DE1048980B - Compressed air switch with several interruption points connected in series - Google Patents

Description

GERMAN

Modern compressed air switches for high voltages usually contain several connected in series Breaking points located within breaker units carried by isolator columns are. These isolator columns also serve as supply lines for the compressed air and are attached to their lower end with its own compressed air tank or one common to all columns and above this is connected to a compressed air source. When the interruption points from the pressure of the air are kept open in the interruption units, precautions must be taken that the pressure in all interruption units does not disappear and all interruptions arise close if z. B. breaks an isolator column.

If all the isolator columns are connected to their own compressed air tank, according to a Proposal between the compressed air tanks and a common air supply line. Check valves used, which prevent air from flowing out of the other compressed air tanks when the Pressure in the supply line if an isolator column breaks and the air escapes as a result sinks. According to another proposal, between the supply line and the various Compressed air tanks used valves that are actuated by a piston. The room on one side the piston is then mostly through a pipeline with the interior of the isolator column and the space on it the other side of the piston is connected to the supply line for compressed air. In the event of a break in an isolator column if there is a pressure difference between the two sides of the actuating piston, it moves the piston like that. that a valve member connected to the piston establishes the connection between the feed line and the isolator column locks.

The invention relates to a compressed air switch with several interruption points connected in series, in which the interruption points are carried by isolator columns and are located in a space that just like the load-bearing isolator column is under pressure, and the interruption points from the compressed air be kept open in the said room. The invention is mainly characterized by that between each isolator column and the compressed air source common to all interruption points a valve is arranged which contains a displaceable valve member with a nozzle through which the air flowing to the interruption points on the isolator columns is directed. The valve organ becomes direct, d. H. without the intermediary of actuators, on the pressure difference between the influences both sides of the valve member in the closing direction, which is due to the throttling of the Strö compressed air switch with several interruption points connected in series

Applicant:

Allmänna Svenska Elektriska
Aktiebolaget, Västeräs (Sweden)

Representative: Dipl.-Ing. H. Missling, patent attorney,
Giessen, Bismarckstrasse. 43

Claimed priority:
Sweden 10 October 1956

Haakon Forwald, Ludvika (Sweden),
has been named as the inventor

formation in the nozzle. The nozzle is advantageously in a piston movable in a cylinder or in placed in the center of a diaphragm and is shifted towards a fixed member when at very large air consumption, e.g. B. in the event of an isolator break, the pressure difference between the two sides of the Nozzle exceeds a certain value. The said fixed link closes after such a displacement the opening of the nozzle. The nozzle expediently influences a signal or alarm arrangement which indicates when the connection between the interruption points and the common compressed air source is interrupted is.

By the invention it is achieved that no special actuator for the operation of the Valve are required because due to the pressure difference between the two sides of the nozzle one axial Directed pressure force is present, which acts directly on the valve element and this against the blocking position emotional. Due to the lack of special actuators, the entire shut-off valve can be used as a compact one Unit to be formed in the connection between the isolator columns and the common Druclduftquelle can be used. The unit also does not have any actuation air ducts like it used to be proposed shut-off valves, which lines made the installation of the valves difficult.

In the drawing, a compressed air switch according to the invention is shown and two different for valves used this switch.

809 730/320

Claims (5)

1 shows a side view of a switch with six switching points connected in series, and FIGS. 2 and 3 show two different designs of the valves used in the switch. In the figures, 1 denotes the isolator columns which carry the interruption units 2, each of which includes two switching points connected in series. These units and the isolator columns are filled with compressed air. The interruption points are kept open by the air pressure at the interruption points. The isolator columns sit on compressed air tanks 3, which are connected to a common compressed air tank 7 through lines 4 and 5 and the valves 6 present in these lines. Compressed air is fed to this container through a line 8 from a compressor (not shown). In FIG. 2, 9 designates a valve housing and 10 a membrane which carries a nozzle 11. The nozzle can be shifted to the right in the drawing until the opening of the nozzle is closed by a member 12 which is adjustably arranged in the housing 9. The nozzle 11 carries a bracket 13 which limits the left-hand movement of the nozzle. A rod 14 is attached to the bracket 13; it carries a contact bridge 15 which can bridge the two contacts 16. 17 is a disc which is mounted on the rod 14 so that its position can be adjusted. Between the disk 17 and the valve housing 9 there is a spring 18 which tries to move the nozzle to the left, and a bellows 19 which is attached to the valve housing 9 and the disk 17 in a gas-tight manner. Fig. 3 shows another embodiment of the valve 6. In the figure, 20 denotes a valve housing which is designed like a cylinder. A piston 21 with a nozzle is slidably arranged in the valve housing. The piston is loaded by a spring 23 which tries to move it away from the adjustable member 22. The member 22 can close the opening of the nozzle of the piston 21 and is fastened in a sleeve 24 made of insulating material. It is used with advantage as a contact of an interruption point in a signal circuit in which the piston 21 forms the other contact. When the switch is open, the interruption points of the units 2 are kept open by the air pressure in the units mentioned. If an isolator column breaks, the air pressure in the unit supported by this column drops and its interruption points are closed. The air in the container below the isolator column then flows out very quickly, the pressure drop in this container causing a strong flow of air from the storage container 7 through the valve 6. Because of the throttling of the flow in the nozzle, there is a large pressure drop. The pressure difference thus obtained causes a force which displaces the nozzle 9 of the membrane 10 or the nozzle of the piston 21, so that the members 12 and 22 close the opening of the nozzle. Claims. 1. Compressed air switch with several series-connected and supported by isolator columns Interruption points which, like the isolator saddles, are filled with compressed air, characterized in that that between each isolator column and that common to all interruption points Compressed air source one valve each with a moving ao borrowed, designed as a nozzle organ is arranged, which is moved when a predetermined, caused by the D ross el effect of the nozzle pressure difference of the air flowing through the nozzle to the interruption points in front of and behind the nozzle in the closing direction against the fixed valve member. 2. Compressed air switch according to claim 1, characterized in that the movable valve member consists of a piston (21) which is arranged displaceably in a cylinder (20) and is designed as a nozzle. 3. Compressed air switch according to claim 2, characterized in that the movable valve member consists of a membrane (10) and a disc (11) carried by this and designed as a nozzle. 4. Compressed air switch according to claims 1 to 3, characterized in that the movable Valve organ influences the switching point of a signal arrangement. 5. Compressed air switch according to claim 4, characterized in that the movable valve member and the fixed valve member closing the nozzle opening contacts the interruption point form a signal circuit. Considered publications:
German patent specification No. 1 002 440. 1 sheet of drawings