SU882428A3 - Hydraulic drive for example for high-voltage switches - Google Patents

Abstract

The device is mainly intended for use in operating an electrical circuit breaker having series-connected switching points which require to be operated simultaneously. The device comprises reversible hydraulic-piston- cylinder arrangements (1) which each control a respective switching point via a switching rod (3), and which are each controlled by a respective control valve (4). The control valves (4) are operated simultaneously by a rigid mechanical connection comprising a cam shaft (7) which is rotated by an hydraulic actuator (8,9,10,11). <IMAGE>

Description

The invention relates to a hydraulic actuator of a switching device with at least two reversible piston-cylinder units and controlling these units through an intermediate valve actuator.

A hydraulic drive is known, for example, for high-voltage power switches with several switching points per pole, containing at least two reversible piston-cylinder units and controlling these units through intermediate valves 11].

However, this device does not provide simultaneous forced-20th reversal.

The purpose of the invention is to increase the reliability of the device by achieving simultaneous forced reversal. 2.5

To achieve this goal, the device is equipped with a cam shaft that connects the intermediate valves, and the control device is connected to the cam shaft. thirty

The control device is equipped with a hydraulic auxiliary drive, and the intermediate valves are made unloaded from pressure.

In FIG. 1 schematically depicts a hydraulic drive with two reversible piston-cylinder units; in FIG. 2 - loaded from the pressure of the intermediate valve with the drive cam shaft, section.

In FIG. 1 shows two switching points related to one pole of a switch with a corresponding piston-cylinder unit 1 for each. Both switching points are mounted on one common frame. With each piston-cylinder. the unit 1 is connected to the corresponding switching rod 2 for actuating the switching points. Hydraulic fluid is supplied to the piston-cylinder assemblies 1 through the corresponding intermediate valve 3 for each, for turning on at high pressure from the consumable receiver 4 and for turning off the low-pressure chamber (not shown) under low pressure. The intermediate valves 3 are driven by a camshaft 5, which, depending on the drive signal, can be rotated in two directions around its axis by means of a hydraulic auxiliary drive 6. In this example ^5, hydraulic auxiliary drive 6 is supplied with hydraulic fluid through a device for preliminary control of valves 7, and also to piston-cylinder units 1. The device for preliminary control of valves 7, in turn, is reversed through two electromagnetic actuators 8 and 9 for switching on and off, all valves can be three-way with two inputs and one output, in which one output is connected to a low-pressure chamber. Both the auxiliary drive 6 and the piston-cylinder units 1 can have a differential piston 20, which, regardless of the hydraulic fluid pressure, can be translated into two preferred positions. However, piston-cylinder units with one spring loaded piston may also be provided.

The device operates as follows.

The drive to actuate one of the electromagnetic actuators 8 and 9 reverses the device for preliminary control of the valves 7. As a result, the piston 10 of the auxiliary drive 6 is brought to its other preferred position. As a result of this, the cams 11 and 12 rigidly connected to the shaft ³ also move. Both of these cams actuate both intermediate valves 3, so that the latter are also reversed. Thus, hydraulic fluid with a different pressure is supplied to the piston-cylinder assemblies of both switching points. piston-cylinder units are also reversed.

Due to the rigid connection of the cams 11 and 12 with the cam shaft, it is ensured that with the help of the on or off signals coming from the drive device, both intermediate valves 3 are reversed forcibly and simultaneously. Moreover, the mechanical strength of the cam shaft is sufficient so that various friction losses in the intermediate valves do not affect the moment of reversal.

In FIG. Figure 2 shows the pressure-relieved intermediate valve Z. as a three-way valve. The inlet 13 of this valve is connected to the consumable receiver 4, the other inlet 14 is connected to the low-pressure chamber 15. The outlet 16 passes to the piston-cylinder unit 1. The intermediate valve consists of a valve block 17, a valve body 18, which is out. steps on both sides of the valve block 17 and is driven by a cam 11. Then the valve block 17 has two valve seats 19 and 20, which are closed depending on the position of the valve body. Since the valve body 18 on “both sides ends in an outer chamber with atmospheric pressure and the guide part of the valve body in this outer chamber has almost the same diameter as the valve seats, both when switching on and off, only a small force must be applied to in relation to the force produced by the hydraulic fluid on the valve body.

Claims (3)

action from the cam shaft 5, which, depending on the drive signal, can be rotated in two directions around its axis by means of the hydraulic auxiliary drive 6. To the hydraulic auxiliary drive 6 in this embodiment, the hydraulic fluid is supplied through a device for preliminary control of valves 7, also to piston-cylinder units 1. The device for pre-control of valves 7 is in turn reversed through two electromagnetic actuators 8 and 9 for switching on and off. All valves can be three-way with two inputs and one output, in which one output is connected to a low-pressure chamber. Both the auxiliary drive 6 and the piston-cylinder units 1 may have a differential piston which, regardless of the pressure of the hydraulic fluid, can be converted into two preferred positions. However, piston-cylinder units with one piston loaded with a spring may also be provided. The device works as follows. The actuation mechanism for actuating one of the electromagnetic actuators 8 and 9 reverses the device for pre-controlling the valves 7. As a result of this, the piston 10 of the auxiliary drive 6 is brought to its other preferred position. As a result, the cams 11 and 12, which are rigidly connected to the shaft, also move. Both of these cams actuate both intermediate valves 3, so that the latter are also reversed. Thereby, hydraulic fluid with different pressure, i.e. piston-cylinder units are also reversed. Due to the rigid connection of the cams 11 and 12 to the camshaft, it is ensured that, with the on / off signal from the actuator, both intermediate valves 3 are reversed forcibly and simultaneously. At the same time, the mechanical strength of the camshaft is sufficient so that the various friction losses in the intermediate valves do not affect the reversal moment. FIG. 2 shows the pressure-unloaded intermediate valve Z. as a three-way valve. The inlet 13 of this valve is connected to the supply receiver 4, the other inlet 14 is connected to the low pressure chamber 15. The outlet 16 passes to the piston-cylinder unit 1. The intermediate valve consists of the valve block 17, the valve body 18, which you-. steps on both sides of the valve block 17 and is driven by the cam 11. Then the valve block 17 has two valve seats 19 and 20, which are closed depending on the position of the valve body. Since the valve housing 18 on both sides ends up in the outer chamber with atmospheric pressure and the guide part of the valve housing in this outer chamber has almost the same diameter as the valve seats, both a small amount of force must be applied when turning it on or off. in relation to the produced hydraulic fluid on the valve body force. Claim 1. Hydraulic drive, for example, for high-voltage power switches with several switching points per pole, containing at least two reversible piston-cylinder units and controlling these piston-cylinder units through intermediate valves controlling device, characterized in that in order to increase Reliability by achieving simultaneous forced reversal, it is equipped with a camshaft that connects intermediate valves, and a control device connected to a cam shaft. 2. Drive on. 1, characterized in that the control device is equipped with a hydraulic auxiliary drive. 3. Drive on PP. 1 and 2, which is indicated by the fact that the intermediate valves are unloaded from pressure. Sources of information taken into account during the examination 1. Siemens Prospekt SF6 catalog eistungsschalter 3AS1, Bestellnuitier E 122/15 64-20, Sept. 1976. 20 ll 75 Fig2