DE2934082A1 - Pneumatically operated circuit breaker - has fixed piston and movable cylinder connected by linkage to hollow movable electrode - Google Patents

Abstract

The gas-blast electrical circuit breakers has a pneumatic actuating system, and it includes a single hollow fixed electrode (12) and a single hollow moving electrode (14). There is an insulating electrode (18) which moves up to cover both electrodes when they are in contact. The piston assembly (19) is fixed. It has a hollow centre through which the moving electrode (14) passes. The cylinder assembly (16b) moves on the outside of the piston When the space (16a) over the flat head of the piston is pressurised, the cylinder carrying the insulating nozzle (18) is moved upwards. There are two pivoting links arranged so that when the piston and nozzle move upward the movable electrode (14) moves upward at an even greater rate.

Description

Auto-pneumatic pressure gas switch

The invention relates to an autopneumatic pressure gas switch according to the preamble of claim 1.

Such an autopneumatic pressure gas switch is from DE-OS 27 53 375 known. In this gas pressure switch, the moving part is the piston-cylinder unit formed by the piston to which the movable switching contact is attached, which is of a Actuator stem is actuated.

A linkage is provided which has two levers, each are pivotably articulated on the switch housing. Each lever has one on its outside The end of the longitudinal slot, which is slidably attached to the contact rod Receives attached cross bolt. A connecting rod sits on a bolt-and-slot coupling pivotally connected to a central point on each linkage or lever and at its upper end, each connecting rod engages in a slidable manner way into an opening in a stationary guide plate made of insulating material, wherein this opening guides the rod in a straight line vertically. If the contact rod during an opening operation of the switch is moved down, it leads over the Bolt to pivot the lever so that the connecting rods and the Koiben be moved downwards. As a result of the intervening lever system, the The path covered by the piston is about half that of the path that is covered by the movable one Actuator rod moving from the fully closed position to the fully closed position Is passed through the opening position. The mean speed of the piston is thus about half that speed during such a movement the moving drive rod.

The slots or elongated holes required in the known lever system lead in -, - olye of the very high acceleration forces to difficulties regarding the Fatigue strength.

The invention is based on the object of the known gas pressure switch to improve to the effect that elongated holes are avoided, so that the fatigue strength of the lever system is increased.

This object is achieved according to the invention by claim 1 characteristic features solved.

The inventive solution is because of the lack of elongated holes and latches achieve a simple, problem-free switch structure that can be used in various SF6 switch types can be used universally, with existing switches can be retrofitted.

Ausfünrungsbeispiele the invention and its configurations are shown in the drawing and described below.

They show: FIG. 1 a longitudinal section of a (only partially shown) Compressed gas switch, with the switch in the switched on in the left half Position and in the right half, the switch in the off position is shown; Figure 2 shows a cross section through the gas pressure switch of the figure 1 along lines 2 - 2.

The autopneumatic pressure gas switch 10 shown has a fixed power contact 12 and a movable power contact 14. A piston-cylinder unit is used to generate the extinguishing gas pressure in the cylinder 16b designed to be movable. The piston 16a essentially has a piston plate 19 with a recess 20 in the form of a circular area and a centrally arranged one hollow piston rod 21.

An insulating nozzle 18 is attached to the head of the cylinder 16b.

Between the movable power contact 14 and the cylinder 16b a connection via a lever system 50 is provided. The lever system has two one-armed lever 52 arranged symmetrically to the switch axis. On the outside wall 21a of the piston rod 21, a carrier 56 is fixedly attached. On this carrier 56 are the levers 52 are articulated. The other end of the lever 52 is on a tab 58 on movable power contact 14 articulated. There are connecting pieces between these articulation points 54 hinged to the levers 52. These connectors 54 are with their others Ends rotatably connected to the cylinder 16b.

The operation of the gas pressure switch is described below.

When the switch is turned off, the cylinder 16b moves in the opposite direction the piston 1Ga. This results in a separation of the (not shown, outside of the cylinder attached) permanent current contacts. At the same time, the inside of the cylinder is compressed located gas. As a result of the translation action of the lever system 50 moves the movable power contact 14 faster than the cylinder 16b and consequently lays a bigger way back than this. The choice of leverage ratios are different Relative speeds between the cylinder 16b and the movable power contact 14 possible. In this case, only the relatively small mass is advantageously used of movable power contact 14 accelerated high. If the movable contact 14 emerges from the nozzle 14, is the necessary extinguishing distance (first chance of deletion) between the fixed power contact 12 and the movable one Power contact 14 reached. By releasing the nozzle opening in this Moment the gas flow is released. This gas flow is immediately very high, because no gas could flow out despite the pre-compression. In the further course of the switch-off movement the cylinder 16b and the movable power contact 14 move to their end position opposite. Gas is further compressed for a second chance of extinguishing.

A drive rod (not shown) for the switch engages advantageously on the cylinder 16b.

The fixed power contact 12 is a tube that at least in its lower area is slotted so that a resilient contact between the movable and the fixed power contact is made possible.

Blank page

Claims (6)

Claims Autopneumatic pressure gas switch, with a fixed Power contact; a movable power contact; a piston-cylinder unit, whose movable part is connected to the movable power contact, wherein the connection is made via a lever system in such a way that the movable power contact when switched off is moved faster than the moving part of the piston-cylinder unit; characterized in that the lever system (50) has at least one arm Has lever (52); that one end of the lever (52) on the fixed part of the Piston-cylinder unit is articulated; that the other end of the lever (52) is hinged to the movable power contact; and that between the articulation points a connecting piece (54) is articulated on the lever (52) and is connected to the movable part the piston-cylinder unit is rotatably connected. 2. Autopneumatic compressed gas switch according to claim 1, characterized in that that the fixed part of the piston-cylinder unit (16) is the piston (16a). 3. Autopneumatic compressed gas switch according to claim 2, characterized in that that the articulation of the lever (52) on the piston (16a) via a on the outer wall of the Piston (16a) fixedly attached carrier (56) takes place. 4. Auto-pneumatic pressure gas switch according to one of the preceding Claims, characterized in that that the drive on the cylinder (1Gb) attacks. 5. Auto-pneumatic pressure gas switch according to one of the preceding Claims, characterized in that the fixed power contact (12) is a tube that is slotted at least in the contact area. 6. Auto-pneumatic pressure gas switch according to one of the preceding Claims, wherein an insulating nozzle is attached to the piston through which the movable Power contact is performed. in that the insulating nozzle is made of polytetrafluoroethylene consists.