear pair of legs of the toolbox.

Fig. 18 shows a tool box with an open top cover and some components hidden.

FIG. 19 is a retaining rail with joints for a toolbox.

Fig. 20 is an alternative embodiment of a tool box constructed in accordance with the present invention having a liner for receiving tools.

Fig. 21 is an enlarged view of a portion of the pad for receiving a tool shown in fig. 20.

Fig. 22 is a view of another alternative embodiment with an exploded view of a package shelf.

FIG. 23 is a top view of the tool box according to the alternative embodiment without the top cover.

Detailed Description

In the following description of different embodiments of the utility model, functionally identical elements will be provided with the same reference numerals, even if they differ in design or shape.

Fig. 1 to 19 show a first embodiment of a kit 1 constructed according to the utility model and its components in different views. Fig. 1 to 7 show a toolbox 1 with folded mounting feet 2. Specifically, fig. 1 is an oblique plan view of the tool box 1, fig. 2 is a plan view, fig. 3 is a right side view, fig. 4 is a left side view, fig. 5 is a rear view, fig. 6 is a front view, and fig. 7 is a bottom view. In this case, the delivery handle 8 is retracted. Fig. 8 to 11 show the same toolbox 1, but with the mounting feet 2 deployed. Fig. 8 is an oblique plan view of the tool box 1, fig. 9 is a front view, fig. 10 is a rear view, and fig. 11 is a bottom view. Fig. 12 shows the toolbox 1 with the ladder 7 pulled out; fig. 13 shows the tool case 1 with the carrying handle 8 partially pulled out; fig. 14 shows the delivery handle 8; fig. 15 shows a tool box 1 in which some parts are hidden, such as in particular the transport wheels 10. Figure 16 shows the axle stabilizer 32. Fig. 17 shows the latter pair of mounting feet 2. Fig. 18 shows the tool box 1 with the cover opened, so that in particular the holding rail 33 shown enlarged in fig. 19 can be seen, which has a joint 34 for receiving a spacer 35 for a tool. The pad 35 shown in fig. 20 and 21 may be mounted on the joint 34.

Fig. 20 to 23 show a second embodiment of a toolbox 1 constructed according to the present invention, wherein the technical features shown herein may also be directly applicable to the toolbox 1 shown in fig. 1 to 19. Fig. 20 shows the tool box 1 with the top cover 19 open so that some components arranged in the interior space of the tool box 1 can be seen. The gasket 35 is shown stepwise in an exploded view. Fig. 21 shows a part of a gasket 35 with a clip 36. Fig. 22 shows an open tool kit 1 with a compartment 61 shown exploded, in which, for example, a laptop or a file can be stored. Fig. 23 is a plan view of the tool box 1 and the lattice 61.

The first embodiment shown in fig. 1 to 19 will be explained together.

The tool case 1 has a base body 20, on which a cover 19 is detachably placed by means of a closure 30. The cover 19 and the base body 20 form a housing 38 which encloses an inner space 39. A tool or the like may be arranged in the inner space 39. Both the cap 19 and the base 20 are made of plastic. But it may also be made of another material.

One mounting foot 2 is arranged at each of the four lower corners 3 of the toolbox 1. The position of the mounting feet 2 can be changed. For this purpose, the mounting foot 2 can be adjusted from a folded position (fig. 1 to 7) to an unfolded position (fig. 8 to 11). For this purpose, the mounting feet 2 are rotatably supported on the toolbox 1. The mounting feet 2 can be folded along the longitudinal extension of the toolbox 1.

In the folded position, the toolbox 1 is mounted on a first level 28. In the deployed position, the toolbox 1 is mounted at a second height 29 greater than the first height 28.

The mounting feet 2 are connected to one another in pairs by stabilizing elements 4. Fig. 17 shows the latter pair of mounting feet 2 separately. The mounting legs 2, which are opposite to each other in the transverse direction of the toolbox 1, are connected to each other. In this case, the transverse direction corresponds to the direction of the axle 12 of the conveying wheel 10. In the initial example shown here, the stabilizing element 4 is constructed as a metal rod, which is constructed with its ends in a hem 40 on the mounting foot 2. On the front mounting leg 2, on the right and left sides of the stabilizing element 4, projecting bearing surfaces 11 are arranged, against which the toolbox 1 rests when the mounting leg 2 is folded (see fig. 3). As shown in fig. 17, for example, a foot joint 41 is formed on each mounting foot 2 in order to unfold the mounting foot 2 by a rotational movement. The articulation fitting 42 is designed in the form of a sliding block, which in the use position is pushed into a rail 43 formed on the base body 20 of the tool kit 1 and is preferably detachably fixed by means of a fixing means not shown in detail.

In the folded state, the toolbox 1 rests on its rear area on conveyor wheels 10 with components on both sides. The two conveyor wheels 10 each comprise an internal support roller 15, which is covered by an active tire 16 made of solid rubber. The transport wheels 10 are rotatably supported on the toolbox 1 by their respective axles 12. The conveying wheel 10 is supported only on the inside.

A plurality of handles are built on the toolbox 1. A handle 31 is built on the right side 44 of the toolbox 1 opposite the left side 52 of the toolbox 1, and a handle 31 is also built on the front face 45. Furthermore, the tool box 1 has a carrying handle 8. The carrying handle 8 extends along almost the entire length of the toolbox 1. The carrying handle 8 is mounted movably in a handle guide 13 formed on the bottom side 46 of the tool box 1. For this purpose, a plate 69 is mounted on the bottom side 46 of the tool box 1 at a distance from the base 70 of the tool box 1. In the embodiment shown here, the plate 69 is removably mounted on the base 70. However, the plate 69 may also be connected non-detachably to the base 70 or even be formed integrally with this base. During the production of the base body 20, the plate 69 can already be produced together with the base body, for example as part of the base body. If the carrying handle 8 is pulled out forward by its grip 54 with the opening 55 for the handle, the toolbox 1 can be carried easily with the mounting feet 2 folded. Fig. 13 shows a state in which the carrying handle 8 is partially pulled out.

The plane in which the carrying handle 8 can move extends close to the axle 12. In the embodiment shown here, the distance between the aforementioned plane and the wheel axle 12 is less than half the radius of the conveyor wheel 10. In the embodiment shown here, the conveyor wheel 10 is larger and has a diameter of 18cm compared to conventional conveyor wheels. Based on the proximal guidance of the carrying handle 8 and the size of the carrying wheel 10, the tool case 1 is very well suited for being carried on a rolling basis upstairs and downstairs.

The carrying handle 8 can also be pulled out by means of the handle guide 13 on the rear side 47 of the tool box 1. For this purpose, a ladder 7 is constructed on the transport handle 8 opposite the handle opening 55 of the transport handle 8 suitable for transport. The ladder 7 has an opening 49 for gripping in order to pull the ladder 7 from the toolbox 1 from the back.

If the mounting feet 2 are unfolded and the ladder 7 is pulled out, the toolbox 1 can be stepped on, in a first step on the ladder 7 and then in a second step on the top side 6 of the toolbox 1 built as tread 17. In this case, the toolbox 1 is constructed in such a way that a person weighing not more than 150kg can step on the toolbox 1.

In order to be able to withstand such loads, a reinforcement 18 is built on the top side 6 and in particular on the top cover 19. The reinforcement 18 is built up in the inner space 39, in particular by changing the shape of the top side 6. The recess 21 is formed on the outside by the reinforcing member 18. The recess 21 is formed by two groove-like notches on the left and right. For example, a pipe or the like may be inserted into the recess 21. On the one hand, these pipes are prevented from moving sideways by the recess 21, and furthermore, different scales 22 are engraved in the recess 21, which allow length measurements to be made. The recess 21 is led out on a side 23 of the top side 6 of the tool box 1 in a region protruding relative to a wall 24 built on the side 23 of the top side 6. Therefore, the recesses 21 extend over a longer range than the region of the toolbox 1 between the recesses 21.

The tread 17 on the top side 6 of the toolbox 1 is provided with a non-slip coating 26.

At the projecting region where the recess 21 projects, a support surface 25 is constructed on the outside of the toolbox 1, so that the toolbox 1 can also be mounted edgewise.

The transport wheel 10 is opposite the base body 20 on the bottom side 14 and the rear side 47 of the tool box 1.

In an alternative embodiment, the projecting and/or deploying means 9 are coupled with locking means of the carrying handle 8, so that the mounting feet 2 cannot be pulled out when they are mounted.

It is not explicitly shown that in the embodiment shown here, locking members 5 are constructed which lock the mounting foot 2 in the folded position as well as in the unfolded position. In an alternative embodiment of the toolbox 1 according to the present invention, it is not necessarily provided with such locking members 5.

In an alternative embodiment, a locking member may also be constructed for locking the ladder 7 pulled out. This is achieved in the embodiment shown here in different ways, so that the length of the ladder 7 can be adjusted, in particular depending on the degree of pull-out.

In the embodiment shown here, the length of the mounting foot 2 itself cannot be changed. In an alternative initial example, the length of the mounting foot 2 can be varied, for example by means of a telescopic mechanism.

The toolbox 1 shown in fig. 1 to 19 has a plurality of holding rails 33 in its inner space 39, which hold the joints 34. As shown, for example, in fig. 20 and 21, a spacer 35 for receiving a tool may be secured to the joint 34. The knuckle 34 includes a knuckle 50 for receipt and a clip 36 that may be clipped into the knuckle 50. The gasket 35 may be fixed to the clip 36. For this purpose, the clip 36 can have holes 53, for example, into which fixing means (for example rivets or screws) for the spacers 35 can be inserted. The joint part 50 to be received is cylindrical on the inside and has a joint part opening 51 formed as a slot on its top side, into which opening the insert 35 for receiving a tool can be inserted. In this case, the openings 51 of the joint elements are oriented transversely to the plane described by the clamped and stored padding 35.

The kit 1 has an axle stabilizer 32 for relieving the load of the axle 12. The wheel axle stabilizer 32 is preferably composed of a plastic part 57, which is advantageous because the plastic is lightweight. However, the axle stabilizer 32 can also consist of more than one element and can also be made of another material or partly of another material, for example of metal. Metal is heavier than plastic, but is also more stable.

The axle stabilizer 32 rests with its inner side 58 partially against the outer side of the housing 38, so that forces acting on the axle 12 can be absorbed effectively by the housing 38. Furthermore, the axle stabilizer 32 is also connected to the housing 38 by its upper outer edge 59 in order thereby to relieve the axle 12 of load.

In the embodiment shown here, the wheel axle 12 and the foot joint axis 60 are not superposed on one another, but are arranged offset from one another in parallel. For the foot joint axis 60, a hole 56 is provided in the wheel axle stabilizer. In an alternative embodiment, the two axes 12, 60 may also coincide with each other.

The tool case 1 shown in fig. 20 to 23 has a compartment 61 which is completely enclosed on the inside. The compartment 61 can be constructed, for example, in the manner already described in detail above. Specifically, the lattice layers 61 shown in fig. 20 to 23 have housings 62 closed at the top side, the left side, the right side, and the rear side. The housing 62 has wings 66 on the outside, by means of which the housing 62 can be fixed on the bottom 67 of the tool case 1 by means of fixing members 65 (e.g. screws). After fixing, the lattice layers 61 are opened only toward the front. An object such as a laptop or a document can be placed into compartment 61 from the front. In order to be able to close the compartment 61 also toward the front, the open side of the compartment 61 located on the housing 38 is provided with an opening 68 in the housing. The opening 68 in the housing may be closed by means of a removable and/or flip-open plaque 63 on the toolbox 1. To open and close the trim plate 63, a locking member 64 is provided, for example a bayonet connection inserted in the trim plate 63.

The tool case 1 described above can be used in particular as an insulating mat. Thus, when the toolbox 1 is placed on such a mounting foot, the tread 17 is insulated against the bottom, especially in any configuration of mounting feet 2.

In summary, the utility model relates to a height-adjustable tool box 1, which is provided with mounting feet 2 whose position can be changed.

List of reference numerals

1 tool case

2 mounting support leg

3 angle

4 stabilizing element

5 locking member

6 top side of tool case

7 step ladder

8 conveying handle

9 extending and/or spreading device

10 conveying wheel

11 bearing surface

12 wheel axle

13 handle guide device

14 side of tool box

15 idler

16 active tyre

17 Tread

18 Reinforcement

19 Top cover

20 base body

21 concave part

22 graduation

23 sides of the top side of the tool box

24 wall part

25 bearing surface

26 anti-slip coating

28 first height

29 second height

30 closure

31 handle

32 wheel axle stabilizer

33 holding rail

34 joint

35 liner

36 clip

38 casing

39 inner space

40 wrapping edge

41 foot joint

42 Joint mating Member

43 track

44 right side

45 front side

46 bottom side

47 back side

49 opening of grip

50 joint part

51 opening of joint member

52 left side of

53 holes

54 grip portion of conveying handle

55 handle opening

56 holes in axle stabilizer

57 Plastic part

58 inner side of the plastic part

59 outer edge

60-leg joint shaft

61 lattice layer

62 casing of check

63 decorative board

64 locking member

65 fixing member

66 wing part

67 bottom

68 opening in the housing

69 plate member

70, a base.

Claims (20)

1. A toolbox (1) by means of which the toolbox (1) can be mounted on a first height (28) by means of mounting legs (2), characterized in that the position of the mounting legs (2) can be changed so that the toolbox (1) can be mounted on a second height (29).

2. A toolbox (1) according to claim 1, wherein the mounting feet (2) can be unfolded and/or extended.

3. A toolbox (1) according to claim 1, characterized in that at least four mounting feet (2) are constructed on four corners (3) of the toolbox (1).

4. A toolbox (1) according to claim 3, characterized in that the mounting legs (2) are connected to each other in pairs by stabilizing elements (4).

5. A toolbox (1) according to claim 1, characterized in that locking members (5) are constructed, said locking members (5) locking the mounting foot (2) in a first position, in a folded and/or retracted position, and/or in a second position, in an extended and/or extended position.

6. A toolbox (1) according to claim 1, characterized in that a drawable and/or deployable ladder (7) is constructed movably arranged below the top side (6) of the toolbox (1).

7. A toolbox (1) according to claim 6, wherein the ladder (7) is built in a pull-out carrying handle (8) and/or the ladder (7) is pulled out by pushing the carrying handle (8) under the toolbox (1) opposite to the pull-out direction of the pull-out carrying handle (8).

8. A toolbox (1) according to claim 6 or 7, characterized in that a locking member (5) for locking the ladder (7) pulled out is constructed.

9. A toolbox (1) according to claim 7, wherein the projecting and/or unfolding means (9) of the mounting foot (2) is coupled with a locking means of the carrying handle (8) which can be pulled out, so that the carrying handle (8) cannot be pulled out when the mounting foot (2) is mounted.

10. The toolbox (1) according to claim 1, characterized in that the mounting feet (2) are arranged in a manner relative to each other and constructed in a manner such that the toolbox (1) lies flat on the folded and/or retracted mounting feet (2) and simultaneously on at least one transport wheel (10), wherein a protruding support surface (11) is constructed on at least one mounting foot (2), on which support surface (11) the toolbox (1) is located.

11. A toolbox (1) according to claim 1, characterized in that the length of the mounting foot (2) is changed by means of a telescopic mechanism or another pulling or folding mechanism.

12. A toolbox (1) according to claim 1, wherein the toolbox (1) has one pull-out carrying handle (8) and at least one carrying wheel (10) with a radius, the carrying wheel (10) is rotatably supported about an axle (12), the carrying handle (8) is guided in a handle guide (13) in a plane, and the distance of the plane from the axle (12) is at most 2/3 of the radius.

13. A toolbox (1) according to claim 12, wherein the transport wheels (10) protrude on at least two sides of the toolbox (1).

14. A toolbox (1) according to claim 12 or 13, wherein the transport wheels (10) are supported on the toolbox (1) only on the inner side.

15. The toolbox (1) according to claim 6, characterized in that the top side (6) of the toolbox (1) is built as a tread (17) with reinforcements (18) built on the inside of the top side (6) and/or the top side (6) is made of a top cover (19) of the toolbox (1), which top cover (19) is placed on a base body (20).

16. A toolbox (1) according to claim 15, characterized in that at least one internally built reinforcement (18) is formed by changing the shape of the top side (6) of the toolbox (1) such that a groove-like recess (21) is built on the outside of the top side (6), wherein the recess (21) has an embossing or embossing of one scale (22) or a plurality of scales (22).

17. The toolbox (1) according to claim 16, characterized in that said recess (21) is led out laterally on a side face (23) of the top side (6) in an area protruding with respect to a wall portion (24) built on said side face (23) of the top side, on the top side (6) in which area a support face (25) for mounting the toolbox (1) is built.

18. A toolbox (1) according to claim 6, wherein the top side (6) partially or completely has a non-slip coating (26), the non-slip coating (26) being built on a transparent layer which may be printed on the back side.

19. A toolbox (1) according to claim 1, wherein the toolbox (1) may have a lattice (61), the lattice (61) being completely enclosed inside and accessible from the outside through an opening (68) in the housing, the lattice (61) being detachably connected with the toolbox (1).

20. A toolbox (1) according to claim 1, characterized in that a receiving joint (50) with a gripping opening (49) is constructed in the inner space (39) of the toolbox (1), a pad (35) for receiving a tool can be clamped into the joint opening (51), and the joint opening (51) is oriented transversely to the plane described by the clamped and stored pad (35).

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