NL8401156A - APPARATUS WITH COMPACT SWITCH INSTALLATION. - Google Patents

Description

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Device for compact switch installation

The present invention relates to a device in compact switch installations with fuses, which contain report buttons which can be incorporated in the switch-off mechanism of the switch installation.

5 Gas isolated compact switch installations are used for voltages up to 36000 kV, and the switch installations are equipped with mechanisms for tripping a transformer switch after a fuse has blown.

10 In general, the trip mechanism is fitted to the front of the switchgear, and the fuses fitted with report buttons are arranged so that the report buttons also point forward. fuse when replaced. Such placement causes creep currents through the transfer means in the mechanism to have a short path to ground, creating problems when the fuse needs to be replaced.

Another drawback is that it is more difficult to seal the fuse housing with consequent gas leaks and reduced insulation. The cause is that the mechanism is often passed through the cover of the switch installation. An additional drawback is that Possible seals around the transmission members of the mechanism can lead to accidental activation of the shutdown mechanism, because pressure fluctuations result in temperature fluctuations.

The aim of the present invention is primarily to avoid the above-mentioned drawbacks by means of a device in compact scissor installations, whereby the creep current path to earth is extended and gas leaks are avoided. Moreover, the replacement of the fuses must be facilitated. to become.

According to the invention, this is achieved in such a way that the switch-off arm for the switch-off mechanism of the switchgear is mounted on the back of the fuse housing. The switch-off arm must be driven by the fuse report button, and the fuse has 8401158 '. \ * - 2 - .. therefore the end part with the report button facing away from the front of the switch installation. The rear part of the fuse housing is made of conductive material, and the mechanism therefore lies in a potential-free space and is not endangered by creep currents and discharges, The potential difference is incorporated into the surrounding gas space, where generally SF6 gas is used as insulation against ground and between phases, The connection to the trip arm or lever is made in 10 tube to the trip mechanism passed through the gas space to the front of the switchgear, providing such a long distance for creep currents provide no problems.

Moreover, the air seal is more pro-cerate, since no parts of the mechanism need be loosened when fuses need to be replaced.

The transmission from the trip arm to the trip mechanism can in a simple embodiment be a puller wire, although in principle a hydraulic transmission with an insulating liquid or a pneumatic transmission from the fuse housing to the trip mechanism can be used.

The invention is characterized by the characteristics stated in the claims and is elucidated below with reference to the drawings, in which Figure 1 shows a compact switch installation in side view and partly in section and

Figure 2 shows a section through the part of a fuse box with fuse cut off from the front of the switch installation. The main components, which form the compact switch installation of Figure 1, are a switch-disconnector chamber 1, a trip mechanism 2 and a fuse box. The rear part of each fuse housing has a tube 4 for transmitting the movement of a trip arm into the rear part 5 of each fuse housing 3. The transmission can be, for example, a puller wire actuating part 6 of the tripping mechanism 2 so that the last mentioned ensures that the current is interrupted if a fuse fails. The rear part 5 consists of a conductive material 8401156-3 and has a contact 7 for end contact 8 of a fuse 9. The fuse has a report button 10 and a switch-off arm 11 lies against report button 10. As mentioned above, the trip arm 11 is connected to the trip mechanism 2 by means of a pull wire through the insulating tube 4 (Figure 1}. If the fuse blows, the report button is shifted to the right in Figure 2, for example by means of a tensioned spring , and the trip arm is moved to the position shown with interrupted lines. This movement causes the wire 12 in the transmission device 4, 12 to pull the trip portion of the trip mechanism 2 to trip the switch · From Figure 1 it can be seen that the fuse box 3 is easily accessible from the front of the compact switch-device on the left in the figure, when the cover 13 is removed. Therefore, a fuse can be easily replaced. both open ends in communication with the ambient air and run through an insulating gas, for example sulfur hexachloride (SF2}). The problems associated with sealing this space against the environments where the pipes 4 run out of the space are therefore minor because these are connections between mutually non-moving components. The rear part 5 25 of the relevant fuse housings 3 consists of conductive material that is at earth potential.

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Claims (2)

3. Device as claimed in claim 1, characterized in that the rear part (5) of the fuse housing is made of conductive material. Device according to one or more of the preceding claims, characterized in that each connecting tube (4) is passed through the insulating gas, e.g. SFg, filled space of the switch installation expires. y 8401 156 30, 1