Disconnector for high-voltage switchgears

专利摘要:
The invention relates to electrical engineering, in particular to disconnectors for high-voltage gas-insulated switchgears in a 1-month metal enclosure. The purpose of the invention is to reduce wear while ensuring fast movement / 7; 5 i 5 W or auxiliary contact compared to the main one. The disconnector 1 comprises a grounded housing 2, a tubular commuting finger 3 and a fixed counter contact 4 surrounded by a field electrode 5. The main commuting pin 7 is equipped with a drive 9 controlled by a rocker guide 10. The drive 9 consists of a tension lever 13 and a drive lever 14, between which there is a spring 15. On the drive lever 14 angular limiters 20, 21 are located. On the tension lever 13 a guide roller 22 is mounted for rotation. There may be an additional drive 9 located with each other side of the main switching pin 7 Mechanical control guide roller 22 is in the form of scenes within field electrode 5. 5 3.p. f-ly, 14 ill. c (OS
公开号:SU1316571A3
申请号:SU843758545
申请日:1984-07-10
公开日:1987-06-07
发明作者:Лоренц Дитер；Олсен Вилли
申请人:Сименс Аг (Фирма)；
IPC主号:

专利说明:

This invention relates to a disconnector for gas insulated high-voltage switchgear in a metal housing.
The purpose of the invention is to reduce wear while allowing the auxiliary switching pin to move faster than a moving main switching pin.
FIG. 1 shows a disconnector, longitudinal section; in fig. 2 shows a movable main switching pin with supporting spring-applied spring drives of auxiliary switching pins, end view, partly section j in FIG. 3 — one of the guide levers of the rocker guide; in fig. 4-13 - disconnector during operation; in fig. 14 - main switching pin, option.
Disconnector 1 is placed in a tubular metal earthed housing 2, which is filled under excessive pressure with an elec- tric gas (sulfur hexafluoride).
To align the electric field between the metal case 2 and the tubular movable main switching pin 3 and also the tubular fixed counter contact 4, both the movable main switching pin 3 and the counter contact 4 are shielded by field electrodes 5, the distance to the body 2 is not to scale. Between the end sides of both field electrodes 5, there is an arrow-shaped solution of contacts 6. Inside the tubular movable main commutation pin 3 there is an auxiliary commutating pin 7 installed in the middle, in the other field electrode 5 there is a counter contact 8 (actuator of the movable main commutation pin 3 not shown), As an actuator of the auxiliary commutating pin 7, a spring-loaded jump actuator 9, which is mechanically controlled by means of the rocker guide 10. At expressions in FIG. 1 and 4, the disconnect switch 1 disconnection positions 1 auxiliary switching pin 7 is located inside the movable main switching pin 3 and is separated from its face
five
0
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surface 11 at a distance of 12 indicated by arrows. The curved guide 10 is fixedly mounted inside the field electrode 5.
The jump spring drive 9 consists of a tension lever 13 and a drive lever 14, between which there is a spring 15. Both levers 13 and 14 rest on the axis 16 with the possibility of rotation, which penetrates the main commutating pin 3 and is pulled out, and are on the same side main - commuting pin 3.
The other end of the drive lever 14 is pivotally connected to the connecting lever 17, which from its side is connected to the auxiliary switching pin 7 by means of the supporting axis 18. The supporting axis 18 is driven in the side slots 19 of the main switching pin 3. The connecting lever 17 serves as a control leverage. In addition, on the outer side of the movable main commutation pin 3, two (20) and 21 limiters are placed in circles, which limit the angular movement of the drive lever 14. Limiter 20 corresponds to the off position of disconnector 1, limiter 21 to the on position. The spring 15 firmly holds the actuating lever 14 throughout the entire contact movement when it is turned on or off, in each case in one of both end positions determined by the limiters 20 and 21.
On the tensioning arm 13, the guide roller 22 is rotatably supported, by means of which a spring-loaded spring drive 9 of the auxiliary commutation pin 7 is mechanically controlled by means of the rocker guide 10. The rocker guide 10 has a longitudinal slot 23 that runs parallel to the auxiliary switching pin 7 which sets the main direction of movement of the guide roller 22. On the upper side of the longitudinal slot 23 are two notches 24 and 25, in which the guide levers 26 and 27 abut with the possibility gate around point 28 of rotation. The lower tips of the guiding levers 26 and 27 enter in each case, in the lower
3,
the recess of the longitudinal slot 23 and there is held in contact with the stop 29, which is under the point of rotation 28. The tension spring 30 firmly holds the guide lever 26 (27) against the support 29, respectively. Both identical guide levers 26 and 27 with their point of rotation 28 and with stops 29 (Fig. 3) are set mirror one to the other. ,
The disconnector operates as follows.
In the open position, the disconnector 1 (Fig. 1 and 4) auxiliary

25
thirty
commutator tip 7 is inside 5 Preliminary sample in this position is impossible.
FIG. Fig. 7 shows the following advanced position of the movable main switching pin 3, in which the position of the tension 32 has already been passed, is shown in the course of the activation movement. The spring 15, when the tensioning position 32 is moved, when the guide roller 22 moves forward again in the longitudinal slot 23, is abruptly released and this releases the drive lever 14 to its other end position. The latter is determined by the limiter 21 on the outer side of the movable main coupling pin 3, the release of the spring 15 and the reversing of the drive lever 14 through the connecting lever 17 cause the auxiliary switching pin 7 to shift, while the supporting axis 16 in the side slots 19 moves forward. This shift of the auxiliary switching pin 7 occurs at high speed, since a distance 12 can be used to accelerate the auxiliary switching pin 7, the Auxiliary switching pin 7 covers the remaining distance between
45 with a movable main switching pin 3 and an opposite field electrode 5, and it makes a galvanic connection with counter contact 8 so that both of the mole electrodes
50 5 are at the same potential. Eventually, a pre-breakdown with an electric arc due to the high speed of movement of the auxiliary commutation pin 7 does not have any possibility to transfer to the housing 2.
FIG. 8 shows the continuation of the movement of the rolling
The moving main commutation pin 3 and, in comparison with its face surface 11, are shifted back by distance 12. The driving lever 14 is supported on the axis 16 and is in 20 one sow final position defined by the limiter 20 in which it is held by the spring 15. The tensioning lever 13 of the spring-loaded spring drive 9 with the guide roller 22 rests on the left end of the longitudinal slit 23 of the rocker guide 10. The two direction levers 26 and 27 of the rocker guide 10 lie in each case against the stop 29.
FIG. 5 shows the start of the movement of the movement indicated by the arrow 31 of the movable main switching pin 3. The guide roller 22 on the tension lever 13 through the left guide lever 26, which is adjacent to the right stop 29, is delayed in the course of its movement along the longitudinal slot 23 and should follow the wall of the upper recess 24. At the same time, the spring 15 pulls up. The moving main commutation pin 3 is inside the contact solution 6, however, since the driving lever 14 has not changed its position, the auxiliary commi uyuschy pin 7 is, as before, in the rest position inside
40
rolling main switching pin 3.
FIG. 6 shows the position of the tension 32 of the spring-loaded spring actuator 9. With it, the longitudinal axes of both levers 13 and 14 lie on one another, and the spring 15 is maximally compressed. The guide roller 22 is located at the right corner of the recess 24 at the longitudinal slot 23. Thus, it is already adjacent to the rear side of the guide lever 26. Also in the tension position, the position of the auxiliary switching pin 7 in the middle of the movable main switching pin 3 has not changed. The movable main switching cable 3 in the preparation of the contact solution 6 has the arrow-marked scattering 33 to the opposite field electrode 5 and, therefore, to the fixed counter contact 4, which corresponds to the electrical breakdown strength required from the point of view.
the main commutation pin, in which the guide roller 22 reaches the right guide lever 27 and pushes the latter from the stop 29, so that the guide roller 22 can continue its movement in the longitudinal slot 23 without hindrance. The relative position between the movable main switching pin 3 and the auxiliary the switching pin 7 does not change.
FIG. Figure 9 shows the switching position of the movable main switching pin 3 with the auxiliary switching pin 7. The guide roller 22 on the tension lever 13 is located at the right end of the longitudinal spline 23 of the coolant guide 10.
FIG. 10-12 shows the movement beyond the trip of the disconnector 1. The direction of movement of the trip is indicated by an arrow 34.
When shown in FIG. The 10 position of the movable main commutating pin 3 and the auxiliary commutating pin 7 of the directional guide roller 22 of the tension lever 13 is located in the right upper recess 25 into which it has been retracted by the guide lever 27 adjacent to its stop 29. Spring 15 is tensioned. The drive lever 14 is in its final position, so that the relative position of the auxiliary switching pin 7 with respect to the moving main switching pin 3 does not change.
FIG. 11 shows the second position of the tension 35 of the jump actuator 9 during the trip movement. The longitudinal axis of the levers 13 and 14 lie one upon the other and the spring 15 is maximum. The end face of the underwater main switching pin 3 is within the solution solution of contacts 6 and has a distance of 33 to the opposite field electrode 5, which meets the requirements of electrical breakdown strength. The auxiliary switching pin 7 covers this distance 33 and is still in contact with the counter contact 8. Section 36, on which the auxiliary switching pin 7 goes into the opposite field electrode 5, serves to accelerate the auxiliary switching electrode
7, after passing through the tension position 35, in order to obtain a high speed of movement of the auxiliary switching pin 7 within a distance of 33.
FIG. 12 shows the position of the movable commutation pin 3 within the solution solution of the contacts 6, at which the transition through the tension position 35 again occurred. By means of the spring-like release of the spring 15, the actuating lever 14 is pressed to its end position to the stopper 20. This auxiliary commutation pin 7 is connected lever 17 is again drawn into the interior of the main switching pin 3. This occurs at a high speed, so that the electric arc of the shut-off is so fast ITS, that it can not perebrosits the housing 2,
The jump spring drive 9 has a spring 15 configured as a compression spring (Figs. 1-12).
However, it is also possible (with a corresponding design change of the jump spring actuator 9) to achieve the same principle of operation with the spring 15, made in the form of an expansion spring. A longitudinal section through a similar disconnector 1, in which the main commutation pin is in the disconnected position, is shown in FIG. 13. Here, the tensioning arm 13 extends on both sides of the axis 16, on which it rests rotatably. At one end, it carries a guide roller 22, which is controlled by a rocker guide 10, and at the other end a spring 15 which is designed as a tension spring is now hingedly supported.
FIG. 14 shows the main switching pin 3, which has an identical design on each side of the spring-loaded spring actuator 9 of the auxiliary switching pin 7. To stiffen the device, the tension arm 13 is designed in the shape of a fork.

权利要求:
Claims (6)
[1]
1. A disconnector for high-voltage gas-insulated switchgears containing a metal case, field electrodes covered by a movable tubular main switching pin, whose fixed counter contact is also tubular, and the movable main switching pin has an auxiliary switching pin with a spring, auxiliary commutating pin of which is located in the unconnected main commutation pin, and a mechanical control device inside the field e Electrode / characterized by the fact that in order to reduce wear while allowing the auxiliary switching pin to move faster than the moving main switching pin, it is equipped with a spring drive for the auxiliary switching pin mounted on the main moving switching pin on the axis with the possibility of rotation. , and is made in the form of a pivotally connected and resting on the spring of the tension lever and the drive lever, and the rails on the tension lever are rotatably mounted mechanically controlled roller, which acts on the spring tension, and on the drive lever there are spring-loaded angle stops corresponding to the on and off position of the moving main commutation pin, as well as
ten
the water lever is provided with a connecting lever that is pivotally connected to the supporting axis of the auxiliary switching pin, which is inserted into a niche, made in the main moving switching pin.
[2]
2. A disconnector according to Claim 1, characterized in that it is provided with an additional identical spring drive which is located on the other side of the main switching pin.
[3]
3. Disconnect by PP. 1 and 2, characterized in that
15 auxiliary drive spring
the commutation pin is designed as a tension spring.
[4]
4. Disconnector by PP. 1-3, characterized in that the mechanical control of the guide roller is made in the form of a slide mounted inside the field electrode, and contains two identical and mirror-mounted guide levers supported with the possibility of rotation, which abut against the stop.
[5]
5. The disconnector according to claim 4, lt is ligated in that the guiding levers are held at the stop by means of a spring.
[6]
6. Disconnector on PP. 1-5, which is related to the fact that the angular stops of the drive lever are connected to the movable main commutating pin.
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Editor S.Pekar
Compiled by V. Popova Tehred V. Kadar
Order 2374/58 Circulation 698 Subscription
VNIIPI USSR State Committee
of the affairs of inventions and discoveries 113Q35, Moscow, Zh-35, Raushsk nab., d 4/5
Production and printing plant, city Uzhgorod, ul. Project, 4
FagM
Proofreader, M. Demchik

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引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

FR1033979A|1951-03-14|1953-07-17|Chauveau Freres & Cie|Device for controlling a component in reciprocating motion, in particular using an electric reverser|

---

JPS6226535B2|1978-12-01|1987-06-09|Hitachi Ltd|

---

DE3122442A1|1981-06-02|1982-12-23|Siemens AG, 1000 Berlin und 8000 München|DISCONNECTOR FOR HIGH VOLTAGE SYSTEMS|

---

DE3136771A1|1981-09-11|1983-03-31|Siemens AG, 1000 Berlin und 8000 München|SPRING DRIVE FOR THE MOVABLE SWITCHING PART OF AN ELECTRICAL EARTHING OR DISCONNECTING SWITCH|DE3832171C2|1988-07-01|1990-06-21|Licentia Patent-Verwaltungs-Gmbh, 6000 Frankfurt, De|

---

DE3938711A1|1989-11-17|1991-05-23|Siemens Ag|DISCONNECTOR FOR METAL-ENCLOSED, PRESSURE-GAS INSULATED HIGH-VOLTAGE SWITCHGEAR|

---

DE4211156A1|1992-03-31|1993-10-07|Siemens Ag|Electrical high-voltage circuit breaker|

---

DE4210545A1|1992-03-31|1993-10-07|Asea Brown Boveri|Breaker switch for metal-encapsulated HV switch appts. - has pair of cooperating movable and stationary contact pieces within switch encapsulation, each having pre-ignition contact pin|

---

FR2763422B1|1997-05-15|1999-07-09|Gec Alsthom T & D Sa|GENERATOR CIRCUIT BREAKER|

---

DE19834432A1|1998-07-30|2000-02-10|Fuss Fritz Gmbh & Co|Device for the selective transmission of energy between two transmission units|

---

EP2728602B1|2012-11-05|2015-01-21|ABB Technology AG|Electrical high voltage circuit breaker and method for opening same|

---

JP2017004708A|2015-06-09|2017-01-05|株式会社日立製作所|Control method for power switchgear|

---

CN111799125A|2020-06-22|2020-10-20|中国南方电网有限责任公司超高压输电公司检修试验中心|Method for prolonging electric service life of isolating switch|

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CN111755281A|2020-06-22|2020-10-09|中国南方电网有限责任公司超高压输电公司检修试验中心|Isolating switch|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DE19833329555|DE3329555A1|1983-08-15|1983-08-15|DISCONNECTOR FOR METAL-ENCLOSED, COMPRESSED-GAS INSULATED HIGH-VOLTAGE SWITCHGEAR|

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