![]() Interlock for high-speed circuit breaker
专利摘要:
This invention relates to interlocking devices for a high speed switch. The goal is to increase speed. The device contains a roller 13 mounted in a movable contact jumper 4 rotatably on an axis 12 on which a locking rod 14 acts in the direction of activation. The front side facing the roller 1,3 is designed as a slide 15. In the direction of deactivation, the locking rod 14 acts the force of the breaking spring 20. The locking device can very quickly cease to operate, so that large short-circuit currents can be particularly quickly interrupted. This is achieved due to the fact that the link 15 is designed in such a way that, in the on position of the contact bridge 4, the frictional force loading roller 13 is compensated. 2 hp f-ly., 3 ill. J 公开号:SU1748663A3 申请号:SU884356175 申请日:1988-07-21 公开日:1992-07-15 发明作者:Дюффур Анри;Мартэн Серж;Штудер Эрнст 申请人:Ббц Браун Бовери Аг (Фирма); IPC主号:
专利说明:
AND 00 about ten {W | Sd The invention relates to a locking device for a quick-acting switch with a roller mounted in a movable contact bridge with the possibility of rotation on an axis. The aim of the invention is to increase speed. FIG. 1 shows a diagram of the contact system of the high-speed switch; figure 2 is a detailed sketch of the locking device in accordance with the invention; FIG. 3 shows the forces acting in the locking device in accordance with FIG. A fixed contact 2 is fixed to the tire 1. In the switched on state, a contact element 3 is pressed against the fixed contact 2, which is connected to one end of the movable contact jumper 4. The other end of the movable contact jumper 4 is installed with the possibility of turning the current-conducting rolling bearing 5. This rolling bearing 5 is inserted into the tire 6. These structural elements 1-6 form the main circuit of the quick-acting switch. During the shutdown process, when between the stationary contact 2 and the contact element 3 the burning electric arc commutes on the spark cores 7 and 8, the additional circuit 9 is briefly loaded with current. After this, the jumper 4 is no longer loaded with current and switches off without further electrical load off position. As soon as the electric arc, which in a known manner spreads from the spark cores 7 and 8 to a large number of arc extinguishing plates (not shown), the current passes through the high-speed switch and is finally interrupted. Between the fixed contact 2 and the contact element 3, a periodic voltage then occurs. The contact bridge 4 has an opening extending in the direction of its longitudinal axis. The side walls 10 of the holes 11 have an axis 12 on which the cylindrical roller 13 is rotatably mounted. The axis 12 and the roller 13 have a common center axis that runs perpendicular to the direction of movement of the contact bridge 4. In the switched position of the contact bridge 4, the roller 13 lies on the locking rod 14. facing the roller 13, the end side of which contains a portion matched with the contour of the roller backstage 15. The end of the locking rod 14 turned from the roller can be rotated in the insulating part 16. С edinitelny element 17 connects insulating part 16 with an on / off device (not shown). The spring 18, which rests on the caliper 19 of insulating material, presses the locking rod 14 up to the roller 13. The switching device turns off through the locking rod 14 on the roller 13 and thereby on the contact jumper 4. In In this position, it also creates a contact force between the stationary contact 2 and the contact element 3, and the possible burning of the contacts is automatically compensated. The forces that act in the direction of engagement on the contact jumper 4 are created by the on / off device. For normal operation-related shutdown, the force in the switching direction is eliminated and the switching off spring 20, which directly acts on the contact jumper, pulls it back to the off position. Cut-off spring 20 at least on one side suspended in isolation, to avoid leakage currents through the switching spring. If you need to turn off very large currents, such as short-circuit currents, then the process shutdown needs to be accelerated. An additional release mechanism 21, such as a magnet that is directly excited by a large current, acts with a latch 22 on the end 23 of the locking stem 14, which protrudes through the opening 11. The locking rod 14 is pressed down and the roller 13 rolls along the link 15 in the off direction . In this way, the locking between the roller and the locking rod 14 is very quickly eliminated. Made in the form of a backstage 15, the end side of the locking rod 14 is partially fitted to the contour of the roller. Beginning From point A, the part of the slide 15, fitted to the contour of the roller, passes into the section passing tangentially to the roller 13, and the link is designed in such a way that, in the on position of the contact bridge 4, the friction roller 13 is compensated for. The section of the linkage 15 passing tangentially to the roller 13 is inclined relative to the switching direction by an angle of 90 ° -7. The direction of activation is shown by a str1. 24. The angle a itself is defined as the angle between the direction of activation and the connecting line 25, which connects point A with the midpoint Z of axis 12. The same angle a is formed as the angle between 13 section of the link 15 and tangentially going to the rabbit and perpendicular to the direction of engagement of the locking rod 14. The section of the link 15 that passes tangentially to the roller 13 should not go straight to the upper edge of the locking rod 14, it can be, as shown by the dotted line 26, somewhat rounded to facilitate the gathering of the roller 13. Fig. 3 shows the forces that are effectively acting at point A between the roller 13 and the locking rod 14. The force PI acts in the direction of being turned on, it is created by the device being turned on and off. This force Pi can be decomposed in a known manner into components PZ and P3, P-i acts in the direction of the middle point Z of the axis 12, and the component P 3. which can be represented by the ratio sin "., acts perpendicularly to the component P2. The component of the RZ can be displaced in parallel until its direction of action coincides with the direction of the tangentially passing section of the scenes 15. Then it acts from above on point A. This component of the RH resists along the same axis as the force of the RZ. This force RA is the sum of the friction forces that arise in the system axis 12, roller 13 and rocker 15 In this case, the frictional force that occurs between the roller 13 and the slide 15 is determined by the ratio Pi cos a Ce, where Sat is the coefficient of friction between the roller 13 and the slide 15. The friction force between the axis 12 and the roller 13 decreases in the ratio of the radius RI of the axis 12 to the radius Pg of the roller 13. At point A, of this last friction force, the component P42 Pi cos and where Cs is the coefficient of friction between the axle and the roller. The strength P4 is defined by the ratio + P42. If the component P3 and the force Pc are identified with each other, then the following equation is obtained for measuring the angle a: td a CG + So The roller 13 may have an outer working surface in which a grooved recess (not shown) is embedded. it 15 20 25 30 35 40 45 0 five 0
权利要求:
Claims (3) [1] the recess serves as a guide for the end side of the locking stem 14. By this, lateral slipping of the locking stem 14 from the roller 13 is prevented. By this, too, distortion of the parts is prevented. In addition, you can align the front side of the locking stem 14 with the shape of the recess of the roller 13 to get an even better direction. Claim 1. Blocking device for a quick-acting switch, containing a roller fixed in a movable contact jumper with a possibility of rotation on an axis, which is acted upon in the direction of activation of a rotationally strengthened locking rod facing the roller of the Stoi, which is made in the form of a curtain, containing a region matched to the contour of the roller, a contact jumper that interacts with the loading force in the direction of the opening of the breaking spring, and uncouples th mechanism acting on the latching rod, characterized in that, in order to increase operating speed rocker is designed so that in the on state of the contact bridge offset-loading roller frictional force, wherein the portion; matched to the contour of the roller, passes into the section, which is tangential to the roller and inclined relative to the direction by an angle of 90 °. where a is determined by the formula tg a - Cs p + Sa. where Cs is the coefficient of friction between the axis and the roller; CG is the coefficient of friction between the roller and the wings; Rr is the axis radius; R2 is the radius of the roller. [2] 2. Pop-1 device, characterized in that the working surface of the roller is provided with a recess that serves as a guide for the end face of the locking stem. [3] 3. The device according to claim 2, wherein the shape of the end face of the locking stem repeats the shape of the recess. fig 2 25 Figz
类似技术:
公开号 | 公开日 | 专利标题 SU1748663A3|1992-07-15|Interlock for high-speed circuit breaker JP2666828B2|1997-10-22|Circuit breaker US5510761A|1996-04-23|Contact system for a current limiting unit CA2053516C|2002-08-20|Low voltage circuit breaker with multiple contacts for high currents JPH01311528A|1989-12-15|Remote-control type circuit breaker CN1069782C|2001-08-15|Circuit breaker HU225422B1|2006-11-28|Circuit breaker to advantage rotary contact arm circuit breaker US4877929A|1989-10-31|Breaking device for multipole electrical circuit breaker with multiple contacts CA2109986A1|1994-05-27|Opening and closing mechanism for a medium or high voltage electrical switch ES8801751A1|1988-02-16|High current double-break electrical contactor. WO1999012176A3|1999-05-27|High voltage circuit-breaker with a counter-contact which can be actuated US4559424A|1985-12-17|Disconnect switch for high-voltage switching installation US3796860A|1974-03-12|Electrical circuit-breaker US4485366A|1984-11-27|Mechanical interlock mechanism for a vacuum contactor CA2113097A1|1993-01-21|Isolating switch with a main switch pin and an auxiliary contact pin RU2144715C1|2000-01-20|Electric interrupter with electromagnetic operating mechanism SU1283867A1|1987-01-15|Switching device with current limiter JP2519594Y2|1996-12-04|Circuit breaker SU1370679A1|1988-01-30|Current-limiting device for circuit-breakers US3364326A|1968-01-16|Double-break synchronously operated circuit breaker with connecting bar rotating in enlarged opening in magnet structure IE893020L|1990-04-21|Circuit breaker with low voltage contact structure KR940008190B1|1994-09-07|Breaker SU576619A1|1977-10-15|Current-limiting circuit breaker KR930000699Y1|1993-02-19|Circuit breaker JPH0787060B2|1995-09-20|Power switch
同族专利:
公开号 | 公开日 KR890002926A|1989-04-11| CN1010903B|1990-12-19| BR8803654A|1989-02-14| ES2038246T3|1993-07-16| EP0300270A1|1989-01-25| PL273856A1|1989-02-20| CZ521188A3|1995-01-18| PL158664B1|1992-09-30| EP0300270B1|1993-01-20| KR970004395B1|1997-03-27| CN1031445A|1989-03-01| CZ279701B6|1995-06-14| JP2547242B2|1996-10-23| FI883462A|1989-01-23| US4877928A|1989-10-31| UA18262A|1997-12-25| CA1330224C|1994-06-14| FI88552B|1993-02-15| SK278090B6|1995-12-06| FI88552C|1993-05-25| FI883462A0|1988-07-21| JPS6441125A|1989-02-13| AT84913T|1993-02-15| CH673175A5|1990-02-15| DE3877645D1|1993-03-04| SK521188A3|1995-12-06|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 FR629390A|1926-04-27|1927-11-09|Alsacienne Constr Meca|Quick and precise latching mechanism, applicable for example to electrical switches, circuit breakers, relays, etc.| US1966188A|1929-04-27|1934-07-10|Westinghouse Electric & Mfg Co|Electric switch| US2031458A|1934-10-30|1936-02-18|Gen Electric|Operating mechanism| US2251171A|1938-09-21|1941-07-29|Allis Chalmers Mfg Co|Circuit breaker| US3012800A|1959-06-23|1961-12-12|Gen Electric|Trip mechanism| NL268370A|1960-08-20| US3813579A|1970-11-09|1974-05-28|Rucker Co|Electric receptacle assembly with ground fault protection|JPH02250628A|1989-03-22|1990-10-08|Matsushita Electric Ind Co Ltd|Composite function element| GB9622732D0|1996-10-31|1997-01-08|Powerbreaker Plc|Mains electrical outlet| US6621020B2|2000-10-25|2003-09-16|Fuji Electric Co., Ltd.|Breaking mechanism for circuit breaker| DE102005050693A1|2005-10-18|2007-04-26|Siemens Ag|Latching device for a circuit breaker| EP2410548A1|2010-07-23|2012-01-25|Eaton Industries GmbH|Operating mechanism for an electric switching device| CN103236379A|2013-04-19|2013-08-07|中国船舶重工集团公司第七一二研究所|Direct-current quick breaker contactor system| CN104299813A|2014-10-28|2015-01-21|大全集团有限公司|Electromagnetic repulsive force mechanism breaking device| CN106449226B|2016-10-28|2019-04-05|武汉船用电力推进装置研究所(中国船舶重工集团公司第七一二研究所)|A kind of high-speed switch latching device and method| AT519374B1|2017-01-13|2018-06-15|Blum Gmbh Julius|Guide system for guiding a movably mounted furniture part| CN110635178B|2018-06-22|2021-02-19|北汽福田汽车股份有限公司|Power-off device for storage battery, control system for storage battery, and vehicle| CN110931317B|2019-09-19|2021-09-14|许继集团有限公司|Direct current circuit breaker and self-locking device thereof|
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申请号 | 申请日 | 专利标题 CH2776/87A|CH673175A5|1987-07-22|1987-07-22| 相关专利
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