DE1203351B - Control device for gas pressure switch with multiple interruption - Google Patents

Description

Control device for pressure gas switch with multiple interruption The The invention relates to a control device for compressed gas switches with multiple interruptions and low-ohmic switching resistors, which are created by a blown resistance switching point be switched on and off, with at least the resistance switching point in one arranged in the on and off position pressurized switching chamber is and consists of a hollow switching pin, which is driven by a drive piston Control air is actuated.

As is well known, it is necessary when using low-resistance Switching resistors in high-voltage circuit breakers take precautions that the Resistance caused by the unavoidable that occurs during operational switching Time deviations of the control organs and switching points not thermally overloaded will. It is also necessary to control the resistance switching points and power switching points to be carried out very precisely and the specified sequence or the necessary time delay between different switching points in tight To adhere to limits. If, for example, there is a line for reasons of network technology voltage may only be applied via resistors, then it may be that for Resistors a minimum duty cycle must be observed so that the through the Switching on caused electrical oscillation processes have subsided before close the circuit breakers. Use the same resistors as a switching aid used during the switch-off process for the power switching point, for example reduce or limit the settling frequency of the recurring voltage, the resistances may have to be within a very limited period of time be switched off after opening the circuit breaker. This is particularly true then to when the total switch-off time of a switch does not have certain time values may exceed. Such a switching device is, for example, the so-called Three-half-wave switch. Facilities for the implementation of switch-dependent or Time-limited control processes are due to the use of special control valves known. However, they are expensive, complicated and only with considerable effort to adjust.

It is known to switch resistors when switching on before closing of the power switching points and after switching off the circuit switch off when the circuit breaker opens. But there are ever increasing demands the breaking capacity and thus the switching accuracy of the electrical circuit breaker special measures are required to achieve the desired tax times to be able to adhere exactly. With the known drives and controls, the In any case, problems cannot be solved or can only be solved with difficulty.

So is z. B. a compressed air switch is known in which one with the movable Contact of the power switching point connected valve disk sealingly against one Supports valve seat, which is arranged concentrically to the fixed contact. The movable one Contact has a drive piston, on one side of which the actuating pressure force and the free atmosphere acts on the other side in the on position. The purpose of this well-known facility is through a balance of forces on both Sides of the drive piston of the movable contact to achieve that only one relatively small closing spring is capable of moving the contact into the The switch-on position. However, atmospheric pressure is only capable of generate relatively small forces, so that the friction and inertia forces result in large time spreads in the drive.

Furthermore, drives of movable switching contacts are known in which the drive piston is acted upon on one side by the control air when it is switched off and is held in the end position. A spring causes the backward movement. As is well known, however, springs are not able to withstand greater forces over longer distances apply evenly. In addition, the spring forces have to go through first corresponding dimensioning of the drive piston can be overcome. The speed of components driven by spring forces also depends largely on the sliding properties of the guides, which, as is well known, depend on the state of wear and the temperature to be influenced. Another well-known option is a drive piston Controlling it precisely in terms of time is to selectively control it from both sides via special Pressurize lines with control air. However, this requires two separate control lines with the associated valves, with the proper times of the control by emptying and filling two lines are again greater than with a single line.

Finally, there is also a single control device Known control line, but an additional one at the end of this control line Reversing valve is present, via which in turn the two surfaces of the drive piston can be acted upon optionally.

The invention now shows a way in the case of a gas pressure switch with low-resistance switching resistors, which are created by a blown resistance switching point be switched on and off, with at least the resistance switching point in one permanently pressurized switching chamber is arranged and a hollow movable Has switch pin with a gas-actuated piston, with only a single one Control line and quickly and precisely without an additional reversing valve Actuate the drive piston for the resistance switching point in both directions. This is done according to the invention by such an arrangement of the compressed gas control lines, that the hollow switching pin of the resistance switching point after reaching the switch-off position Part of a connection line between the switching chamber and the one facing away from the control air Area of the drive piston.

That from the switching chamber at the beginning of the opening of the auxiliary contact Escaping compressed gas is thereby passed through the movable contact piece a throttle point and a storage volume flow into the piston chamber. The throttle point is designed as a one-sided diaphragm, which empties the storage volume only allows delayed. It is quite conceivable to have several resistance switching points to assign a common storage volume, for example from the switch head or spray protection fittings arranged at the end of the support columns. The advantage of the device according to the invention is in particular that by the new design of the resistance switching point and without control valves very much precise switching times and safe switching sequences can be achieved.

In the drawing, exemplary embodiments according to the invention are shown, namely, FIG. 1 shows the resistance switching point in the switch-on position and F i g. 2 the switch-off position of this switching point. The resistance switching point 1 is, as has already been proposed, built into an insulating housing 2, which is in turn received by a compressed air reservoir 3. With the case 2, another insulating housing 4 is connected, which is used to accommodate the resistors 5 determined -is. A connecting element 6 is, for example, on the fixed contact piece attached to a power switching point, not shown. Resistance switching point and resistors can after loosening the flange 7 together from the storage container 3 can be removed.

The resistance switching point 1 consists of the resiliently arranged mating contact 8 and the movable hollow contact nozzle 9. The contact nozzle 9 is provided with a drive piston 10 which can be moved in a drive cylinder 11 against the pressure of a spring 12. One side of the drive piston 10 is acted upon by the actuating compressed air via the line 13. The line 14 leads the actuating air to the switching device of the power switching point. A pipe section 16 connected to the valve seat 15 has a throttle point 17 and leads to a storage volume 18. The piston chamber 20 is connected to this via a further line 19.

The switch and the resistance switching point, according to FIG. 1, are in the on position. During the switch-off process, the control air supplied via line 13 becomes effective on the upper side of the drive piston 10 of the resistance switching point and sets the piston 10 together with the movable contact piece 9 in motion downwards. In this way, the sealing seat 21 encompassing the contact pieces 8 and 9 is opened and the arc is drawn, which is driven into the movable contact nozzle 9 by the compressed air flowing out. Because of the back pressure at the outlet opening 22, part of the extinguishing air flowing through the contact nozzle 9 reaches the piston chamber 20 via the line 16 and the storage volume 18 and builds up a certain pressure there, the time course of the pressure rise from the adjustable outlet cross-section of the exhaust opening 22 and on the cross section and shape of the throttle point 17 is dependent. This counterpressure on the underside of the piston 10 limits the switching speed of the movable contact nozzle 9 and thus ensures that the compressed gas outlet point 22 is only closed when the arc at the resistance switching point has been extinguished with certainty. After the disconnection has been completed, the storage volume 18 and the piston chamber 20 connected to it fill up to the pressure prevailing in the storage container 3 (FIG. 2). Since the effective area on the top of the piston 10 is larger than that on the bottom, the resistance switching point is held in the off position against the action of the spring 12 by the control air in the line 13.

If the control line 13 and the with their connected piston chamber is vented, then the one on the underside of the piston 10 in the space 20 pending compressed air effective and caused together with the energy storage 12 the activation of the switching point. Since the outlet opening during the switch-on 22 is opened again at the nozzle contact 9, the storage volume 18 comes with the free atmosphere in connection. But that means that is included in the storage volume Compressed gas does not have its driving effect on the piston too quickly or too soon 10 of the movable contact piece loses, there is a throttle point in the pipeline 16 17 installed in the form of a one-sided acting aperture. Such a diaphragm causes that the storage volume 18 and the adjacent rooms can fill up quickly, however, only a delayed emptying takes place.

Pneumatic known per se due to the above-described association Functional elements with a special design of the switching device of the resistance switching point it is achieved that the contact nozzle with a surprisingly small time spread turns on and off. Also the required simultaneity of several switching points will be in tight Time limits possible. Because of the steep increase in force The entire resistance switching point is on the drive piston shortly before the contact nozzle is activated Insensitive to temperature fluctuations in terms of switching accuracy and natural wear and tear of sliding parts. That for the safe function of the resistance switching point intended storage volume can be accommodated at any point and for several Switching points to be determined jointly. If near the switch point, spray protection fittings are provided, which usually consist of hollow bodies, these can be used as storage volumes be used, which results in a structural simplification.

The overall arrangement enables very precise control of the switching sequences of the power switching point and resistance switching point. By appropriate dimensioning and design of the storage volume 18, the throttle point 17 assigned to it and a throttle point 23 in the line 13, it can be achieved that when switched on, the resistance switching point closes before the power switching point and thus, for example, applies voltage to a line via low-resistance resistors. The resistors are then short-circuited by the subsequent closing of the power switching points. When it is switched off, because of the delaying effect of the throttle point 23, the power switching point will open first and then the resistance switching point at a predetermined time interval. When a distance short-circuit is switched off, the low-resistance resistors are an effective switching aid.

Claims (7)

Claims: 1. Control device for compressed gas switch with multiple interruption and low-resistance switching resistors, which are switched on and off by a blown resistance switching point, wherein at least the resistance switching point is arranged in a switching chamber that is pressurized in the on and off position, with a hollow, movable switching pin for the Resistance switching point, which is actuated by a drive piston by means of control air, is characterized by such an arrangement of the compressed gas control lines that the hollow switching pin (9) of the resistance switching point is part of a connecting line (16, 19) between the switching chamber (2) after the switch-off position has been reached. and the surface of the drive piston (10) facing away from the control air. 2. Control device according to claim 1, characterized in that the connecting line (9, 16, 19) is a Contains throttle point (17). 3. Control device according to claim 1 and 2, characterized characterized in that the throttle point (17) is designed as a one-way diaphragm is. 4. Control device according to claim 1 to 3, characterized in that the Connecting line (9, 16, 19) contains a storage volume (18). 5. Control device according to claim 4, characterized in that the storage volume (18) has several resistance switching points assigned. 6. Control device according to claim 4 and 5, characterized in that that as a storage volume any arranged in the vicinity of the resistance switching point, In the usual way, spray protection fittings consisting of hollow bodies are used. 7. Control device according to one or more of the preceding claims, characterized in that the compressed air outlet opening (22) of the hollow contact (9) can be changed in its cross section by an adjustable diaphragm device. Considered publications: German Patent Specifications Nos. 143 003, 218 398, 277964.