RU2317618C2 - Switchgear supporting cable structure - Google Patents

Abstract

FIELD: supporting cable structures for fixing plurality of switchgear lead-in cables.

SUBSTANCE: proposed supporting cable structure for switchgear S incorporating switchgear cubicle accommodating power switch has supporting plate G with cable terminal surface FG. Provision is also made for first terminal board M1 that has terminal surface FM1 in essence identical with supporting plate G. First terminal board M1 can be joined with supporting plate G by means of at least two bolts B1, B2 so that lead-in cables L1, L,L2, L3, L4 running between terminal surfaces FG, FM1 of supporting plate and terminal board are disposed and fixed together to release tensile stresses. Two bolts B1, B2 are stud-bolts. One more terminal board M2 is also provided and connected to first terminal board M2 by means of bolts B3, B4. Other subject-matter of claimed group of inventions is use of supporting cable structure in switchgear S provided with switch-accommodating cubicle.

EFFECT: enhanced economic efficiency, facilitated installation and wiring.

6 cl, 2 dwg

Description

The present invention relates to a supporting cable structure for switchgears. In particular, the present invention relates to a supporting cable structure for fixing a plurality of supply cables in a switchgear according to the preamble of claim 1.

Switchgears and especially switchgears comprising chambers with a circuit breaker have a plurality of supply cables which must be fixed in a suitable manner in the switchgear. The unloading caused by the tensile forces caused by this ensures reliable fastening of these cables to the actual electrical clamping contacts of the circuit breakers.

To fix the individual supply cables for unloading from the pulling forces, the cable clamps are usually fastened to the base plate of the supporting cable structure so that the lead cable passing between the cable clamp and the base plate is clamped. Depending on the number of supply cables, then the corresponding number of brackets for securing the cables should be attached to the base plate of the supporting cable structure. Such brackets for fastening cables due to their shape, in particular due to their mounting plates, require a large area, which with a large number of supply cables can lead to problems of area in the switchgear. In addition, today, depending on the manufacturer, there are many different brackets for attaching cables and fasteners, which also vary depending on the diameter of the clamped supply cables. Thus, the technician, when installing the switchgear for fixing the cables, must have, accordingly, a large number of different tools, brackets for attaching cables and fasteners, which makes installation thereby requiring large expenses.

It is therefore an object of the present invention to provide a load-bearing cable structure which, even with a large number of supply cables, is economical in terms of area and also makes simple installation possible.

This problem is solved by the supporting cable structure with the features of paragraph 1 of the claims.

Due to the fact that the supporting cable structure comprises a first clamping plate with a clamping surface essentially identical to the base plate, and due to the fact that this first clamping plate is connected by at least two bolts to the base plate so that supply cables passing between the clamping surfaces of the support and clamping plates are arranged and fixed in layers next to each other, with the help of the supporting cable structure according to the invention, clamping p dvodyaschih cables. Since, by means of bolts, the clamping plate is always connected to the base plate so that sufficient cable fixing is achieved, the same supporting cable structure can also be used to fix the supply cables with different diameters. So the same supporting cable structure can be used, for example, in different switchgears, in which the first switchgear uses lead-in cables with a first diameter, and in another switchgear, lead-in cables with a second diameter are used. Thus, the same tools and fasteners are always required during installation, which makes installation easier.

Preferably, the supporting cable structure comprises two guides to which the base plate can suitably be attached and with which the first terminal plate is guided so that it can be moved parallel to the base plate. Preferably, the guides are made in the form of parts of the housing of the switchgear and, in particular, in the form of tires. Thus, the supporting cable structure can already be prefabricated together with the housing, that is, the base plate is attached to the rails and the terminal boards are freely bolted to the base plate. To fix the supply cables, then it is only necessary to insert the cables between the base plate and the clamp plate guided through the rails, and finally only bolt together the two plates so tightly that the supply lines are clamped. Thus, the installation costs of the switchgear are significantly reduced, since no additional mounting materials should be provided for fixing the supply lines here, such as cable clamps or fasteners.

With a large number of supply lines or also with different cable diameters of the supply lines in one type of switchgear, it is advantageous to provide support cable structures with several clamping plates. For this purpose, at least one next clamping plate is provided, which has a clamping surface substantially identical to the first clamping plate and which is connected by at least two bolts to the support plate so that the supply cables laid between the clamping surfaces of the first and next clamping plates are arranged and are fixed next to each other. Then the supporting cable structure in the first layer between the base plate and the first clamping plate can be fixed supply cables with a first diameter, and in the second layer between the first and second clamping plate - supply cables with a second diameter. In addition, the layers are mounted directly on top of each other, which, even with a large number of supply lines, is economical in terms of area.

If nuts are provided on the base plate and clamping plates for fastening the bolts, preferably in the form of stud bolts, then with a corresponding pair of boards and bolts, a plurality of supply cables can be combined and fixed. After this, the layers are then bonded to each other using the following bolts. This allows you to combine and pull together the individual supply cables into layers even before they are introduced into the switchgear and fixed there using a supporting cable structure.

If the base plate and the following clamping boards have many identical perforations for the passage of the bolts, then the bolts can be installed universally anywhere on the base plate and the clamping boards and thereby connect these boards accordingly. Thus, the mount can be flexibly adapted to the number or also the thickness of the cables, which must be fixed in one layer between the two boards.

Further advantageous forms of execution and preferred forms for the further development of the invention follow from the dependent claims.

The invention, as well as advantageous forms of carrying out the invention, are hereinafter described in more detail using the following figures. At the same time, they show:

Figure 1 - switchgear with a first form of execution of the supporting cable structure;

figure 2 - switchgear with a second form of execution of the supporting cable structure.

Figure 1 shows a part of the housing of the switchgear S. Here, the housing of the switchgear S has an opening here at its base through which lead-in cables L1-L7 are connected to the switchgear S. In the case itself, then these cables L1-L7, which, however, not shown here, are connected to the corresponding contacts, for example, to the electrical contacts of the individual power switches of the switchgear chamber containing the power switch. In order to achieve relief from tension forces, the switchgear S in the shown exemplary embodiment comprises a cable support structure on the hole that can be fixed, that is, fixed to the switchgear S, supply cables L1-L7.

According to the present invention, the cable support structure comprises a support plate G, which has a clamping surface FG for cables. Further, the supporting cable structure includes a first clamping plate M1, which has a substantially identical mounting plate G, a clamping surface FM1. The substantially identical cable glands FG and FM1 are ultimately determined by the available space in which the lead-in cables can pass through the cable support structure. In Figure 1, these surfaces FG and FM1 are shown shaded. In addition, at least two bolts B1 and B2 are provided, which are preferably in the form of stud bolts. With these bolts B1 and B2, then the first clamping plate M1 is connected to the base plate G so that the lead-in cables L1, L2, L3 and L4, passing between the clamping surfaces FG and FM1 of the base plate and the clamping plate, are located next to each other and fixed in this position. Since these lead-in cables have approximately the same diameter, reliable fixation of the lead-in cables is achieved and thus a suitable strain relief in the switchgear. The connection of the boards G and M1 then occurs, for example, due to the fact that on the boards G and M1 the corresponding threads for the stud bolts are provided, and by means of the stud bolts inserted into the threads, the boards are screwed so that the supply cables L1-L4 are clamped between the boards. These threads on the G and M1 boards, however, can also be nuts secured to these boards. In addition, the connection between the G or M1 board with bolts B1 or B2 can occur due to the bolts being inserted through the corresponding perforations in the G and M1 boards and through the nut and lock nut respectively rigidly connected to those of the G or M1 boards. The specific embodiment shown in Figure 1 has elongated holes in the boards G, M1, and M2 as perforations. They serve mainly to coordinate the position of the bolts with clamped supply cables.

In the embodiment shown in FIG. 1, the following clamping plate M2 with a clamping surface FM2 is provided. Thus, then, in the second layer, it is possible to fix, i.e. clamp, the lead-in cables L5-L7 between the first M1 and the next M2 clamping plate. In this way, the supporting cable structure in switchgear S can be fixed in several layers with a space saving as well as a large number of supply cables. Different layers can also be used to securely fix cables with different diameters in different layers. So, for example, the supply cables L1-L4 may have a first diameter, and the supply cables L5-L7 may have a different diameter.

The next stage of use with additional clamping plates for the following supply cables is shown in dashed lines in Figure 1. In the example shown in Figure 1, the terminal boards G, M1, M2, etc. interconnected through two common bolts B1 and B2. The following bolts, as shown in Figure 1, can be provided so that in the case of wide clamping surfaces FG, FM1, FM2, additionally connect the boards also between adjacent supply cables to increase the stability of fixation.

Figure 2 shows the following exemplary embodiment of a support cable structure according to the invention. The base plate G, the first terminal board M1 and the next terminal board M2 are provided here. Between the base plate G and the first terminal board M1, lead-in cables L1-L4 pass, and between the terminal plate M1 and the terminal board M2 lead-in cables L5 and L6. In contrast to the exemplary embodiment shown in FIG. 1, four bolts B1-B4 are provided here, as well as two nuts MV1 and MV2 on the base plate G and two nuts MV3 and MV4 on the first terminal plate M1. The first clamping plate M1 is connected by bolts B1 and B2, as well as by the nuts MV1 and MV2, to the base plate G so that the supply cables L1-L4 can be fixed accordingly. The second clamping plate M2 is connected by bolts B3 and B4, as well as by the nuts MV3 and MV4, to the first clamping plate M1 so that the supply cables L5 and L6 are respectively fixed. This form of execution allows then that first, for example, the first layer of cables, namely L1-L4, which have a common first diameter, is fixed in the supporting cable structure, and only after that the next layer with the supply cables L5 and L6. Thus, during installation, it is possible to simplify the fixing of cables, since not all cables must immediately be routed through the supporting cable structure and tightened.

As was also mentioned in connection with the first exemplary embodiment, in the second exemplary embodiment, the third and also the following clamping boards can also be defined, which, via the following bolts, are respectively connected to the adjacent clamping plate.

In addition, the supporting cable structure according to the invention, as shown in FIG. 2, may also comprise several support plates and clamp plates fixed thereon. In particular, the features of the two exemplary embodiments described and shown in Figures 1 and 2 can also be combined with each other without problems. So, for example, the third clamping plate can be fixed with two bolts on the second clamping plate. This second clamping plate then, together with the first clamping plate, can be secured through the next two bolts to the base plate. Furthermore, in addition to the described embodiment in the form of a stud bolt, the bolts may also have other suitable shapes, for example, the shape of a clamp bolt. Thus, one can also imagine many other forms of execution, if only the basic idea of the proposed invention is fulfilled, namely, clamping a plurality of supply cables with space saving and in a simple manner layers between the boards.

Claims (6)

1. The supporting cable structure for fixing a plurality of supply cables (L1, L2, L3, L4) in a housing with a support plate (G) and with a first clamping plate (M1), which has an identical clamping surface (FM) of the supporting plate (FM1) and which is connected to the base plate (G) by at least two screws (B1, B2) so that the lead-in cables (L1, L2, L3, L4) passing between the clamping surfaces (FG, FM1) of the base plate and the terminal plate and are fixed next to each other, while the first clamping plate (M1) is guided and moved in parallel but a support plate (G), characterized in that two rail-shaped guides (Al, A2) are provided, which are parts of the switchgear housing (S). 2. The supporting cable structure according to claim 1, characterized in that the said at least two bolts (B1, B2) are stud bolts. 3. The supporting cable structure according to any one of the preceding claims 1 or 2, characterized in that at least one next clamping plate (M2) is provided, which has a clamping surface (FM2) substantially identical to the first clamping plate (M1), and which is connected to the base plate (G) by at least two screws (B1, B2) so that the supply cables (L5, L6, L7) passing between the clamping surfaces (FM1, FM2) of the first (M1) and the next ( M2) clamping plate, are located and fixed next to each other. 4. The supporting cable structure according to claim 2, characterized in that the base plate has two nuts (MV1, MV2) for fastening two bolts (B1, B2), and the first clamping plate (M1) has two nuts (MV3, MV4) for the fastening of the next two bolts (B3, B4), and that the next clamping plate (M2) is provided, which has a clamping surface (FM2) substantially identical to the first clamping plate (M1), the next clamping plate (M2) being connected to the first clamping plate (M1) with the following two bolts (B3, B4) so that the supply cables (L5, L6, L7) passing between the clamping surfaces The flanges (FM1, FM2) of the first (M1) and next (M2) clamping boards are located and fixed next to each other. 5. The supporting cable structure according to claim 4, characterized in that the support plate (G) and the following clamping plates (M1, M2) have many identical perforations for the passage of bolts (B1, B2, B3, B4). 6. The use of the supporting cable structure according to any one of the preceding claims 1 to 5 in switchgears (S), the switchgear (S) having a switchgear chamber with a power switch.

Images