DE3546011A1 - Gas-insulated electrical device - Google Patents

Abstract

The invention relates to a gas-insulated electrical device, consisting of annular coupling devices in the form of flanges, each flange having a plurality of holes for attachment bolts and branching pipes which are arranged in a direction differing from the direction of the flanges, a device being provided for easy assembly of the containers. <IMAGE>

Description

Gas-insulated electrical device

The invention relates to a gas-insulated, electrical device, according to the preamble of claim 1.

The present invention relates generally to an improvement in a Gas-insulated electrical device and in particular a gas-insulated electrical device Switching device which is easy to assemble.

A typical conventional, gas-insulated, electrical switching device has the structure shown in FIG. Fig. 1 shows a side view of a conventional one Gas-insulated, electrical device. Each container la, lb, lc or ld in which electrical devices in the form of switches or busbars are provided Flanges 2 with larger bores 202 and smaller bores 201 and is with a other container connected via bellows. The bellows 4a, 4b, 4c or 4d have flanges 6 with smaller bores 601. Insulated spacers 5a, 5b, 5c or 5d, for example made of epoxy resin, have larger threaded holes 501 and smaller Holes 502.

The conventional gas-insulated electrical devices are used in the manner shown in Figs. 5 to 7 mounted. As shown in Fig. 5, the insulated spacer 5a is fastened to the flange 2 by means of bolts 7. the Bolts 7 are located in the larger bores 202 of the flange 2 and are in screwed into the threaded hole 501. The next step, as shown in Fig.

6, the flange 6 of the bellows 4a with the spacer 5a connected by means of bolts 8a and nuts 8b.

The bolts 8a are located in the smaller bores 601 of the flange 6, the smaller bores 502 of the insulated spacer 5a and the smaller one Bores 201 of the flange 2 and are fixed by nuts 8b.

Next, the bolts 7 are to be dismantled. Then, as in Fig. 7 shown, bolts 9 in the smaller bores 601 of the flange 6, the larger threaded bores 501 of the spacer 5a and the larger bores 202 of the flange 2 introduced. Each threaded hole 501 has an inside diameter which is large enough for the bolts 9 to pass through.

In the known gas-insulated, electrical devices a considerable distance between the branch pipe 3 and the flange 2, so that for the insertion of the bolts 7 or 9 it is necessary that the container be large in size having.

Conventional gas-insulated electrical devices have a structure as shown in Fig. 8 (a sectional side view). A container la or lb is closed with a cover 702 and has a disconnector 704, 705 busbars and spacers 706. The isolated spacer 5a has a metallic ground 712 for connecting the busbar 705 and internal Busbars 716. The traditional gas-insulated electrical devices are assembled as follows: First the cover 702 is open and the busbars 716 for electrical connection are inserted in the containers la or lb. the internal busbars 716 are isolated with the metallic ground 712 of the Spacer 5b of the bolt 717 connected. In the next step, the bellows 4a with the insulated spacer 5b of the adjacent container lb by means of bolts 710 connected.

As in such gas-insulated electrical devices, the bus bars are rigidly connected to each other, so that a very precise adjustment between the tanks la and lb is required, the assembly of the gas-insulated, electrical Devices not easy.

The object of the present invention is therefore to provide a gas-insulated, to create electrical device that is easier to assemble.

This task is performed in a gas-insulated electrical device according to the preamble of claim 1 through the characterizing part of the claim 1 solved.

There is a gas-insulated electrical device according to the invention of containers with annular coupling means on both sides, each these coupling devices have a plurality of threaded bores for fastening bolts has branching pipes, which in directions deviating from the plane in which the side flanges are arranged, have, and devices for easy Assembly of the container.

Other advantages, features and uses of the present Invention emerge from the exemplary embodiment in conjunction with the drawing.

1 shows a side view of a conventional gas-insulated, electrical device.

Fig. 2 is a front view of a flange 2 of a container of a conventional one Gas-insulated, electrical device.

Fig. 3 is a front view of a spacer 5a of a conventional one Gas-insulated, electrical device.

4 shows the front view of the flange 6, the bellows of a conventional one Gas-insulated electrical device.

5 shows a schematic section of the preliminary fixation of the spacer 5a on the flange 2.

6 and 7 a schematic section of the fastening of the flange 2 of the spacer 5a and the flange 6.

8 shows a partial side view of a conventional gas-insulated, electrical device.

9 is a side view of a preferred arrangement of gas-insulated, electrical devices.

Fig. 10 is a perspective view of a container la.

Fig. 11 is a front view of a flange 2 of the embodiment of a Gas-insulated, electrical device.

Fig. 12 is a front view of the spacer 5a.

13 is a front view of a flange 6 thereof.

14 is an enlarged side view of the small threaded hole 201 of the flange 2 of the container.

15 to 17 show schematic excerpts of the fastening steps of flange 2, spacer 5a and flange 6.

18 and 19 are side views of a preferred embodiment of a Gas-insulated, electrical device.

20 shows an enlarged detail of a side view of the fastening a busbar 707.

The structure of a preferred embodiment of a gas-insulated, electrical device according to this invention is shown in Figs shown and described in detail. As shown in Fig. 9, each container has la, lb, lc or ld flanges 2 with through bores 202 and threaded holes 201, as well as branching pipes 3. The flanges 2 serve as ring-shaped coupling devices. In Fig. 14, the threaded hole 201 is shown. One container is with another Container connected by bellows. The bellows 4a, 4b, 4c or 4d have flanges 6 with continuous Bores 601. Insulated spacers 5a, 5b, 5c or 5d have threaded holes 501, through holes 502 and a metallic one Ground 712.

The gas-insulated electrical device in accordance with the The present invention is summarized and explained in Figs. 14 to 17. In Fig. 15, the isolated spacer 5a is on the flange 2 with bolts 7 attached. The bolts 7 are in the through holes 202 of the flange 2 and screwed to the threaded holes 501. In the next step, shown in Fig. 16 is the flange 6 of the bellows 4b with the insulated spacer 5a by means Bolt 8 connected. The bolts 8 are located in the through bores 601 of the flange 6, the through bores 502 of the insulated spacer 5a and are screwed into the threaded bores 201 of the flange 2. In the next step the bolts 7 are removed. Then, as shown in Fig. 17, there are bolts 9 in the through bores 601 of the flange 6 the threaded holes 501 of the Spacer 5a and the through holes 202 of the flange 2. Nuts 10 are used to fasten the bolts 9. The inner diameter of the threaded holes 501 is larger than the diameter of the bolts 9 for the implementation of the bolts 9 through the threaded holes 501.

A flange 6 of the outside of the bellows 4b (shown in the right 9) is directly connected to the container lb without the isolation spacer. The right side flange 6 of the bellows 4b is connected to the left side flange 2 of the container ld with bolts 8, bolts 9 and nuts 10. The bolts 8 are located in the through bores 601 of the flanges 6, the bellows 4 and are in the threaded holes 201 of the flanges 2 of the container 1b screwed. Bolts 9 are in the through bores 601 of the flange 6 and the through going Bores 202 of the flange 2. The nuts 10 fasten the bolts 9.

Within a further preferred embodiment of the present Device are instead of the isolated spacers 5a, 5b, 5c and bellows 4a, 4b, 4c, 4d other containers or transition sticks directly to the container la, lb, lc or ld connected.

As described in detail for the various devices the gas-insulated electrical device in connection with the present invention small dimensions, because of the large distance between the flange 2 and the branching off Tube 3 is not necessary.

Building another arrangement of a gas-insulated, electrical Apparatus according to the present invention is shown in Figs. 18-20 in the Described and illustrated in detail. Fig. 18 shows a container with a Lid 702 is closed and a circuit breaker 704, busbars 705 and Has spacers 706.

The container 1 has connecting pieces 709 on one side for receiving and insertable bus bars 707 on the other side. As shown in Fig. 20, the connector 709 has contacts 800 which are arranged on the circumference and springs 810 that compress the contacts 800 together. This gas-insulated, electric The device is assembled as described below. First is a container la arranged in a predetermined position. The other container lb is open the container la has been moved and is in the desired position Connection of the connecting pieces 709 and the busbar to be inserted 707. Then, when the ends of the inserted busbar 707 into the female connection 709 are inserted, the female connection 709 has a greater range of motion for the Busbar 707 for its introduction. The gas-insulated, electrical device according to the present invention, which is lighter is to be assembled, is then achieved because the connecting pieces to be received are there are provided with a considerable axial and radial clearance, or in one perpendicular to the axes of the connecting rails between the connecting pieces 709 and the connecting rails 707 the tolerance for insertion is large.

If, as in Fig. 9 in the dashed line in Fig.

20 shown, a container lb on both sides with two other containers la, or lc is connected, is to be exchanged, the busbar 707 in insert the connector 709. Then a spacer 706 is placed between the inserted busbar 707 and the busbar 705 inserted and bolted 712 fixed.

In the present invention, the working time is short because the The bolts can be screwed from one side.

In a further embodiment of the present invention, the Busbar 705 has a square cross-section.

Claims (6)

Gas-insulated, electrical device 1. Gas-insulated, electrical Device characterized by tanks (la, lb) with annular coupling seat devices (2) on both sides, with each plucking seat having at least several holes for Has fastening bolts and through branching pipes in one of the directions the coupling seats designed as flanges are arranged in a different direction, and through devices for easy assembly of the containers. 2. Gas-insulated, electrical device according to claim 1, characterized in that that the devices for easy assembly of the container from flanges (2) in which larger bores (202) and narrower threaded holes (201) and insulated spacers (5a, 5b, 5c) are provided with a larger threaded hole (501), and the larger Threaded holes (501) with the larger holes of the flanges (2) on both sides of the Container (la, lb, Ic) and the smaller ones Holes (502) with the larger bores (202) correspond, and that the flanges (2) of the container (la, lb, lc, ld) and the flanges (6) of the bellows (4a, 4b, 4c, 4d) are connected, and that the flanges arranged on the bellows (4a, 4b, 4c, 4d) arranged on both sides (6) are connected with insulated spacers (5a, 5b, 5c). 3. Gas-insulated, electrical device according to claim 2, characterized characterized in that isolated spacers on the flanges (2) on both sides of the container are attached, and that the flanges (6) of the bellows (4a, 4b, 4c, 4d) with bolts are connected, which are in smaller bores (502) of the flanges (6) of the bellows (4a, 4b, 4c, 4d) are located and with the smaller threaded holes (201) of the flanges (2) the container is screwed on. 4. Gas-insulated, electrical device according to claim 2, characterized characterized in that the flanges (6) of the bellows (4a, 4b, 4c, 4d) with the flanges (2) the container with bolts which are located in the narrower bores (502) of the flanges (6) of the bellows (4a, 4b, 4c, 4d) over the smaller threaded holes (201) of the flanges (2) are screwed. 5. Gas-insulated, electrical device according to claim 1, characterized characterized in that the devices for easier assembly of the container from one There is a connecting piece (709) which is arranged on each tank (la, lb) and a busbar (705), wherein the connector (709) a has axial and radial clearance and with insertable busbars (707) for the connector (709) of the adjacent container on the other side, where the busbars (705) are located. 6. Gas-insulated, electrical device according to claim 5, characterized characterized in that the insertable busbar (707) is connected to the busbar by means of bolts (705) is connected.