DE2441561A1 - SWITCHING PART OF A COMPRESSED GAS SWITCH WITH BLOWING OUT THE ARC WITH COMPRESSED GAS - Google Patents

Description

The invention relates to the switching * part of a double flow pressure gas switch with blowing out the arc by compressed gas and relates in particular to improvements in relation to the shape of a nozzle made of insulating material, through which a from Blow cylinder and blow piston compressed extinguishing gas to form an arc to be led.

In recent years, the need for electrical power supply has grown and thus power transmission has increased Voltage and amperage became necessary. Here is the

The switching capacity to be handled by switches has increased.

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Nowadays, switches with breaking capacities of kO - 50 kVA in power networks of over 100 kV are required.

In pressurized gas switches with the arc being blown out by pressurized gas, a High pressure extinguishing gas led against the arc drawn between the contacts in order to extinguish it and thereby to interrupt the electrical circuit. Sulfur hexafluoride or other insulating gas is used as the extinguishing gas Gas used.

In earlier double-flow pressure gas switches with blow-out of the arc by compressed gas are the hollow movable arc contact, the block-shaped stationary Contact is arranged opposite, and the movable main contact, which is composed of a plurality of contact pieces and is arranged around the hollow movable arc contact, both arranged in a cavity, the one on the upstream side of the one made of insulating material There is a nozzle that blows a compressed gas supplied by the blowing cylinder and blowing piston against the arc. Because In this arrangement, the fixed and movable contacts (including the hollow movable arc contact) brought into contact with each other within the nozzle. Therefore the volume (or diameter) of the nozzle part located upstream of the nozzle can be enlarged, and this inevitably becomes the one below the dead space located near the nozzle is larger. As a result, the extinguishing gas pressure generated by the blowing cylinder and blowing piston falls, as soon as the extinguishing gas reaches the arc, it drops noticeably, and therefore the switching capacity also drops of switches of this type.

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The diameter of the nozzle opening becomes larger than that Selected diameter of the fixed contact so that it can pass through the opening. Consequently the greater part of the stream flowing through the opening, compressed extinguishing gas, goes to the downstream side the nozzle and only a much smaller part into the bore of the hollow moving arc contact; and thereby is the movement of the arc along the inner wall of the hollow movable arc contact and the cooling this contact is disturbed and, as a result, the switching performance of switches of this type is reduced .

If the nozzle opening is large in diameter, some of the compressed air flowing through it will carry Extinguishing gas does not contribute to extinguishing the arc. Therefore, more compressed extinguishing gas must be from the blowing cylinder and blowing piston be delivered than is actually necessary. Therefore, in turn, the blowing cylinder and the blowing piston have to be enlarged, and this makes the switching device compact not possible. ·

It is an object of the invention to provide a switching part of a double-flow pressurized gas switch with the arc being blown out by pressurized gas, which has a high switching capacity.

A further object of the invention is to provide a switching part of a Doppelfluß-type gas circuit breaker with blow of the arc by compressed gas, contributes in which substantially the entire volume of the puffer cylinder and puffer piston compressed by the quenching gas to extinguish the arc.

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The outstanding features of the invention are as follows: The stationary main contact consists of a plurality of contact pieces arranged in a circle; the the main movable contact opposite the stationary main contact is along the outer periphery of the nozzle made of insulating material, which conducts the extinguishing gas compressed by the blowing cylinder and blowing piston towards the arc, arranged; and only the hollow movable arc contact is in that located downstream of the nozzle opening arranged hollow interior of the nozzle. The block-shaped fixed arc contact is concentric arranged in the fixed main contact and opposite the hollow movable arc contact, so that the Fixed arc contact pass through the opening of the nozzle made of insulating material and in the upstream of the nozzle opening located hollow interior of the nozzle in contact with the hollow movable Arc contact 'can come.

The nozzle has an inner wall of such a shape that when the switch is in its fully open position, in which the fixed and movable main contact are out of contact with each other, the resistance, the extinguishing gas, which is supplied from a blow chamber delimited by the glass cylinder and the blow piston, on his The flow path to the bore of the hollow moving arc contact is smaller than the resistance, which the stream of compressed extinguishing gas finds on the way from the blowing chamber to the nozzle opening. Thanks to this arrangement more than half of the total volume of extinguishing gas flows into the bore of the hollow, movable arc contact .

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The invention therefore provides a switching part of a gas pressure switch with blowing out the arc with compressed gas, which has a nozzle made of insulating material, which extinguishing gas, which is compressed by the movable blow cylinder and the stationary blow piston, on the between the block-shaped fixed arc contact and the hollow movable arc contact drawn arc directs. The compressed extinguishing gas is led from the nozzle made of insulating material in two directions, namely to the on the downstream side of the nozzle and to the bore of the hollow movable arc contact. The nozzle is designed so that its located on the upstream side of the nozzle, to the nozzle opening adjoining wall surface forms an obtuse angle with the gas flow line directed towards the upstream side of the nozzle forms, so that of the volume of the compressed extinguishing gas more than half to the bore of the movable hollow Arc contact flows.

The drawing is a partial section through the switching part of the pressurized gas switch with the light flow being blown out by pressurized gas with an embodiment of the invention; it shows the switching part in that operating position in which it switches off the electrical circuit. In the drawing, the main contacts consist of a fixed main contact 21 and a movable main contact 22. The fixed main contact 21 consists of a plurality of cylindrically arranged current-conducting pieces and is provided with springs 23 at its front end. On the outside. At the start of the springs 23, a protective shield 2k is arranged to reduce the electrical field strength. - '

In the middle part of the stationary main contact 21 is a

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Fixed block-shaped arc contact 25 arranged on a (not shown) immovable component is attached to which the stationary main contact 21 is attached. The fixed arc contact 25 is with provided a front end part, which consists of arc-resistant material.

On the other hand, a blowing device is arranged on the side of the movable contact, which consists of a Blow cylinder 26 and a blow piston 27 consists. The movable main contact 22, which also serves to provide a To keep existing insulating nozzle 28 in place, is by screws 30 with the side wall 38 of the the side of the contact arranged blowing cylinder. 26 connected. The nozzle 28 made of insulating material is on her Downstream side provided with an opening, the inner diameter of which is greater than the outer diameter of the stationary Arc contact 25 is and which expands steadily towards the outside. Inside the main moving contact 22, a hollow movable arc contact 31 is arranged; this is similar to the movable one Arc contact 25 is provided with a front end part made of arc-resistant material.

The blowing cylinder 26 and the blowing piston 27 define a blowing chamber 32 which contains an arc-extinguishing gas. In the side wall 38 of the blowing cylinder 26 facing the contact side, gas supply openings 33 are arranged, through which the extinguishing gas located in the blowing chamber 32 against an arc drawn between the fixed arc contact 25 and the movable arc contact 31 is blown. Only a single gas supply opening 33 is drawn, but four such gas supply openings from

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the same clear cross-section are in this one Embodiment available.

The nozzle 28 made of insulating material is designed in such a way that its inner wall surface located on its upstream side, adjoining the nozzle opening, is almost flat and forms an angle θ of slightly more than 90 with the longitudinal axis of the switch. On the outside of the hollow, movable arc contact 31, a plate 3 ^ which controls the gas flow and is made of insulating material is arranged; this is designed in such a way that its main surface forms an angle <X_of just over 90 with the longitudinal axis of the switch. This gas flow controlling plate "} h reduces the dead space inside the nozzle and prevents the arc from burning the extension of the movable main contact 22 or the screws 30. Since the movable arc contact 31 only serves to ignite an arc when the switch turns off the circuit, and since the electric current flows through the main contacts 21 and 22 when the switch is closed, the movable arcing contact 31 is only small because it only flows through it for a very short period of time with a high level of current will.

The insulating nozzle 28 is designed so that the distance L between its almost flat, upstream, to the nozzle opening subsequent inner surface and the side wall 38 of the blow cylinder 26 is smaller than the radius R of its base is. This reduces the dead space in their interior through which the extinguishing gas flows after it has passed the gas supply openings has flowed through and before it reaches an arc ignited between the arc contacts 25 and 31. The nozzle 28 is designed so that its on its

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upstream side, adjoining its opening, almost flat inner surface and the main surface of the plate 3k controlling the gas flow enclose between them a space of a cross-sectional area which is perpendicular to the direction of flow of the compressed gas Lb "sch and substantially equal to the sum of the cross-sectional areas of the four gas supply Openings 33. So the dead space in this nozzle 28 is reduced even more.

A tubular blowing cylinder drive rod is arranged in the center of the blowing cylinder 26 and is connected to it in one piece 36, on which the hollow movable arcing contact is appropriate. The device described above is on a (not shown) compressed air tank arranged with sulfur hexafluoride or other insulating, extinguishing gas is filled.

The mode of operation of the double-flow compressed gas switch with the arc being blown out by compressed gas of the type specified above will now be described. When the switch is closed, i.e. the circuit is closed, the electrical current goes through the stationary main contact 21, the movable main contact 22 and the blowing cylinder. Actuator moved downwards (in the drawing). Thereby, the blowing cylinder 26, the insulating nozzle 28, the main movable contact 22 and the movable arc contact are moved downward together and the main contacts 21 and 22 are brought out of contact with each other. When this happens, the electrical current flows on one through the stationary arcing contact 25, the movable arcing contact 31 and the blow cylinder

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given way. Further downward movement of the blow cylinder drive rod 36 brings the arcing contacts 25 and 31 out of contact with each other, thereby creating an arc 35 between them.

On the other hand, this is in the blow chamber 32 between the blowing cylinder 26 and the blowing piston 27 compressed extinguishing gas and through the gas supply openings 33 blown against the arc 35; it flows in two streams and in two different directions, namely towards Bore of the movable hollow arcing contact 31 and to the opening of the insulating nozzle 28. Thus, the extinguishing gas blown out through the two outlets to the low-pressure part of the container. The arc 35 is extinguished by the extinguishing gas blown against him, and thereby the electrical current is interrupted.

In the switching part of the switch according to the invention are the main contacts 21 and 22 outside the nozzle 28 made of insulating material and only the arc contacts 25 and 31 arranged inside the insulating nozzle 28. Therefore, the Opening of the insulating nozzle 28 have a diameter that is just large enough to accommodate the fixed arc contact 25 low electrical conductivity. Consequently no more extinguishing gas passes through the nozzle than is necessary to extinguish the arc, and therefore If the volume of the blowing chamber 32 is sufficient to supply a substantial minimum value of pressurized extinguishing gas.

The approximately flat inner surface of the insulating material nozzle 28, which extends to the nozzle opening on the upstream side of the nozzle forms an angle θ of over 90 ° with the longitudinal axis of the switch. The main interface of the

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The plate Jk which controls the gas flow forms an angle of more than 90 ° with the longitudinal axis of the switch. Due to these features the through the gas supply port 33 flowing pressure quenching gas at a right or obtuse angle ⁴ may be blown against the drawn between the arcing contacts 25 and 31 arc. As a result, a larger amount of the pressurized extinguishing gas can flow into the bore of the hollow movable arc contact 31 than into the opening of the nozzle 28, and the arc 35 drawn between the arc contacts 25 and 31 can flow along the inner wall of the movable hollow arc contact. Contact 31 migrate in the same direction in which the pressure extinguishing gas flows, and therefore the arc can be quickly cooled and safely extinguished.

Since the distance between the approximately flat inner surface of the nozzle 28, which adjoins the nozzle opening on the upstream side of the nozzle, and the side wall 38 of the blow cylinder 26 facing the contact side is smaller than the radius of the base of the nozzle 28, can the dead space on the flow path of the extinguishing gas from the gas supply ports 33 to the arc drawn between the arc contacts 25 and 31 is greatly reduced, and the pressure of the extinguishing gas can be prevented from falling, and thereby the switching efficiency of the switch can be improved. It should be noted in this context that the distance between the approximately flat inner surface of the nozzle 28 and the side wall of the blow cylinder should be at least about 1/3 of the radius of the base of the nozzle, since if this distance is too small, the clear cross section of the The flow path of the extinguishing gas would be too small and the resistance to the gas flow would be too great.

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Claims (6)

Expectations \ ^ J Switching part of a pressurized gas switch with blowing out the arc with pressurized gas, characterized by a) a hollow stationary main contact (21) with an in A multitude of contact pieces arranged in a circle, b) a fixed arc contact (25) »which is block-shaped and is arranged coaxially in a cavity of the stationary main contact (21), c) a movable blowing cylinder (26) in front of the hollow fixed main contact (21) is arranged, d) a side wall (38) which closes the movable blowing cylinder (26) and in front of the hollow, stationary main contact (21) is arranged, e) a tubular rod (36) coaxial with the movable Blowing cylinder (26) arranged and attached to the side wall (38) and extending through the movable blowing cylinder (26) extends therethrough, f) a stationary piston (27) »which is arranged in the movable blowing cylinder (26) and interacts with it, g) a movable hollow arcing contact (3I) »the arranged in front of the fixed arc contact and in the tubular rod (36) of the blowing cylinder (26) is attached, h) a nozzle (28) made of insulating material, which is arranged coaxially to the movable hollow arc contact (31) 5098U / 07A1 2U1561 and attached to the side wall (38) and on its downstream side is provided with an opening of a diameter large enough to accommodate the block-shaped stationary To let through the arc contact (25), i) a movable main contact (22) which is attached to the outer circumference of the insulating nozzle (28) coaxially to the latter and in and out sliding contact with the hollow stationary Main contact (21) can be brought and which is electrically connected to the side wall (38), j) a plurality of gas supply openings arranged in the side wall (33) for inlet of gas, there, s in a chamber (32) in the movable blowing cylinder (26) from the side wall (38) and the movable piston (27) is limited, has been compressed and through these gas supply openings (33) led to the downstream side of the insulating nozzle (28) when the movable blowing cylinder (26) is actuated, and k) in that the nozzle (28) made of insulating material has an inner wall of such a shape that, when the switch is in its fully open position, in which the fixed and movable main contacts (21 and 22) are out of contact with one another the resistance that the gas finds on the flow path from the plurality of gas supply openings (33) to the bore of the movable hollow arc contact (31) is equal to or greater than the resistance that the gas on the flow path from finds the gas supply openings (33) through the opening of the insulating nozzle (28) to the downstream side of the nozzle (28). 5098U / 0741 2. Switching part of a gas pressure switch with blowing out of the arc by compressed gas, characterized by a) a hollow stationary main contact (21) with an in A multitude of contact pieces arranged in a circle, b) a fixed arc contact (25) which is block-shaped and coaxial in a cavity of the fixed main contact (21) is arranged, c) a movable blowing cylinder (26) in front of the hollow fixed main contact (21) is arranged, d) a side wall (38) which closes the movable blowing cylinder (26) and in front of the hollow, stationary main contact (21) is arranged, e) a tubular rod (36) which is arranged coaxially with the movable blow cylinder (26) and is attached to the side wall (38) and extends through the movable blow cylinder (26), f) a stationary piston (27) which is arranged in the movable blowing cylinder (26) and interacts with it, g) a movable hollow arc contact (31) » which is arranged in front of the stationary arc contact and is attached in the tubular rod (36) of the blow cylinder (26), h) a nozzle (28) made of insulating material which is arranged coaxially with the movable hollow arcing contact (31) and is attached to the side wall (38) and which is provided on its downstream side with an opening of a diameter which is large is enough to let through the block-shaped, fixed arc contact (25), 509814/0741 i) a movable main contact (22) which is attached to the outer circumference of the insulating nozzle (28) coaxially to the latter and in and out of sliding contact with the hollow stationary main contact (21) and the electrical is connected to the side wall (38), j) a plurality of gas supply openings (33) arranged in the side wall for the inlet of gas which is delimited in a chamber (32) in the movable blowing cylinder (26) by the side wall (38) and the movable piston (27) , has been compressed and is fed through these gas supply openings (33) to the downstream side of the insulating nozzle (28) when the movable blowing cylinder (26) is operated, and k) in that the nozzle (28) made of insulating material has an inner wall of such a shape that when the switch is in its fully open position, in which the fixed and movable main contact (21 resp. 22) are out of contact with each other, the volume of compressed gas flowing from the plurality of gas supply ports (33) for drilling the movable hollow arc contact (3O flows equal to or greater than the volume of compressed gas flowing from the gas supply openings (33) flows through the opening of the insulating nozzle (28) to the downstream side of the nozzle (28). 3. Switching part of a gas pressure switch with blowing out of the arc by compressed gas, characterized by a) a hollow, stationary main contact (21) with a plurality of contact pieces arranged in a circle, 509814/0741 b) a stationary arc contact (25) »which is block-shaped and coaxially arranged in a cavity of the stationary Hauptkon contact (21), c) a movable blowing cylinder (26) which is arranged in front of the hollow, stationary main contact (21), d) a side wall (38) which closes off the movable blowing cylinder (26) and is arranged in front of the hollow, stationary main contact (21), e) a tubular rod (36) coaxial with the movable . Chen blowing cylinder (26) is arranged and attached to the side wall (38) and extends through the movable blowing cylinder (26), f) a stationary piston. (27), which is arranged in the movable blowing cylinder (26) and interacts with it, g) a movable hollow arc contact (31 ) » which is arranged in front of the fixed arc contact and is placed in the tubular rod (36) of the blow cylinder (26) , h) a nozzle (28) made of insulating material which is arranged coaxially with the movable hollow arcing contact (31) and is attached to the side wall (38) and which is provided on its downstream side with an opening of a diameter which is large enough is to let through the block-shaped fixed arc contact (25), i) a movable main contact (22) which is attached to the outer circumference of the insulating nozzle (28) coaxially to the latter and in and out of sliding contact with the hollow stationary main contact (21) and the electrical is connected to the side wall (38), 50981 4/0741 j) a plurality of gas supply openings arranged in the side wall (33) for inlet of gas in a chamber (32) contained in the movable blowing cylinder (26) from the side wall (38) and the movable piston (27) is limited, has been compressed and through these gas supply openings (33) is guided to the downstream side of the insulating nozzle (28) when the movable blowing cylinder (26) is actuated, and k) in that the nozzle (28) made of insulating material has an inner wall of such a shape that a stream is compressed Gas, which is supplied through the plurality of gas supply openings (33) and against one between the block-shaped stationary arc contact (25) and the hollow movable arc contact (31) drawn arc (35) is blown, migrates to the upstream side of the insulating nozzle (28), 4. Switching part of a pressurized gas switch with blowing out of the arc by compressed gas, characterized by a) a hollow stationary main contact (21) with an in A multitude of contact pieces arranged in a circle, b) a stationary arc contact (25) »which is block-shaped and coaxial in a cavity of the stationary main contact (21) is arranged, c) a movable blowing cylinder (26) which is arranged in front of the hollow, stationary main contact (21), d) a side wall (38) containing the movable blowing cylinder (26) closes and is arranged in front of the hollow stationary main contact (21), 5098U / 0741 e) a tubular rod (36) coaxial with the movable Blowing cylinder (26) arranged and attached to the side wall (38) and extending through the movable blowing cylinder (26) extends therethrough, f) a stationary piston (27) which is arranged in the movable blowing cylinder (26) and interacts with it, g) a movable hollow arcing contact (31)> which is arranged in front of the fixed arc contact and mounted in the tubular rod (36) of the blowing cylinder (26), h) a nozzle (28) made of insulating material, which is arranged coaxially to the movable hollow arc contact (31) and attached to the side wall (38) and on its downstream side with an opening of a diameter is provided that is large enough to let through the block-shaped fixed arc contact (25), i) a movable main contact (22) which is attached to the outer circumference of the insulating nozzle (28) coaxially to the latter and in and out sliding contact with the hollow stationary Main contact (21) can be brought and which is electrically connected to the side wall (38), j) a plurality of gas supply openings arranged in the side wall (33) for inlet of gas in a chamber (32) contained in the movable blowing cylinder (26) from the side wall (38) and the movable piston (27) is limited, has been compressed and through these gas supply openings (33) is guided to the downstream side of the insulating nozzle (28) when the movable blowing cylinder (26) is actuated, and 509814/0741 k) by such a shape of the insulating nozzle (28) that the angle (<jC), which is located on its upstream side, adjoining the opening of the nozzle with the inner wall surface facing the upstream side of the nozzle Streamline forms, is over 90 °. 5. Switching part of a compressed gas switch with blowing out the arc by compressed gas according to claim k, characterized by a gas flow controlling plate (3 ^) made of insulating material, which is arranged in the insulating nozzle (28) so that it the side wall (38) covered, but leaves the bore of the hollow movable arc contact (31) and the plurality of gas supply openings (33) free. 6. Switching part of a compressed gas switch with blowing out the arc by compressed gas according to claim 5> characterized in that the gas flow controlling plate (3k) an.ihrer the side wall (38) has a surface facing away from the side facing the upstream side of the Insulating nozzle (28) directed streamline of the gas forms an angle of over 90. 5098U / 07A1