SWITCHGEAR CABINET OR RACK FOR ACCOMMODATING ELECTRICAL ENERGY STORES, IN PARTICULAR BATTERIES, AND A CORRESPONDING SWITCHGEAR CABINET ASSEMBLY OR RACK ASSEMBLY

Abstract

The invention relates to a switch cabinet or rack or rack for receiving electrical energy storage units, in particular batteries, whereby the switch cabinet or the rack has a plurality of energy storage unit slots arranged above one another, so characterized in that the energy storage unit slots are formed by a plurality of grooves, whose longitudinal and slide-in direction extends in the depth direction of the switch cabinet or rack, whereby in each case a pair of grooves are set up on the opposite lying sides of the switch cabinet or rack at the same vertical height and with their open longitudinal side directed toward one another.

Claims

1.-10. (canceled)

11. Switch cabinet or rack for receiving electrical energy storage units, in particular batteries, whereby the switch cabinet or the rack has a plurality of energy storage unit slots arranged above one another, comprising wherein the energy storage unit slots are formed by a plurality of grooves, whose longitudinal and slide-in direction extends in the depth direction of the switch cabinet or rack, and whereby in each case a pair of grooves is set up on the opposite lying sides of the switch cabinet or rack at the same vertical height and with the open longitudinal side directed toward one another, so characterized in that the energy storage unit slots in each case have a ground contact in their back end in the slide-in direction, which contacts a ground contact of an energy storage unit, whenever the particular energy storage unit is in a completely slid-in position, whereby the switch cabinet or the rack also has an electric conducting frame structure, to which the also electrically conducting energy storage unit slots, in particular the mounting chassis forming the energy storage unit slots, are assembled and electrically contacted, whereby the ground connections are in electrical contact with the energy storage unit slots, in particular with the mounting chassis.

12. Switch cabinet or rack according to claim 11, in which the energy storage unit slots are formed of a plurality of sides of the switch cabinet or rack arranged vertically above one another on the mounting chassis, and are mounted at a vertical distance from one another that determines a groove width perpendicular to the slide-in direction.

13. Switch cabinet or rack according to claim 12, in which the mounting chassis on their parallel longitudinal sides extending in the depth direction in each case have a beveled unit flange in the direction of the particular opposite lying side of the switch cabinet or rack.

14. Switch cabinet or rack according to claim 13, in which the unit flanges are set up as pairs against the opposite mounting chassis at the same vertical height, and whereby in each case one of the grooves between the beveled unit flanges is formed directly above the following mounting chassis.

15. Switch cabinet or rack according to claim 12, which also has a frame structure with four equally long vertical ledges and four equally long depth edges, from which in each case two vertical ledges and two depth ledges are connected in each case to a rectangular frame, which form the opposite lying sides of the switch cabinet or rack, whereby the vertical ledges have on a mounting side a system of holes of mounting recesses at a regular distance from one another, and whereby the mounting chassis are attached to the opposite lying ends with in each case one of the vertical ledges of one of the rectangular frames.

16. Switch cabinet and or rack according to claim 11, in which the ground connection has an electric conducting contact plate with a fastening section, through which the contact plate is attached electrically conducting to one of the mounting chassis, whereby the contact plate also has a free end, which is mechanically movable against the fastening section and which has a contact claw for electrical contact of the ground contact of the energy storage unit.

17. Switch cabinet or rack according to claim 16, in which the energy storage unit slots each have a pause position, which set a completely slid-in position of an energy storage unit, whereby in the pause position the free end of the contact plate lies over the at least one contact claw bootable to the ground contact of the energy storage unit, in order to electrically contact the ground connection.

18. Switch cabinet or rack according to claim 11 in which the frame structure is made of unlacquered, electrically conducting ledges, or of unlacquered, electrically conducting coated ledges, in particular galvanized ones.

19. Switch rack or rack set up with a switch cabinet or rack according to one of the prior claims and a plurality of electrical energy storage units, whereby the electrical energy storage units have on opposite sides in each case a fastening flange stretching in the depth direction of the energy storage unit, through which the electrical energy storage units in each case are slid in on a pair of opposite lying grooves of one of the energy storage unit slots.

20. Switch cabinet or rack set up according to claim 19, in which the energy storage unit has a horizontal width without consideration of the fastening flanges, which essentially corresponds to a very slight width of the energy storage unit slots, and whereby the energy storage units have a vertical height that essentially corresponds to a vertical distance of the grooves, so that a maximum packing density in the vertical and horizontal direction is achieved.

21. Switch cabinet or rack according to claim 13, which also has a frame structure with four equally long vertical ledges and four equally long depth edges, from which in each case two vertical ledges and two depth ledges are connected in each case to a rectangular frame, which form the opposite lying sides of the switch cabinet or rack, whereby the vertical ledges have on a mounting side a system of holes of mounting recesses at a regular distance from one another, and whereby the mounting chassis are attached to the opposite lying ends with in each case one of the vertical ledges of one of the rectangular frames.

22. Switch cabinet or rack according to claim 14, which also has a frame structure with four equally long vertical ledges and four equally long depth edges, from which in each case two vertical ledges and two depth ledges are connected in each case to a rectangular frame, which form the opposite lying sides of the switch cabinet or rack, whereby the vertical ledges have on a mounting side a system of holes of mounting recesses at a regular distance from one another, and whereby the mounting chassis are attached to the opposite lying ends with in each case one of the vertical ledges of one of the rectangular frames.

Description

DRAWINGS

[0021] The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure.

[0022] Further details of the invention are discussed on the basis of the figures below. These show:

[0023] FIG. 1 A switch cabinet in perspective presentation according to one embodiment of the invention;

[0024] FIG. 2 A detailed view of the switch cabinet according to FIG. 1, which better shows the energy storage unit slide-in slots; and

[0025] FIG. 3 A detailed view of the contact connection of the embodiment according to FIGS. 1 and 2.

DETAILED DESCRIPTION

[0026] Example embodiments will now be described more fully with reference to the accompanying drawings.

[0027] FIG. 1 shows a switch cabinet 1 according to one embodiment of the invention. The switch cabinet 1 has a frame structure 8, which is made of four vertical ledges 8.2 and four horizontal ledges 8.3. At each of the eight corner points of the frame 8, there come together at a right angle to each other a vertical ledge 8.1, a depth ledge 8.2, and a width ledge 8.3. The frame structure is clad in each case with a side piece 15, one on each facing side 4. On the bottom the frame structure 8 is clad with a floor pan 19, on the top with a covering element 20, and behind with a back wall 21. A switch cabinet door 18 is fastened to be swingable on the front side to the frame 8 using hinges 13.

[0028] On the opposite sides 4 of the switch cabinet 1 on the inside on the side walls 15 in each case is a plurality of mountings 5 mounted vertically above one another, which with the grooves 3 form between them a plurality of energy storage unit slide-in slots 2, through which the energy storage units can be slid in from the door side front side of the switch cabinet 1 in the depth direction x of the switch cabinet.

[0029] The energy storage unit slide-in modules 2 formed by the mounting chassis 5 are shown more closely in FIG. 2. FIG. 2 allows one to see that the mounting chassis 5 have a beveled unit flange 7 on the longitudinal sides 6 stretching in the lengthwise direction, whereby an interval is created between the chassis 5 vertically adjacent to unit flanges, which forms precisely the groove 3 for the slide-in of the energy storage unit.

[0030] The mounting chassis are formed essentially as parts of metal plates, whereby a central section 5.1, which is arranged parallel to the sides 4 of the switch cabinet 1 (cf. FIG. 1), above the end side supporting sections 14 in the lengthwise direction, which are beveled by the central section 5.1, is attached to the vertical ridges 8.1. The vertical ridges 8.1 for this have a mounting side 9 with a system of holes 10 of regularly separated mounting recesses. It is in particular planned that the mounting chassis 5 be a piece of metal plate made of electrically conducting material, whereby the mounting chassis 5 continues to be attached as an electrical conductor to the vertical ledges 8.1, and that the vertical ledges 8.1 are electrically conducting, so that an electric conducting connection is created between the mounting chassis 5 and the frame 8 of the switch cabinet 1.

[0031] The unit flanges 7 are beveled from the central section 5.1 on the longitudinal sides 6 of the central section 5.1, which with their free end extend into the interior of the switch cabinet and in the direction of the mounting chassis 5 that lies opposite. In this way the adjacent unit flanges 7 in the vertical direction of the mounting chassis 5 directly above one another form a groove for the insertion of an electric energy storage unit. A pause element 16 is set up as a clamp on one of the front ends of the central section 5.1 in the insertion direction, with the support of which a pause position of the energy storage unit can be set, in which the energy storage unit is in the completely slid-in position and is thus secured against an undesired shove in the slide-in direction x.

[0032] The pause element 16 is designed for mounting and disassembly without tools of the battery slide-in slots, for which the clamp has a leading angle piece, which moves over into a pause projecting element, which through pressure on the leading angle piece can be bootable out of its closing position into a release position. Upon sliding in of an energy storage module, the leading angle piece is pressed in from a side wall of the energy storage module, so that the pause projecting element can be brought forward to the side wall. If the energy storage module achieves its end position or pause position, the clamp can move into the closing position based on its bootable state, in which the bootable pause item can be grasped in a corresponding recess in the side wall of the energy storage module and the energy storage module can be set. For again releasing the energy storage module, the leading angle pieces of the clamp can be activated manually in order to transfer the bootable pause from the closing position to the release position.

[0033] A ground connection 11 is set up on the opposite, back-side end of the central section 5.1 of the mounting chassis 5. This is presented more closely in FIG. 3. The ground connection 11 accordingly has an electric conducting contact plate 12, which is fastened with a fastening section 12.1 to the central section 5.1 of the mounting chassis. In the embodiment according to FIG. 3, this occurs using two rivets 17. It is however suitable for any other fastening means that is suitable for an electric conducting connection of the ground connection 11 to the central section 5.1 of the mounting chassis 5. A free end 12.2 of the contact plate 12 extends from the fastening section 12.1, which is mechanically bootable opposite the fastening section 12.1 and which has three contact claws 12.3 for electrical contact of a ground contact of an energy storage unit.

[0034] The contact plate 12 can be formed as a simple metal form section. Thereby the position of the free end 12.2, in particular the contact claws 12.3, is laid out in a way that the contact claws 12.3 in the fully slid-in status of an electric energy storage unit are mechanically bootable and contact the ground contact of the energy storage unit.

[0035] The foregoing description of the embodiments has been provided for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure. Individual elements or features of a particular embodiment are generally not limited to that particular embodiment, but, where applicable, are interchangeable and can be used in a selected embodiment, even if not specifically shown or described. The same may also be varied in many ways. Such variations are not to be regarded as a departure from the disclosure, and all such modifications are intended to be included within the scope of the disclosure.