DE868020C - Low-liquid extinguishing chamber switch with series resistor - Google Patents

Description

Poor liquid quenching chamber switch with series resistor circuit breakers, which have to deal with a high voltage surge at power are erüstet off with a series resistor, which is usually once a preliminary contact in the circuit - is on. Such voltage surges can occur when high-voltage capacitors have to be switched. In known switch designs, the pre-contact, which is designed as a sliding contact, interacts with the movable switching pin in such a way that, during the switch-on movement, the switching pin first comes into contact with the pre-contact. For this period of time, the series resistor is switched on, which is then short-circuited when the two main contacts make contact. The spatial arrangement of the pre-contact over the resting switching contact, apart from the need to provide a larger arcing chamber, has the disadvantage that an arc can develop to the pre-contact during the shutdown process. This can jeopardize the effectiveness of the extinguishing device and there is a risk of the switching contacts being destroyed. The use of a pre-contact also has the undesirable consequence that the series resistor is also switched on during the switch-off process.

There is still the construction of a low-liquid extinguishing chamber switch became known, in which the cartridge-like series resistor in the hollow Shift pin is arranged. In this version too, it is inevitable that the series resistor is in the circuit in both switching phases. The switch pin must because of the accommodation of the resistance cartridges in its cavity a relatively large diameter have, so this switch is only for larger ones Services should be considered.

The invention overcomes these disadvantages. This will be the case a low-liquid arcing chamber switch with a series resistor achieved in that the series resistance during the switch-off process due to a delayed decrease in a movable against spring pressure, the electrical connection between the movable Switching contact and the series resistor mediating contact piece switched off automatically will. So it is not just the unwanted reconnection of the series resistor Avoided during the shutdown process, but beyond that there is neither a pre-contact above the resting switch contact is required, an enlargement of the extinguishing chamber is still required or the contact pieces are necessary beyond the dimension required by the rated breaking power.

On the basis of the embodiment shown in the drawing, which contains additional features of the invention, the invention is further explained. The drawing shows a schematic representation of a section through the arcing chamber with the built-in device according to the invention.

The movable switch pin is denoted by i, the resting switch contact by 2 and the series resistor by 3. A contact pin 4, which can be displaced in the axial direction, is arranged in the hollow switch contact 2. The contact pin is located in an insulating sleeve 5, which is firmly connected to the contact pin by the bolt 6. The displacement of the contact pin takes place against the pressure of the spring 7. The insulating piece 8 is used to guide the contact pin. This runs out into a piston surface 9 which is provided with several bores io. The disk ii rests loosely on the upper side of the surface and has a diameter such that. the holes are covered io. The piston area of the contact pin moving in a cylinder 12 which is connected through the channel 1 3 with the extinguishing chamber space 14 so that it also connected to the extinguishing chamber liquid such. B, oil, is filled. The compression spring 7 simultaneously establishes the electrical connection between the series resistor 3 and the contact pin 4. The series resistor is connected to the fitting 16 which is cemented onto the support 15 and which is provided with an attachment 17 for the line connection. The compression spring is isolated from the cylinder by the intermediate cylinder 18 and the disk i #.

If the switch is switched on, the switch pin first hits contact pin 4 and # pushes it down. At the moment of contact between the switching pin and the contact pin, the series resistor is switched on in the circuit, until it is short-circuited by the contact switching of the two main contacts. The plunging of the piston surface -9 into the cylinder takes place without any significant resistance, since the pressure of the oil lifts the disk and thus exposes the bores. The dashed line shows this state of the piston surface. The displacement path of the disk is limited by the insulating sleeve 5 serving as a stop. When switching off, the contact pin hurries after the switch pin, and this effect comes about because when the contact pin recedes, the resistance of the oil causes the disk to rest on the piston surface and thus closes the bores. The piston surface therefore acts as a pump, by means of which part of the oil in the cylinder is conveyed through the channel 13 into the quenching chamber space. In addition to the effect of the delayed retraction of the contact pin, the further advantage is thus achieved that fresh oil is supplied to the extinguishing device. This increases the intensity of the deletion process.

Claims (1)

PATENT CLAIMS: i. Low-liquid extinguishing chamber switch with series resistor, characterized in that the series resistor is automatically switched off during the switch-off process by a delayed decrease in a contact piece which is displaceable against spring pressure and which provides the electrical connection between the movable switching contact and the series resistor. : 2. Low-liquid extinguishing chamber switch according to claim i, characterized in that the contact piece is formed by a pin acted upon by the movable switching contact and which can be displaced through the stationary switching contact. 3. Low-liquid extinguishing chamber switch according to claim: 2, characterized in that the contact pin is located in an insulating sleeve firmly connected to it, which is guided in an insulating piece arranged below the stationary switching contact. 4. Low-liquid arcing chamber switch according to claim 2 and 3, characterized in that the spring acting on the contact pin simultaneously serves as an electrical connection between the contact piece and the series resistor. 5. Low-liquid extinguishing chamber switch according to claim: 2 to 4, characterized in that the contact pin runs out into a piston surface provided with several bores, on whose top side a disc covering the bores rests loosely, and that the piston surface expediently when the contact pin is moved into a immersed the cylinder filled with the extinguishing liquid. 6. Low-liquid extinguishing chamber switch according to Claimz to 5, characterized in that the disc can be displaced to a limited extent on the shaft of the contact pin.