DE767548C - Switch with arc extinguishing and actuation by a pressure medium flow - Google Patents

Description

Issued on the basis of the VO. from 12.5.1943 - RGBl. II p. 15O

ISSUED DECEMBER 8, 1952

RE I'S PATENT OFFICE

PATENT LETTERING

CLASS 21 C GROUP 35io

A8445iVIIIb / 2ic

Subsequently printed by the German Patent Office in Munich

(Section 20 of the First Act on the Amendment and Transition of Regulations in the field of industrial property protection from July 8, 1949)

The inventor is not named upon request

Ateliers de Constructions Electriques de Charleroi Societe Anonyme,

Brussels

Switch with arc extinguishing and actuation by a pressure medium flow

Patented in the German Reich from October 10, 1937

Patent granted on July 17, 1952 The priority of the application in Belgium of 23 ^; . October 1936 has been claimed

There are already switches with arc quenching and actuation by a pressure medium flow known, in which the pressure medium stream flows out of one of the containers on which the partially into the Container engaging valve body is attached for the pressure medium control. With these Switches is the control mechanism of the contacts that control the opening of the pressure medium valve causing mechanism separately. This makes the whole setup cumbersome, especially between the two Mechanisms also require different interlocks. Are known continue to switch with arc extinguishing by flowing pressurized gas, where the Blow valve via a linkage with the mechanical or electromagnetic drive of the Moving contact is connected and is operated by this. ao

The invention offers the known switches over the advantage of a simpler one and a clearer structure, as it reduces the number of necessary components of the Switch is reduced and the mutual locking is eliminated. this allows a considerable space saving and price reduction as well as a lighter one Maintenance of the switch. According to the invention this is achieved in that the opening of the blow valve and the movement of the movable contacts into the switch-off position done by a piston actuated by means of the compressed gas, the piston rod of which with its end towards the container that is arranged coaxially with the piston Blow valve actuated and with its other end about perpendicular to the piston rod running insulating lever causes the displacement of the movable contacts.

The drawing shows an embodiment of the subject matter of the invention, and although is

Fig. Ι a vertical section through the switch,

Fig. 2 is a plan of a three-pole device and

Fig. 3, 4 sections according to Fig. 1 showing the switch in different positions in represent smaller scale.

R is the container belonging to each switch, A the supply pipe for the compressed air, RA a stopcock, VR a check valve and VM a minimum pressure safety valve. VA is a valve housing which partially protrudes into the interior of the container R and is attached to it by means of a bridge. It contains two superposed chambers C and C, which are separated by an intermediate wall ν and in which the double-acting drive piston PM or the piston-shaped valve body PA moves, which is held in the upper position by the spring RE. / is a seal which is mounted on the valve body PA and cooperates with the seat 5 "on the valve housing VA . The chamber C, ie one or the other side of the drive piston PM, can be connected to the container R through the lines r and r ' each opening onto one of the faces of the piston PM . The chamber C communicates with the container R and a tube TU through openings V ₁ , z \ ₂ , the openings V ₁ in the valve housing VA being closed both sides of the seat S are provided.

The valve body PA carries a tube TB,

which is provided with a suitable bolt V. This is controlled by a return spring RR and a roller G , which can roll on an inclined surface RP of the valve housing VA j.

; The spring RE is supported at one end; against the lower surface of the valve body PA j and at the other end against the bottom of the valve housing VA.

The piston PM is connected to a rod T \ which penetrates the wall ν and the hood of the valve housing VA. The lower end of this rod T, which extends into the tube TB , operates the valve body PA by means of the bolt V , while the upper end operates the movable electrodes EM of the switch by means of the insulating rods L , which can rotate in an axis 1. Fig. 1 shows only a movable electrode EM and an insulating rod L.

EVD and EVE are the opening and closing solenoid valves connected to lines r and r ' , and M is the two-position handle that controls opening and closing. SC are the terminals of the auxiliary power source. / is the support insulator of the high-voltage power supply AC for the movable electrode EM. IC is the hollow insulator which serves as a carrier for the fixed contact CF and which supplies the blown air to the tube TU , which is terminated by a vent CH.

The insulators / and IC are attached in a suitable number radially to the valve housing VA , which serves them as a carrier, their angular position can be arbitrary. In the case of a three-pole switch, the parts can e.g. B. be arranged as shown in Fig. 2.

The design of the device is as follows: The container R serves as a support for the entire device and can be arranged lying down or standing. It is fed evenly through a supply pipe A with compressed air. After passing through the stopcock RA and the check valve VR , the air enters the container R. The minimum pressure locking valve VM is connected to the container R and its contacts open the control circuit for switching the switch on and off when the air pressure falls below a certain value .

The valve housing VA, which is attached to the container R , serves as a support for the actual switch.

The mode of operation of the device is as follows: The device is shown in Fig. 1 at rest and switched on. The air in the container R cannot escape through the openings V ₁ , since the seal / of the valve body PA closes the valve seat S. The drive piston PM is in its upper position and the movable electrodes EM are inserted into the fixed contacts CF. When the pressure in the container R

is sufficiently large, by moving the handle M to the switch-off position, the switch-off electrovalve EVD is excited. The compressed air introduced into the chamber C via the drive piston PM causes it to move downwards. The entrained rod T moves the movable electrodes EM upwards by means of the insulating rods L and thereby causes the interruption of the high-voltage circuit AC and CF. At the same time, the rod T lowers the valve body PA so that the air in the container R can escape through the openings V ₁ , the seat S, the openings V ₂ , the hollow insulators IC, the blow pipes TU and the discharge pipes CH .

When the roller G of the bolt V begins to roll on the slope RP of the valve housing VA , the bolt V moves away from the

• 20 tube TB against the return spring RR, so that from this moment on the rod T has no effect on the valve body PA . The spring RE, which has been compressed, causes the valve body PA to rise again and the valve seat 6 "to be closed by the seal /, so that the compressed air can no longer enter the tube TU and thus air consumption is avoided as soon as the switch is opened is.

After the latch V has been disengaged, the piston PM completes its downward path, and the movable electrodes EM then assume the open position.

The switch is then in the fully open position.

To switch on, the handle M must be brought into the switch-on position, whereby the switch-on electrovalve EVE is energized, which lets in compressed air under the drive piston PM. This moves upwards, taking along the rod T, which engages the movable electrodes EM. At the end of the path, the rod T leaves the bolt V, which, under the action of the spring RR, restores the mechanical connection of this rod T with the valve body PA in the direction of the downward movement. The switch is then ready to be switched off again.

Fig. 3 and 4 show the switch in two consecutive switch-off positions. ■ Fig. 3. The EVD cut- off valve is energized. The air has entered above the drive piston PM, which raises the movable electrodes PM loan and the valve body PA entrains downwards up to the moment when the roller G has solved the bolt V. The valve body PA is shown in its outermost driving position. The air escapes from the container R to the tubes TU. The movable electrodes EM are removed from the fixed contacts CF.

Fig. 4. The drive piston PM has finished its way down. The movable electrodes PM are in the open position and the unlocked valve body PA has come to rest against the seat 6 * under the action of the spring RE, thereby closing the air outlet on the tubes TU.

The switch-off process is finished.

The switch-on process is brought about by energizing the solenoid valve PFP, which sends the drive piston PM upwards and, like the other parts, returns it to the position shown in Fig. Ι.

Claims (4)

PATENT CLAIMS: 1. Switch with arc extinguishing by flowing pressurized gas which is taken from a container on which the blow valve connected by insulating lever to the drive of the * movable contacts is attached, characterized in that the opening of the blow valve and the movement of the movable contacts in the off position by means of a piston (PM) actuated by means of the compressed gas, the piston rod (T) of which actuates the blow valve (PA) arranged coaxially with the piston (PM) with its end facing the container (R) and with its other end approximately perpendicularly The insulating lever (L) running to the piston rod causes the moving contacts (EM) to be displaced. 2. Switch according to claim 1, characterized in that the drive piston (PM) with the valve body (PA) is only in frictional connection when the switch is switched on. 3. Switch according to claim 2, characterized in that the lower end of the rod (T) of the drive piston (PM ) engages in a tubular extension (TB) firmly connected to the valve body and takes it downwards by pressing against a bolt ( V) supports ab no until it tilts at the end of the path under the action of a bevel (RP) or a stop and releases the valve body, which closes again under the action of a spring (RE). 4. Switch according to claims 1 to 3 in a multi-pole design, characterized in that the Stützisoiatoren (I) for the guide mechanism of the movable contacts and the nozzles with the extinguishing agent feeding hollow insulators (/ C) on the valve housing (VA) any, in particular radial angular position: are attached. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: German patents Xr. 171 457, I / I45 ⁸ '305797 · 5 ⁶⁶ 43i- 579 ² 95. 609 S75, 611 597, 631686, 659030, to 680 029;
French patents Xr. 681 315. 788,600, 801,352;
British Patent Xr. $ 27 764. 1 sheet of drawings © 55S3 11.52