KR0135091Y1 - Switch gear of gas - Google Patents

Abstract

The present invention has a piston connected to the rotary shaft to the inside of the cylinder to change the length of the cylinder so that the position of the variable contact each other in contact with each other, the switch of the gas arc extinguishing arc arcing between the two contacts when the high pressure switch is cut off It's about gears.

Description

Gas extinguishing switchgear

1 is an exemplary cross-sectional view of a state where the high pressure switch is in the power state.

2 is an exemplary cross-sectional view of a state where the high pressure switch is in the closed state.

3 is an exemplary cross-sectional view of a state where the high pressure switch is in the ground state.

* Explanation of symbols for main parts of the drawings

1: cylinder 2: piston

3: fixed contact 6: movable insulation arm

7,19: Rotating shaft 10,10 ': Fixed contact

11,12 connection terminal 13 extension part

14: Connection terminal

The present invention has a piston connected to the rotary shaft to the inside of the cylinder to change the length of the cylinder so that the position of the variable contact each other in contact with each other, the switch of the gas arc extinguishing arc arcing between the two contacts when the high pressure switch is cut off It's about gears.

In general, when the high-voltage switch is cut off, an arc occurs between the two contacts, so a perfect cutoff is not made. Therefore, in order to block such an arc, the contact must be completely disconnected and the generated arc must be cooled and fired.

Therefore, the high pressure switch must be provided with a gas extinguishing unit and the two contacts must be completely disconnected, but the gas extinguishing unit currently provided requires a complicated disconnection structure and a gas extinguishing structure.

The present invention is to solve the problems described above, the switch unit is divided into three stages of the power state, closed state, ground state and one rotary shaft installed in the switch unit, and the insulation arm connected to the rotation shaft and the insulation arm The piston connected to the inside of the cylinder is installed so that it can be pulled in and out of the cylinder. When the rotating shaft is rotated by the external lever operation, the insulation arm moves according to the position, and the contact is automatically switched to the power, closed, and grounded state. The arc generated at the moment of falling of the contact point is cooled by the compressed air according to the movement of the cylinder and the piston to provide an improved function of the gas extinguisher switchgear with perfect disconnection and gas extinguishing.

Hereinafter, the contents of the present invention will be described in detail with reference to the accompanying drawings.

The extension part 13 is formed in the center of the high pressure switch part in which the fixed contact points 10 and 10 'are formed in the upper and lower sides, and the pivot shaft 7 ( 19), a movable insulating arm 6 is provided on the pivot shaft 7 located in the middle of the fixed contact 10, 10 ', and a cylinder (on the pivot shaft 19 of the extension portion 13). 1) rotatably installed, the movable insulating arm (6) rotatably arranged piston (2) entering and exiting the cylinder (1), the nozzle 16 is attached to one side of the piston (2) In addition, a movable contact 3 is formed at one side of the cylinder 1, a connection terminal 14 is inserted at one side of the extension part 13, and a connection terminal () is formed at the fixed contacts 10, 10 ′. 11) It is a gas-gear switchgear which extends (12).

Referring to the operation process and the effect of the present invention is as follows.

As shown in FIG. 1, the nozzle is moved by the movable insulating arm 6 while rotating the movable shaft 7 counterclockwise in a state in which current flows through the connecting terminal 11 to the connecting terminal 14. By moving the downward direction (16), the movable contact (4) is separated from the fixed contact (10) while the air in the cylinder (1) is compressed by the housing (17) and the piston (2) and the compressed air is stored in the housing ( 17) and the compressed and compressed air by the piston 2 is injected into the arc through the nozzle 16 to cool and extinguish the arc and finally move the position to the state shown in FIG. Flows through the connection terminal 11 and the fixed contact 10, the movable contact 4, the movable cylinder 18, the movable contact 3, the rotary contact 19 to the connection terminal.

In FIG. 2, when the movable shaft 7 is rotated counterclockwise, the movable insulating arm 6 is sucked into the cylinder 1 through the nozzle 16, and the movable contact 4 is connected to the fixed contact 10. Contact and finally stop at position 3.

At this time, if the connection terminal 12 is grounded, the cable connected to the connection terminal 14 is maintained in the ground state, and if the power is connected to the connection terminal 12, the connection terminal 12 and the fixed contact 13, It flows to the connection terminal 14 through the movable contact 4, the movable cylinder 18, the movable contact 3, and the rotary contact 19. As shown in FIG.

In FIG. 3, when the movable shaft 7 is rotated clockwise in a state where current flows through the connecting terminal 12 to the connecting terminal 14, the nozzle 16 is moved upward by the movable insulating arm 6. Direction, the movable contact 4 is detached from the stationary contact 13 while the air in the cylinder 1 is compressed by the housing 17 and the piston 2 to the arc through the compressed air nozzle 16. It is sprayed to cool the arc and finally stop again as in Figure 2.

In FIG. 3, the current is connected to the connection terminal 12 through the connection terminal 12, the fixed contact 13, the movable contact 4, the movable cylinder 18, the movable contact 3, and the rotary contact 19. Flows into.

In FIG. 2, when the movable shaft 7 is rotated in the clockwise direction, the movable insulating arm 6 rotates while pulling the nozzle 16 upwards while at the same time, air is sucked into the cylinder 1 through the nozzle 16. The movable contact 4 is brought into contact with the fixed contact 10 and finally stopped in the state shown in FIG. 1 again.

At this time, if the connection terminal 12 is grounded, the cable connected to the connection terminal 14 is maintained in the ground state, and if the power is connected to the connection terminal 12, the connection terminal 12 and the fixed contact 13, The current flows to the connection terminal 14 through the movable contact 4, the movable cylinder 18, the movable point 3, and the rotary contact 19.

The present invention, which is operated as described above, rotates the rotating shaft by the external lever operation, the insulation arm moves to the position, and the contact point is automatically switched to the power, closed, and ground state, and at the same time, when the two contact points drop due to the position movement. The arc has the effect of providing an improved function of the gas extinguisher switchgear with perfect contact disconnection and gas extinguishing by allowing the compressed air to be cooled and cooled by the movement of the cylinder and the piston.

Claims (1)

The extension part 13 is formed in the center of the high pressure switch part in which the fixed contact points 10 and 10 'are formed in the upper and lower sides, and the pivot shaft 7 ( 19), a movable insulating arm 6 is provided on the pivot shaft 7 located in the middle of the fixed contact 10, 10 ', and a cylinder (on the pivot shaft 19 of the extension portion 13). 18) is rotatably arranged, and the movable insulating arm 6 is rotatably arranged with a piston 2 entering and exiting the cylinder 18, and a nozzle 16 is attached to one side of the piston 2; In addition, a movable contact 3 is formed at one side of the cylinder 18, a connection terminal 14 is inserted at one side of the extension 13, and a connection terminal (3) is provided at the fixed contacts 10, 10 ′. 11) Gas extinguishing unit switchgear, characterized in that extending (12).