DE1059533B - Compressed gas circuit breaker - Google Patents

Description

The invention relates to compressed gas circuit breakers with arc quenching and movement at least one of the contacts by a flowing pressure medium, wherein the pressure medium-moved contact on a Differential piston is seated, which is acted upon by the pressure medium on both sides during the switch-on process will.

The aim of the invention is to simplify the locking of the contacts with a simultaneous increase the pressure prevailing between the contact pieces. This is intended to result in a premature separation the contact pieces are avoided, d. H. their separation before full pressure in the arcing chamber is made.

To solve this problem, the known pneumatic relays are omitted and simpler ones Means are provided to press the contact pieces together as soon as the pressurized gas enters the quenching chamber is admitted. To solve the second and third problem, the aforementioned pressurized gas actuated Means additional means combined that first accelerate the opening movement and before it comes to an end, slow down.

The invention is described with reference to the drawing. It shows

Fig. 1 shows a section of an extinguishing chamber according to the invention, in which the blow stream only through the fixed hollow contact escapes into the open;

Fig. 2 shows a detailed arrangement for a connection opening.

In Fig. 1, 1 is the movable contact which cooperates with a second movable or fixed contact 4 . The contact 4 is hollow and, when the contacts 1 and 4 are separated, allows the blown stream to escape through the channel 5 into the atmosphere. The two contacts can be pressure contacts, that is to say pressed against one another, or friction contacts, one contact then penetrating the other with friction. The pressure between the contacts is ensured by a spring 6 , which can be omitted in the case of frictional contacts. The movable contact 1 is mounted on a differential piston consisting of a piston 2 with a large and a piston 3 with a small diameter. The piston 3 works in a cylinder 7, which is connected to the outside atmosphere through an opening 8 provided in its bottom and to the interior of the extinguishing chamber 13 through an opening 9 made in its side wall. The piston 2, which is initially located on the contact piece 1 , works in the cylinder 10, which is connected to the extinguishing chamber 13 through one or more openings 11 . The current is supplied from the external supply terminal, not shown, via the metallic cylinder pressurized gas circuit breaker

Applicant:
Establishments
Merlin & Gerin Societe Anonyme,
Grenoble, Isere (France)

Representative: Dipl.-Ing. H. Neureiter, patent attorney,
Nuremberg, Pirkheimer Str. 94

Claimed priority: France 10 July 1956

Andre Latour, Grenoble, Isere (France),
has been named as the inventor

7 and 10 and a sliding contact 12 is fed to the contact piece 1 and then flows via the contact piece 4 to the outer discharge terminal, not shown. The parts described so far are housed in the arcing chamber housing 13.

The arrangement works as follows: In order to bring about the opening of the circuit breaker, compressed air is admitted into the chamber in a manner known per se through devices not shown. This then penetrates through the openings 9 and 11 in the cylinders 7 and 10 and acts on the underside of the piston 3 and the top of the piston 2. By suitable choice of the number and the diameter of the openings 9 and 11 can be achieved that the Pressure which acts on the underside of the piston 3 increases significantly faster than the pressure acting on the upper side of the piston 2 , with the result that the contact piece 1 is pressed against the contact piece 4. By appropriately dimensioning the outlet opening 8 , a relatively rapid stabilization of the pressure in the cylinder 7 can be achieved while the pressure in the cylinder 10 is still increasing. Since the surface of the piston 2 is larger than that of the piston 3, the force which is exerted on the piston 2 at a given point in time will exceed that which acts on the piston 3. At this moment, the switching piece 1 begins its opening movement, which can be accelerated by providing additional openings 14 in the side wall of the cylinder 10 , which the piston 2 releases in its downward movement. During the

909 557/310

Claims (7)

Opening movement, the opening 9 is closed by the piston 3, and the air, which is now enclosed in the cylinder 7 and can only escape through the opening 8, is so strongly compressed by the piston 3 that it strongly brakes the movement of the same, whereupon the piston 3 touches the sealing ring 15 at a greatly reduced speed. From this moment on, the lower piston surface is only exposed to atmospheric pressure, so that by the pressure prevailing in the chamber, the contact 1 is held in the open position against the action of the spring 6, even when finally the compressed air, be it as a result of the leakage of the piston 2, be it thanks to openings provided in the piston 2 and not shown in the drawing, penetrates into the space between the pistons 2 and 3. As soon as the movable contact 1 begins its opening movement, the compressed air in the quenching chamber 13 can escape through the outlet channel 5. This can be closed with a certain delay by a suitable valve in order to maintain a certain residual pressure in the chamber 13. It is sufficient to cause the circuit breaker to close. to put the extinguishing chamber 13 in connection with the outside atmosphere through an outlet valve (not shown). The pressure in the chamber then disappears, and the spring 6 brings the contact piece 1 back into its closed position, in which it is possibly still supported by the compressed air enclosed between the pistons 2 and 3 of the differential piston. If you want to accelerate the closing movement, which z. B. can be done by accelerated removal of the air from the cylinder 10, additional openings 16 closed by valve flaps or an elastic ring 17 can also be provided in the cylinder cover. Further openings could optionally also be made in the piston 2. The position of the opening 9 in the side wall of the cylinder 7 will be selected depending on the braking effect to be achieved. The opening 9 can in particular be made in the immediate vicinity of the cylinder base and then closed by a check valve 42, as shown in FIG. 2, in which the movable contact is designed as an outlet line. Patent claims: 1. Compressed gas circuit breaker with arc quenching and movement of at least one of the Contacts by a flowing pressure medium, wherein the pressure medium-moved contact on a Differential piston is seated, which is acted upon by the pressure medium on both sides during the switch-off process is, characterized in that the differential piston (2,3) consists of two pistons (2, 3) of different diameters and in a closed one, of two chambers (control chamber 10 and auxiliary chamber 7) formed space is arranged, the connection between the Chambers (7,10) and the quenching chamber (13) producing means (openings 9, 11) sized are that when switching off or when admitting pressurized gas into the quenching chamber, the pressure in the Auxiliary chamber (7) rises faster than in the control chamber (10). 2. Circuit breaker according to claim 1, characterized in that the auxiliary chamber (7) is constantly communicates with the free atmosphere through a calibrated opening (8). 3. Circuit breaker according to claim 1, characterized in that the control chamber (10) with openings (11, 14) is provided in such an arrangement that when the piston moves (2) the control chamber (10) with the quenching chamber (13) one after the other in the contact opening direction associate. 4. Circuit breaker according to claim 2 and 3, characterized in that the connecting means (opening 8) between the auxiliary chamber (7) and the free atmosphere is closed, when the piston (3) has completed its opening movement. 5. Circuit breaker according to claim 1, characterized in that the control chamber (10) connecting means (Valves 16, 17) with the extinguishing chamber (13), which open when the pressure in the extinguishing chamber is turned off. 6. Circuit breaker according to claim 4 and 5, characterized in that an elastic seal (15) is provided which resiliently receives the piston (3) at the end of its opening movement and ensures that the auxiliary chamber is sealed off from the atmosphere. 7. Circuit breaker according to claim 1, characterized in that the auxiliary chamber (7) as Damping chamber is used in the movement of the piston (2) in the contact opening direction. Considered publications:
German patent specification No. 716 967. 1 sheet of drawings © 909 557/310 6.59