FI97753B - Gas-insulated three-pole high voltage switch - Google Patents

Description

97753

Gas-insulated three-pole high voltage switch

The invention relates to a high-voltage switch having a closed housing filled with a strong dielectric gas, in particular sulfur hexafluoride, comprising a plurality of similar pole units and a drive rod which penetrates the housing wall by means of a flexible seal, each pole unit comprising: a fixed contact a movable contact arranged at the end of the conductive pin so that it can move axially between a closed position and an open position, the pin being mechanically connected at its opposite end to a crank in the rod and electrically connected by a conductor braid to the second end connector; , - and a pressurized gas blower with a pressurized space for injecting pressurized gas into the spark zone when the pin moves to the open position.

In FR-A 2 242 794, the housing is made of an insulating material, and an excess rod is placed inside the housing at the various pole units. In the open position of the contacts, the various pole units and the excess rod • ·. »The overshoot interval is less than the distance between the separated contacts to prevent overshoot * ··· between the latter.

In another known switch, surface damage to the insulator can cause leakage current between the contacts in the open position. In the absence of earth, a dangerous potential can be generated at the second terminal of the 97753 2-pole unit. As a result, the switch no longer performs its disconnection function.

The object of the present invention is to improve the safety of a gas-insulated high-voltage switch.

The switch according to the invention is characterized in that the metal housing is at ground potential and has openings for the bushings of the first and second terminals, that each pole unit comprises an insulating rotation chamber covering the gas blower and the fixed and movable contacts so that the other end of the chamber and the second end is fixed to the inner wall of the housing, which acts as a ground ring, and that an annular space is provided between the chamber of the respective first terminal and the bushing.

Such an arrangement prevents any direct excesses between the open contacts. The common housing of the hub units acts as a ground ring, eliminating the need for a separate overhang rod. This ensures that the switch is switched off, so that direct contact with the bushing of the first terminal of any terminal unit is not dangerous.

The insulating chamber comprises a first cylindrical part within which the piston of the gas blowing device slides, whereby the piston is fixedly connected to the movable pin ··. ·· and a blow nozzle is connected to the piston, which is connected to the space to be pressurized through the connecting openings.

The chamber is provided with a second, bell-shaped part next to the cylinder, whereby the side surface of the bell has a connecting opening between the spark zone of each pole unit and the expansion space of the housing.

97753 3

Other advantages and features of the invention will become more apparent from the following exemplary description of an embodiment, which is not intended to limit the invention in any way, and which is carried out with reference to the accompanying drawings, in which:

Figure 1 is a partially sectioned plan view of a three-pole switch according to the invention with the housing removed;

Figure 2 is a sectional view 2-2 of Figure 1 with the switch in the closed position; and

Figure 3 is a view similar to Figure 2 with the switch in the open position.

The figures show a three-pole high voltage switch 10 housed in a sealed metal housing 12 filled with a strong dielectric insulating gas, in particular sulfur hexafluoride. The housing 12 is a parallelepiped-shaped housing made of cast aluminum alloy and includes three similar pole units 14, 16, 18 located horizontally parallel to each other.

The electrical connection of the switch 10 is provided by using a first set of terminals 20, 22, 24 and a second set of terminals 26, 28, 30 passing through two opposite side surfaces 32, 34 of the housing 12, respectively.

Each terminal unit 14, 16, 18 includes a fixed plug-finger contact 36 supported by a conductive contact knob 38 attached to an insert 40 of a first series of corresponding terminals 20, 22, 24. The insert 40 is within a penetration insulator 42 including an inner base. 43 and an outer threaded collar 44 for receiving the fastening nut 46.

The bushing 42 of all the terminals 20-30 is fitted in a corresponding opening 48 in the housing 12, whereby a seal 50 is attached between the base 43 and the inner wall of the surface 32.

Also attached to the contact knob 38 of each pole unit is a metal reflector 52 which coaxially surrounds the fixed contact 36 to provide an even distribution of the electric field in the contact separation zone.

Each fixed contact 36 cooperates with a movable contact 54 located at one end of the conductive pin 55. The opposite end of this pin 55 is connected to the respective terminals 26, 28, 30 of the second series by a braided connecting strip 56.

A fixed rotating chamber 58 is coaxially arranged around the sliding pin 55 and the reflector 52 of each pole unit 14, 16, 18. This chamber 58 of insulating material includes an open bell-shaped portion attached to the housing 12, a cylinder 62 forming part of the compressed gas blower 55, and axial steering bearing 66. Cylinder 62 cooperates. . with a piston 68 attached to the slide pin 55 * so as to compress SF6 gas into the pressurized space 70 as a result of the slide movement of the pin 55. Attached to the movable piston 68 is a blow nozzle 72 which communicates through the orifices 74 with the pressure space 70, '!' which allows pressurized gas to be sprayed into the spark zone 76 after the contacts 36, 54 have been separated from each other.

The clock 60 of the chambers 58 has at least one opening 77 through which the spark zone 76 of each pole unit communicates with the interior of the housing 12.

97753 5

Inside the housing 12 there is a limited rotatably mounted rod 78 of insulating material connected to the shaft 80 of the drive mechanism (not shown). The passage point of the shaft 80 in the housing 12 is sealed by a flexible seal 82. The rod 78 extends perpendicular to the three pole units 14, 16, 18 and includes three cranks 84, 86, 88 mechanically connected to the sliding pins 55 so as to convert the rotational movement of the rod 78 into a direct movement of each movable contact 54. Each crank 84, 86, 88 includes a clutch shaft 90 located in an elongate slot 92 in a transmission portion formed by a fork integrally connected to a respective pin 55.

At the end of each bell 60 is a flange 96, from which the corresponding chamber 58 is fixed by screws 98 to the inner wall 32 of the surface 32. Each chamber 58 has an annular space 100 arranged between the bell 60 and the base 43 of the bushing 42.

Insulation chambers 58 and insulators 42 are in direct communication with the metal housing 12.

Polar unit of a high voltage switch according to the invention. . works as follows: • · • «

The housing 12 contains SF6 gas at, or close to, atmospheric pressure.

'· "Switching from the closed position (Fig. 2) to the open position (: 3) is performed by a limited clockwise rotation of the rod 78 (arrow F1 in Fig. 2). The bearing 66 of the insulating chamber 58 provides axial control of the movement of the pin 55. At the beginning of the opening movement into the pressurized space 70 until the contacts 36, 54 separate from each other.The extension movement 97753 6 of the pin 55 causes the spark to be extinguished in a well-known manner as the compressed gas is sprayed from the orifices 74 and the nozzle 72 into the spark zone 76.

In the open position of the pole unit (Figure 3), an insulating gap of about sixty millimeters separates the fixed contact 36 and the movable contact 54. If the insulating surface of the chamber 58 is damaged, a leakage current may flow along the chamber between the conductor pin 55 and the metal housing 12 at ground potential. Such a leakage current in the passageway is not immediately dangerous. It can spark the ground, which is easy to detect with a ground fault toroidal differential protection device.

The metal housing 12 thus acts as a ground ring for all three pole units 14, 16, 18. The presence of a radial intermediate space 100 between each bushing 42 and the corresponding chamber 58 prevents any direct sparking between the fixed contact 36 and the movable contact 54.

The bushing insulators 42 of the terminals 20, 22, 24 are at ground potential and can be safely touched when the contacts 36, 54 are open (Fig. 3), which contributes to the switch-off operation.

According to an alternative embodiment, three-. . the pole units 14, 16, 18 of the pole switch place a straight • · • edge at the edges inside the metal housing 12.

Claims (5)

A high-voltage closed-circuit breaker (12) filled with a strong dielectric gas, in particular sulfur hexafluoride, comprising a plurality of identical pole heaters (14, 16, 18) and a control rod (78) which is provided through the wall of the housing (12) while mediating a dynamic seal, each pole unit (14, 16, 18) comprising: - a stationary contact (36) supported by a conductive connector (38) electrically connected to a first connection terminal (20, 22, 24), - a movable contact (54) arranged at one end of a conductive pin (55) such that it can move axially between the closed position and the open position, the pin 15 having its opposite end is mechanically connected to a crank (84, 86, 88) on the actuating rod (78) and is electrically connected via a braided conductor (56) to a second terminal (26, 28, 30), and - a blowing device (64 ) for compressed gas, which includes a compressor nature space (70), which is intended to blow compressed gas into a beaker zone (76) when moving the pin (55) toward the open position, characterized in that the metal housing (12) is at ground potential and has openings (48) for penetration insulation (42) for the first and second inclination clamps (20, 22, 24, 26, 28, 30), to connect each pole unit (14, 16, 18) an insulating rotary chamber (58) which encloses the gas-blowing device (64) as well as the stationary (36) and movable (54) contact: such that one end of the chamber (58) is arranged as a · · · .'t *; axially guiding bearing (66) for the pin (55) and its ·. the other end is attached to the inside of the housing (12), which acts as an earthed ring, and that an annular gap (100) is provided between the chamber (58) and the lead-through insulation (42) for the corresponding first terminal block (20, 22, 24). 10 97753 High-voltage switch according to claim 1, characterized in that the insulating chamber (58) comprises a first cylindrical portion (62), in the interior of which a piston (68) of the gas-blowing device (64) is slidably arranged, the cowling (68) being fixedly connected to the movable pin (55) and to the cowling is attached a blow nozzle (72) which communicates with the compressible space (70) by means of connecting orifices (74). 10 High voltage switch according to claim 2, characterized in that the chamber (58) adjacent the cylinder (62) is provided with a second bell-shaped portion (60), the side surface of the bell (60) having a connection opening (77) between the beak zone for each pole unit. (14, 16, 18) and the expansion space in the housing (12). High voltage circuit breaker according to any of claims 1-3, characterized in that the lead-insulation (42) for the first connection terminal (20, 22, 24) in each terminal unit 20 (14, 16, 18) comprises an internal stop (43), which resting on the inner surface of the housing (12) while mediating a seal (50), and an outer threaded collar (44) cooperating with a fastening nut (46). 25 High voltage circuit breaker according to claim 4, characterized in that, at each connector (38) of each pole unit (14, 16, 18) • M · ... * is attached a metallic deflector (52) for distributing it: electric field around the stationary cup-shaped contact (36), and the nozzle (72) in the closed position of the switch: 30 protrudes from the movable contact (54) and encloses in the · stationary contact (36) with a little radial play. • · · «· ·: im i imi i i i n