DE1665258B1 - Compressed gas switch - Google Patents

Description

The invention relates to a compressed gas switch with a switching chamber that is constantly filled with compressed gas, with a pair of cooperating, movable contact pieces arranged within the switching chamber, one of which has a shorter stroke than the other, at least one of which has a Nozzle contact piece for discharging the extinguishing gases and at least one is spring-loaded in the switch-on direction is, with one piston per contact piece, which is movable in a cylinder and with the associated Contact piece is firmly connected, with at least one blow valve, which in the closed state The extinguishing gas discharge through the nozzle contact piece is interrupted and its moving part with one of the Contact pieces is firmly connected, and with control valves through which the actuation of the drive piston the contact pieces is controlled so that only the piston of the Contact piece with the shorter stroke is acted upon with compressed gas from the switching chamber so that both contact pieces are accelerated together in the same direction and only with a temporal one Delay also the piston of the other contact piece, and that the contact piece with the shorter stroke is held by a stop after covering its stroke, while the other Contact piece is moved further in the disconnection direction until the end of its stroke.

From the German Auslegeschrift 1 048 981 a compressed air switch is known in which an annular The valve surrounds the switching contacts and, when the switch is closed, the outflow channel of the Separates the nozzle contact from the switching chamber, which is constantly filled with extinguishing air under high pressure. With this one Switches are also opened briefly, but in contrast to the present one Switch, only one of the contact pieces can be moved while the other contact piece is fixed is arranged. This known compressed air switch is therefore a different type of switch. Therefore, from Auslegeschrift 1 048 981, albeit in the case of the switch described there, the movable contact with the movable part of the blow valve is combined to form a unit, cannot be removed, as is the case with a switch with two movable contact pieces of the blow valve should take place. There is also nothing in this interpreted publication about the arrangement of the control valves testified.

A compressed gas switch, which generically corresponds to the type of switch specified above, shows German Auslegeschrift 1 238 545. This known switch is otherwise relatively complicated and elaborately trained. It just needs two blow valves and four control valves.

The present invention has for its object the design of such a compressed gas switch to simplify by measures that make it possible to use a significantly lower number of Valves get along.

The French patent specification 1394 634 gives no suggestions for this, because it is about a Switch acts in which the switching chamber is only briefly under pressure during the switch-off process is set. Therefore, with this known switch, the existing ones in the present case do not occur Problems with the arrangement of the blow and control valves.

The task at hand is achieved according to the invention with a compressed gas switch of the type mentioned at the outset solved in that

a) the movable part of the blow valve surrounds the contact piece with the longer stroke in a ring and with whose piston is firmly connected;

b) that the fixed part of the blow valve through a contact piece with the shorter stroke surrounding, against this stationary, annular part is formed;

c) that the piston of the contact piece with the longer stroke in the disconnection direction by the Pressurized gas from the switching chamber is applied to the opening of the blow valve;

d) that two control valves are present, of which the first during the switch-off process Valve immediately moves the piston of the contact piece with the shorter stroke in the disconnection direction Pressurized gas from the switching chamber is applied and the second valve with a delay so controls that the piston of the contact piece with the longer stroke through this second valve after the arc has been extinguished with compressed gas from the switching chamber in the switch-on direction is acted upon, so that both contact pieces under the action of the closing spring in their To be returned to the on position.

In this way it is achieved that the compressed gas switch has only a single blow valve and only one two control valves are required. This improvement makes the switch according to the invention significantly simplified, cheaper and accordingly less prone to failure.

The invention is explained below with reference to the drawing, for example. In the drawing shows

Fig. 1 partially an axial section, partially a View of a compressed gas switch, and

F i g. 2 shows an axial section of the switching element of this switch on a larger scale.

In the drawing, 1 is a metal vessel which can be connected to earth and in which there is an inner wall consisting of insulators 2, 3, 4 and contact rings 5, 6. The space 7 between the vessel and this inner wall is filled with insulating material of high dielectric strength. In the double-walled vessel thus formed there is the switching element, which is held in place by insulators 8, 9 and is provided with electrically conductive contact carriers 10, 11 which are electrically connected to the contact rings 5, 6 via connecting contacts 12, 13. The connecting conductors 14, 15 for connection to the external circuit are connected to these contact rings 5, 6. This switch is only used to interrupt the circuit. A further switch (not shown) connected in series with this switch must be arranged to hold the circuit open and to close the circuit.
From Fig. 2 it can be seen that the contact carriers 10, 11 are provided with electrically conductive hollow blocks 16, 17 which are held at a distance from one another by a tubular insulator 18. The block 16 carries a conductive piece of pipe 19 with a

3 4

central channel 20 for discharging the extinguishing gas. In this cylinder space via an opening 51 with the this pipe section is a first tubular Kon switching chamber 33 or via an opening 52 with the tact piece 21 arranged displaceably. The block 16 low-pressure chamber 38 can be connected also carries a cylinder 22 in which a piston 23 can. The control valve 50 is actuated by a spring 53 is movably arranged. This piston is pressed by a 5 into the position shown, in which the opening relatively easy switch-on or reset 51 is closed and the opening 52 is open, and spring 24 loaded. The contact piece 21 is with which it can through a cylinder 54 with piston 55 in the

Piston 23 firmly connected. Position are drawn in which the opening 51 is opened

The block 17 carries a partially like a cylinder and the opening 52 is closed. The cylinder executed Conductive pipe section 25. In this pipe space 56 of the cylinder 54 with the piston 55 is piece is a second tubular contact piece 26 by a delay acting tube arranged to be axially movable. This contact piece is insulating material 57 with the channel 43 and the cylinder a derraum 42 of the rear contact piece 26 in the cylinder space of this pipe section 25 Piston 27 attached. bound.

In the shown switched-on state, ie in 15 By means of a pull rod 58, the control valve in the idle state of the switch, connecting the contact 44, can be pulled from the outside into the position in which piece 21 opens a ring in the pipe section 19, opening 45 and the opening 46 spring-loaded contacts 28 with one in the pipe section 25 so that extinguishing gas under high pressure is let into the existing ring of corresponding contacts 29, so cylinder space 42 and both the condass a conductive connection between the pipe 20 and the contact piece 21 through the pieces 19 and 25, the blocks 16 and 17 and piston 27 is moved at high speed in the switching direction brought about from the contact carriers 10 and 11. As a result, will. During the switch-off process, the blow valve is opened and the piston 23, which in the contact pieces 21 and 26 initially together cylinder 22 is still moved up by low-pressure gas until the piston 72 is loaded against an abutment 25 in the space 38, is hit by the high pressure 30, and then the gas in the switching chamber 33 is then strongly separated from one another upwards, in that the contact piece 21 is moved further and the contact piece 21 is entrained. Which is lifted. As soon as the contact pieces contact pieces 21 and 26 move from one another in the disconnection direction, a is separated and the switching arc is extinguished by the extinguishing gas flowing through a closing edge 31 of the piston 23 and 30 these contact pieces, a packing ring 32 of the pipe section 25. In the meantime, however, extinguishing gas is also opened under the blow valve formed, whereby extinguishing gas with high pressure through the delayed acting quite high pressure of about 14Atü from pipe 57 through to the cylinder space 56 which has been within the blocks 16,17 and the insulator, whereby a Certain time span later 18 located switching chamber 33 to the contact 35 the control valve 50 is pulled into the right position and pieces 21,26 is left. If this causes extinguishing gas under high pressure through which later the contact pieces 21, 26 are separated from one another, opening 51 and the channel 49 through to the cylinder, the extinguishing gas flows out of the switching chamber 33 derraum 48. As a result, high pressure is exerted on the piston 23 from the discharge channels through to the extinguishing gas discharge 40 through these contact pieces and the cylinders 22 connected to them, so that the pressures on both sides of the spaces 34, 35 (FIG. 1), which are equal to piston 23 through a tube 36, these pistons through which are interconnected. By means of a line 37, the closing spring 24 is pressed down again and the space 38 outside the switching element can be closed again, since the blower valve 31, 32 is filled with extinguishing gas. In the spaces 34, 35, meanwhile the piston 27 with the contact piece so-38 is a much lower gas pressure. B. 3.5 Atü maintained. The force of a weak stabilizing _{spring 59 SF 8} -GaS can be used as extinguishing gas. This gas can also be pushed back into the rest position from the low-pressure chambers 34, 35 via a filter. The period of time between the filling of the cylinder 39 by a pump 40 sucked in and from the space 42 and the filling of the cylinder space 48 of this pump through a pipe 41 to the switching chamber 50 with high pressure extinguishing gas is pressed back by a corresponding 33 (Fig. 1). Dimensioning of the delay tube 57 is chosen such that

To control the contact pieces, the effective thing is that the contact pieces 21 and 26 are just long enough Cylinder space 42 of cylinder 25 with the value being held at the maximum distance from one another Contact piece 26 attached piston 27 by the, to give the extinguishing gas opportunity to delete a channel 43 with a switchable control valve 55 switching arc. After deleting the switch 44 accessible through which the cylinder chamber bends and closing the blow valve becomes the rod optionally released through an opening 45 with the switching chamber 58. The control valve 44 moves somer 33 or through an opening 46 with the low then through the spring 47 again to the left, so that pressure chamber 38 can be connected. the cylinder space 42 through the opening 46 with the In the idle state, i.e. H. in the switched-on state 60 low-pressure chamber 38 is connected, of the switch is the cylinder space 42 with the fact that then the cylinder space 56 is through Low-pressure chamber 38 in open connection, and the pipe 57 through it again with the low-pressure control valve 44 is then connected by the spring 47 in the space 38, the position shown in the control line moves, in which the opening 45 to the valve 50 returns to the left end position in which the Switching chamber 33 is closed. Furthermore, the effective 65 cylinder chamber 48 with the low-pressure chamber 38 is in The same space 48 of the cylinder 22 of the front cone is open connection. The hibernation of the clock piece 21 through a channel 49 with a toggle switch is restored, d. i.e., the switch switchable control valve 50 accessible, through which it is in the switched-on state.

Claims (2)

Patent claims: 1. Compressed gas switch with a switching chamber that is constantly filled with compressed gas, with a pair cooperating, movable contact pieces arranged within the switching chamber, one of which has a shorter stroke than the other, at least one of which has a Nozzle contact piece for discharging the extinguishing gases and at least one in the switch-on direction is spring-loaded, with one piston per contact piece, which is movable in a cylinder and is firmly connected to the associated contact piece, with at least one blow valve, which is in the closed State interrupts the discharge of extinguishing gas through the nozzle contact piece and its movable part with one of the contact pieces is firmly connected, and with control valves through which the actuation of the drive piston of the Contact pieces is controlled so that only the piston of the contact piece at the beginning of the switching-off process with the shorter stroke, pressurized gas from the switching chamber is applied in such a way that both contact pieces are accelerated together in the same direction and only with one time delay also the piston of the other contact piece, and that the contact piece with the shorter stroke is held by a stop after covering its stroke, while the other contact piece continues to move in the disconnection direction until the end of its stroke is characterized in that a) the movable part (31) of the blow valve, the contact piece (21) with the longer stroke encloses ring-shaped and is firmly connected to the piston (23) of which; b) that the fixed part (32) of the blow valve through a the contact piece (26) with the shorter stroke surrounding, against this fixed, annular part is formed; c) that the piston of the contact piece (21) with the longer stroke in the disconnection direction by opening the blow valve (31,32) with compressed gas from the switching chamber (33) is applied; d) that two control valves (44, 45, 46, 47, 58, 50, 51, 52, 53, 54, 55, 56) are present, of which the first valve (44,45,46,47,58), the piston, during the switch-off process (27) of the contact piece (26) with the shorter stroke immediately in the disconnection direction Pressurized gas from the switching chamber (33) and the second valve (50, 51, 52, 53, 54, 55, 56), controls with a delay so that the piston (23) of the contact piece (21) with the longer stroke through this second valve after the arc is extinguished Pressurized gas from the switching chamber (33) is applied in the switch-on direction, so that both contact pieces under the action of the closing spring (24) in their closed position be returned. 2. Compressed gas switch according to claim 1, characterized in that the cylinder space (42) for Moving the piston (27) of the contact piece (26) with the shorter stroke in the disconnection direction Via a channel (43) with the first control valve (44, 45, 46, 47) and the cylinder chamber (48) for moving the piston (23) of the contact piece (21) with the longer stroke over a Channel (49) with the second control valve (50, 51, 52, 53) either with the high pressure switching chamber (33) or with the outside air or a low-pressure space (38) in connection can be that the first valve from the outside and the second valve by a spring (53) and a cylinder (54) with piston (55) is controllable and that the effective space (56) of the cylinder (54) via a line (57) with a time-delaying effect with the cylinder space (42) of the contact piece (26) is in open connection with the shorter stroke. 1 sheet of drawings