EP2701175B1 - Repositionierungsvorrichtung sowie Stromunterbrechungsvorrichtung mit Aktion unter Verwendung von restlichem elektrischen Strom - Google Patents

Repositionierungsvorrichtung sowie Stromunterbrechungsvorrichtung mit Aktion unter Verwendung von restlichem elektrischen Strom Download PDF

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Publication number
EP2701175B1
EP2701175B1 EP13177929.0A EP13177929A EP2701175B1 EP 2701175 B1 EP2701175 B1 EP 2701175B1 EP 13177929 A EP13177929 A EP 13177929A EP 2701175 B1 EP2701175 B1 EP 2701175B1
Authority
EP
European Patent Office
Prior art keywords
repositioning
lever
release
working surface
handle
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Not-in-force
Application number
EP13177929.0A
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German (de)
English (en)
French (fr)
Other versions
EP2701175A1 (de
Inventor
Ye Zhang
Zhang Yao Bao
Jia Chen
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Siemens AG
Original Assignee
Siemens AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Siemens AG filed Critical Siemens AG
Publication of EP2701175A1 publication Critical patent/EP2701175A1/de
Application granted granted Critical
Publication of EP2701175B1 publication Critical patent/EP2701175B1/de
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H73/00Protective overload circuit-breaking switches in which excess current opens the contacts by automatic release of mechanical energy stored by previous operation of a hand reset mechanism
    • H01H73/48Protective overload circuit-breaking switches in which excess current opens the contacts by automatic release of mechanical energy stored by previous operation of a hand reset mechanism having both electrothermal and electromagnetic automatic release
    • H01H73/50Protective overload circuit-breaking switches in which excess current opens the contacts by automatic release of mechanical energy stored by previous operation of a hand reset mechanism having both electrothermal and electromagnetic automatic release reset by lever
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H71/00Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
    • H01H71/10Operating or release mechanisms
    • H01H71/50Manual reset mechanisms which may be also used for manual release
    • H01H71/52Manual reset mechanisms which may be also used for manual release actuated by lever
    • H01H71/528Manual reset mechanisms which may be also used for manual release actuated by lever comprising a toggle or collapsible link between handle and contact arm, e.g. sear pin mechanism

Definitions

  • the present invention relates to the field of low voltage electrical appliances, and more particularly to a repositioning apparatus and an action current interrupt apparatus using residual electric current.
  • the residual current release device In current current cutoff device products with action using residual electrical current (e.g., action interruption devices using residual electrical current without intended current protection and action interrupting devices using residual electrical current with envisaged current protection), the residual current release device relies on electrical release drive Voltage of the electrical power source. After the action of the release, the electrical voltage of the electric power source is released and provided in the release device itself compression spring realizes the repositioning of the iron core.
  • the release device in cases of attraction by permanent magnets in proper condition and in cases of residual current failure with drive of release by release of electric capacity or other release after the action of release, there is no independent possibility of reliably performing the repositioning operation. For this reason, it is necessary to carry out the repositioning using a stand-alone repositioning construction. However, they are current repositioning designs are usually complicated and present difficulties in manufacture and assembly.
  • the EP 1 884 976 A1 describes a repositioning device according to the preamble of claim 1 and a switching device with a rotatable actuating element for indirectly closing or disconnecting a switching point and with a rotatable pawl for latching or Entklinkung the same on a rotatable release lever.
  • the switching device comprises a drive element, in particular a drive bracket which is rotatably disposed both on the actuating element and on the pawl, and a rotatable contact carrier, which serves as part of the switching point for contacting a fixed contact carrier, and a coupling element, in particular a coupling bracket, which is rotatably mounted both on the rotatable contact carrier and on the pawl, wherein the pawl is displaceable at its pivot point such that the distance between the actuating element and the pawl varies depending on the position of the actuating element.
  • the object of the present invention is to provide a repositioning device of simple construction.
  • the present invention also seeks to provide an action current interrupt device using the residual electrical current of the repositioning device.
  • the repositioning apparatus is provided to include a housing and a handle attached to the above-mentioned housing, wherein the above-described repositioning apparatus further includes a first connecting lever, a repositioning lever, a release lever, an elastic repositioning member elastic compression member and a hinge joint axis, wherein the above-mentioned repositioning lever is connected through the hinge joint axis with the above-mentioned housing and having a first working surface, wherein the above-mentioned release lever is connected by the hinge joint axis with the above-mentioned housing and having a second work surface, wherein the above-mentioned first connecting lever is respectively connected to the above-mentioned handle and the above-described repositioning lever by a hinge joint, wherein the above-mentioned handle via the above-described first connecting lever can drive the above-described repositioning lever for movement in a first direction, wherein the above-mentioned elastic reposition
  • the above-described handle has a wheel body, a first connection lever opening and a second connection lever opening, wherein the above-mentioned first connection lever opening and the above-mentioned second connection lever opening are provided at a distance from each other on the above-mentioned wheel body, wherein one end of the above-designated first connecting lever is mounted in the above-mentioned first connection lever opening and is movable with respect to the above-mentioned first connection lever opening, while the above-mentioned second Connecting lever opening is used for attaching a second connecting lever.
  • first connection lever opening is an opening with an elongated central part or a circular opening.
  • the above-described repositioning lever comprises a body, a connecting part and a repositioning part, wherein the above-mentioned body is connected to the above-mentioned housing through the above-mentioned hinge joint axis, wherein the above-mentioned repositioning part at the first end of the above-mentioned body is formed and the above-mentioned first work surface is formed on the repositioning member described above, wherein the above-mentioned connecting part is formed at the second end of the above-mentioned body and wherein within the above-mentioned connecting part, a connecting groove is formed, the other end of the above-designated first connection lever is provided in the above-mentioned connection groove and is movable relative to the above-mentioned connection groove.
  • connection groove is a groove with an elongate middle part or a circular groove.
  • the above-described repositioning lever further comprises a first smooth protruding ledge and a second smooth protruding ledge, wherein the above-mentioned first smooth protruding ledge and the second smooth protruding ledge referred to above are provided in a non-symmetrical manner on the above-indicated body and yourself between the above-mentioned body and the above-mentioned release lever.
  • the above-described release lever comprises a base body and a release member formed on the above-mentioned base body, wherein the above-mentioned base body is connected through the hinge hinge axis referred to above with the above-mentioned housing, wherein the above-mentioned second working surface on the above-designated Release part is formed.
  • the above-mentioned release part is located on the path of the movement of the above-mentioned repositioning in the above-mentioned second direction.
  • the above-identified release part further comprises a third work surface, the above-mentioned third work surface and the second work surface referred to above being two opposite sides of the above-mentioned release part, wherein the above-mentioned first work surface is in the vicinity of the above-mentioned third work surface and located away from the aforementioned second work surface.
  • At least one elevation is provided on the above-described housing, wherein the above-mentioned elevation is located between the above-described repositioning lever and the above-described release lever.
  • the above-described elastic repositioning element comprises a spring
  • the above-described elastic compression element comprises a compression spring
  • the above-described elastic repositioning element also comprises a position limiting plate which surrounds the spring of the elastic repositioning element.
  • the current cut-off action device using residual electric current is intended to include a release device having an upper lever, and the above-mentioned current cut-off device using residual electric current also has the above-described repositioning device wherein the handle of the above-mentioned repositioning device can drive the repositioning lever of the above-described repositioning device to move in a first direction via the first connecting lever of the above-mentioned repositioning device, so that the first working surface of the above repositioning device leaves the above-mentioned upper lever; elastic repositioning element of the above-mentioned Repositi The device may drive the above-described repositioning lever of the above-described repositioning device for movement in a second direction, so that the above-mentioned first work surface drives the above-described upper lever.
  • the drive of the repositioning lever for movement in a first direction, for example in the Counterclockwise direction, so that the first working surface of the repositioning lever leaves the working surface of the release device and the release device can operate the release lever to achieve the release function when operating with relatively little force.
  • the drive of the repositioning lever in a second direction, for example in the direction of the clockwise direction, in support of the release device in the realization of the Repositioning istsfunktion.
  • FIG. 10 is an illustration of an action current interrupt device using residual electric current according to a practical embodiment of the present invention, wherein the handle of the repositioning device of the current interrupting device is in the first position with action using residual electric current.
  • FIG. 2 it is the representation of the current interrupt device with action using residual electric current illustration 1 , wherein the handle of the repositioning of the Current interrupt device with action using residual electric current in the second position.
  • FIG. 7 is an illustration of an action current interrupt device using residual electric current according to another practical embodiment of the present invention.
  • FIG. 9 is an illustration of an action current interrupt device using residual electric current according to another practical embodiment of the present invention.
  • the reference numbers in the figures mean: 100 Power interruption device with action using residual electric current 120 housing 121 outer housing 1210 mounting groove for the handle 1212 blocking piece 1216 plug-in part 122 base socket 1221 Mounting area for the magnet system 1233 support level 1224 positioning piece 1225 survey plate 1226 First survey 1227 Second survey 1229 passage 130 release device 132 Upper lever 150 repositioning device 151 handle 1511 wheel center 1512 control panel 1513 First connection lever opening 1514 Second connecting lever opening 1517 opening 152 First connecting lever 153 repositioning lever 1530 connector 1531 body 1532 connecting part 1533 repositioning part 1534 mounting opening 1535 First smooth protruding bar 1536 Second smooth protruding bar 1537 First working surface 1538 full round angle area 1539 connecting groove 154 release lever 1541 base body 1543 release part 1544 mounting opening 1545 extension arm 154 connection piece 1547 Second work surface 155 Elastic repositioning element 1552 position limiting plate 156 Elastic compression element 160 Second connecting lever 170 hinge joint axis 100a Current interruption device with action using residual electric current
  • FIGS. 1 and 2 are illustrations of an action current interrupt device using residual electric current 100 in accordance with a practical embodiment of the present invention.
  • the power interrupt device with action using remaining electric power 100 includes a housing 120, a release device 130, and a repositioning device 150, wherein the release device 130 and the repositioning device 150 are provided in the housing 120, and wherein the repositioning device 150 to Support of the release device 130 can be used in the realization of the implementation of the repositioning.
  • the housing 120 and the repositioning device 150 are considered as two elements, while the housing 120 can actually be used for the attachment of the release device 130 and the repositioning device 150. For this reason, the housing 120 may be considered as part of the release device 130 and the repositioning device 150, respectively.
  • the housing 120 comprises an outer housing 121 and a base socket 122.
  • a mounting groove for the handle 1210 and a blocking piece 1212 are provided on the outer housing 121.
  • the mounting groove for the handle 1210 may be provided in a corner of outer housing 121, for example, in the upper left corner (when the power interrupt device operates with action of remaining electric power 100 in FIG illustration 1 shown position).
  • the blocking piece 1212 is provided on the outer housing 121 in the vicinity of the mounting groove for the handle 1210 and extends toward the inside of the mounting groove for the handle 1210.
  • a male part 1216 may be provided which extends in the direction of the thickness of the outer housing 121 in the direction of the mounting groove for the handle 1210.
  • the base socket 122 is attached to the outer housing 121 and is located below the mounting groove for the handle 1210.
  • a mounting region for the magnet system 1221, a support plane 1223, a positioning piece 1224, two elevation plates 1225, a first elevation 1226 and a second elevation 1227 are shown on the base pedestal 122.
  • the assembly area for the magnet system 1221 is below the mounting groove for the handle 1210 and serves to mount the release device 130.
  • the support plane 1223 may be provided on the base pedestal 122 near the magnet system mounting area 1221 and may be located between the magnet system mounting area 1221 and the handle 1210 mounting groove.
  • the positioning piece 1224 is basically provided vertically on the support plane 1223.
  • the two bump plates 1225 may be provided on the base socket 122 near the magnet system mounting portion 1221, and the two bump plates 1225 are provided opposite and spaced from each other to form a passage 1229 therebetween to the upper lever of the release device 130 to allow a sliding movement like a moving iron core.
  • the first bump 1226 may be provided on the base socket 122 proximate to the mounting groove for the handle 1210, while the second bump 1227 may be provided on the base socket 122 near the support plane 1223.
  • the first bump 1226 and the second bump 1227 may serve to guide or restrict the movement of the repositioning device 150 (this will be described later).
  • the first survey 1226 and the second survey 1227 may undergo adjustments according to the actual usage conditions.
  • the release device 130 For the release device 130, the construction of conventional release devices may be used. The relevant concrete construction requires no further explanation.
  • the release device 130 may be provided in the mounting area for the magnet system 1221 and the upper lever 132 of the release device 130 may be reciprocated in the passage 1229 to effect release or repositioning.
  • the repositioning device 150 may be used to assist in the implementation of the repositioning by the release device 130.
  • the repositioning apparatus 150 includes a handle 151, a first connecting lever 152, a repositioning lever 153, a release lever 154, an elastic repositioning member 155, and an elastic compression member 156, the handle 151 receiving the repositioning lever via the first connecting lever 152 153 for movement in a first direction, for example, in the counterclockwise direction (when the current interruption device operates with action using residual electric current 100 in the in illustration 1 while the elastic repositioning member 155 can drive the repositioning lever 153 to move in a second direction, for example, in the clockwise direction (when the current interruption device operates with residual electric current 100 in the position shown in FIG illustration 1 shown position).
  • the upper lever 132 of the release device 130 may drive the release lever 154 to move in a first direction while the resilient compression member 156 may drive the release lever 154 to move in a second direction.
  • the handle 151 comprises a wheel body 1511, a control part 1512, a first connection lever opening 1513, a second connection lever opening 1514 and an opening 1517.
  • the wheel body 1511 is rotatably provided in the mounting groove for the handle 1210.
  • the operating part 1512 is provided at the upper end of the wheel body 1511 (when the handle 151 in the in Figure 4 shown position) and is located on the outer part of the housing 120, so that the user can easily handle the handle 151.
  • the first connection lever opening 1513 is provided at the right lower end of the wheel body 1511 (when the handle 151 in the in Figure 4 shown position), wherein the dimensions of the first connection lever opening 1513, For example, the diameter, larger than the outer diameter of the first connecting lever 152 and use for the attachment of the first connecting lever 152 is carried out to make the repositioning (this will be described later).
  • the second connection lever opening 1514 is provided on the wheel body 1511 and is located above the first connection lever opening 1513 with the angle between the straight line on which the centers of the second connection lever opening 1514 and the handle 151 are located and the straight line on which the centers are located the first connection lever opening 1513 and the handle 151, can form an acute angle of 40-45 degrees.
  • the second connection lever opening 1514 serves to attach the second connection lever 160, and can perform the switch function for the current interruption device with action using residual electric current 100 according to the conventional manner.
  • the provision of the first connection lever opening 1513 and the second connection lever opening 1514 enables the handle 151 to be used for sensing the switch function of the current interrupt device with action using residual electric current 100 and may also find use for realizing the repositioning function
  • the opening 1517 is basically formed on the left side of the wheel body 1511 (when the handle 151 in the in Figure 4 shown position).
  • the male portion 1216 of locking piece 1212 can be inserted into the aperture 1517, and upon rotation of handle 151, the male portion 1216 of blocking piece 1212 can make a sliding movement along the aperture 1517 to limit the rotation of handle 151.
  • the first end of the first link lever 152 is provided by a hinge joint in the first link lever opening 1513, while the second end of the first link lever 152 is connected to the repositioning lever 153 by a hinge connection, so that the handle 151 via the first link lever 152 to the repositioning lever 153 Can drive movement.
  • the repositioning lever 153 is rotatably provided on the base pedestal 122. As in illustration 1 9, the repositioning lever 153 is basically located between the release device 130 and the handle 151. As shown in FIG Figure 5 As shown, the repositioning lever 153 includes a body 1531, a connecting part 1532, and a repositioning part 1533. The body 1531 basically has an arcuate shape, and a mounting hole 1534 is provided at the middle part. Through hinge hinge axis 170 provided in mounting aperture 1534 (as shown in FIGS. 1 and 2), body 1531 is rotatably mounted to base base 122. On the body 1531, a first smooth protruding ledge 1535 and a second smooth protruding ledge 1536 are also provided.
  • the first smooth protruding ledge 1535 and the second smooth protruding ledge 1536 are provided on the body 1531 in a non-symmetrical manner.
  • the first smooth protruding ledge 1535 may be provided near the mounting opening 1534, while the second smooth protruding ledge 1536 may be provided near the first end of the body 1531, for example at the lower end (when the handle 151 is in the position shown in FIG Figure 5 shown position).
  • the repositioning part 1533 is provided on the outer side and the upper side of body 1531, respectively, and has a first work surface 1537.
  • the first one Working surface 1537 provided in the vicinity of the upper lever 132 of the release device 130.
  • the connection part 1532 is provided at the second end of body 1531 and has a full-round angled surface 1538 to avoid interference with other elements.
  • a communication groove 1539 is formed which serves to attach the second end of the first connection lever 152.
  • the longitudinal direction of the elongated central portion of the groove generally extends in the direction from the release device 130 to the handle 151 (see FIGS. 1 and 2) to accommodate the angle of Handle 151 and the dimensions of repositioning lever 153 make.
  • a connector 1530 which serves to connect to the elastic repositioning member 155.
  • the elastic repositioning element 155 has a spring.
  • the first end of the elastic repositioning element 155 is connected to the connecting piece 1530, while the second end of the elastic repositioning element 155 can be connected to the positioning piece 1224 at the supporting level 1223.
  • the elastic repositioning member 155 may further include a position limiting plate 1552 provided on the support plane 1223 and surrounding the spring.
  • the release lever 154 is rotatably attached to the base pedestal 122. As in illustration 1 Also shown is the release lever 154 basically between the release device 130 and the handle 151 and in the vicinity of repositioning lever 153. As in Figure 6 shown, the release lever 154 comprises a base body 1541 and a Release member 1543.
  • the base body 1541 has basically an arc shape, wherein in the middle part of a mounting opening 1544 is provided. Attached to hinge hinge axis 170 of mounting aperture 1544 (as shown in FIGS. 1 and 2), base body 1541 is rotatably mounted on base base 122 and is in contact with repositioning lever 153.
  • the extension arm 1545 is formed, with the extension arm 1545 being basically vertically provided on the base body 1541, and on the extension arm 1545 further forming the connection bump 1546 which serves to connect to the elastic compression member 156.
  • the release member 1543 may be formed at one end of the base body 1541, for example, at the lower end.
  • the release part 1543 has a second work surface 1547. As shown in FIGS. 1 and 2, the second work surface 1547 is provided near the upper lever 132 of the release device 130.
  • the elastic compression member 156 comprises a compression spring.
  • the first end of the elastic compression member 156 is connected to the connection piece 1546 located on the release lever 154.
  • the second end of the elastic compression member 156 may be connected to the elevation plate 1225 located above the base pedestal 122.
  • the elastic compression member 156 may further comprise a position limiting plate provided above the base socket 122, which abuts the elevation plate 1225 is provided and surrounds the compression spring.
  • the current interruption device is in action using residual electric current 100 in the first state, for example, the closed state.
  • the second end of the first connecting lever 152 is located at the upper part of the connecting groove 1539 of the repositioning lever 153, and exerts no action on the repositioning lever 153 toward the elastic repositioning member 155.
  • the first working surface 1537 of repositioning lever 153 is in the initial position, for example, in contact with the upper lever 132 of the release device 130.
  • the current interrupt device is in action using residual electric current 100 in the second state, for example, the opened state.
  • the second end of the first link lever 152 makes a sliding downward movement in the communication groove 1539 of repositioning lever 153 (FIG the current interruption device reacts with action using residual electric current 100 in the in Figure 2 1) until abutting the lower part of the connecting groove 1539 of repositioning lever 153 and applying pressure to the repositioning lever 153 and the elastic repositioning member 155 so that the elastic repositioning member 155 compressively stores energy
  • the repositioning lever 153 at the same time as the axis of rotation about a movement of the hinge axis 170 in a first direction, for example in the counterclockwise direction, until the first working surface 1537 of the repositioning lever 153 leaves the initial position.
  • the release device 130 can operate the second work surface 1547 of release part 1543 when operating with relatively little force to realize the release function.
  • the elastic repositioning element 155 is guided in the direction of the action of the repositioning lever 153 on the first connecting lever 152 through the center of rotation of the handle 151 sure that the handle 151 is not turned back.
  • the repositioning device 150 assists the release device 130 in performing the repositioning so that the current interrupt device with action using residual electric current 100 is again in the first state.
  • the second end of the first linkage lever 152 in the course of the rotation of the handle 151 makes a sliding upward movement in the connection groove 1539 of the repositioning lever 153 (when the current interruption device takes action with use of residual electric current 100 in the in illustration 1 12), so that the pressure applied to the repositioning lever 153 and the elastic repositioning member 155 is gradually reduced until the elastic repositioning member 155 moves the repositioning lever 153 to move in a second direction, for example, in the direction of FIG Clockwise, drives the hinge joint axis 170 as the axis of rotation and the first working surface 1537 of the repositioning lever 153 returns to the initial position and thus the first work surface 1537 drives the upper lever 132 of the release device 130 and provides support of the release device 130 in the realization of the repositioning function.
  • the first protrusion 1226 and the second protrusion 1227 provided on the base pedestal 122 may restrict the transitional movement of repositioning lever 153 under the action of the elastic repositioning member 155 to prevent deterioration the position of release lever 154 takes place.
  • the first elevation 1226 and second elevation 1227 provided on the base pedestal 122 should be at the tuning gap of repositioning lever 153 and release lever 154.
  • FIG 7 it is the representation of the current interrupt device with action using residual electric current 100a.
  • the current interrupt device with action using residual electric current 100a is similar to the current interrupt device with action using residual electric current 100. The difference is mainly in the concrete construction of repositioning lever and release lever.
  • FIG 8 it is the representation of the concrete construction of repositioning lever 153a and release lever 154a of Power interrupt device with action using residual electric power 100a. As in Figure 8 shown repositioning lever 153a / release lever 154a basically coincide with repositioning lever 153 / release lever 154.
  • the first work surface 1537a of the repositioning part 1533a of the repositioning lever 153a is located on the rear side of the release part 1543a of the release lever 154a, and the release lever 154a is located between the first work surface 1537a and the upper lever 132 of the release device 130.
  • the first work surface 1537a drives the third work surface 1549a (the surface opposite to the second work surface 1547a) of the release part 1543a of the release lever 154a, so that the second work surface 1547a of the release part 1543a of the release lever 154a drives the upper lever 132 the release device 130 and provides assistance in realizing the repositioning function.
  • the second work surface 1547a is involved in both the process of release and the process of repositioning, while the first work surface 1537a is indirectly involved in the process of repositioning.
  • the current interrupt device with action using residual electric current 100b is similar to the current interrupt device with action using residual electric current 100. The difference is mainly in the concrete construction of the repositioning lever and the release lever.
  • the first connection lever opening 1513b is an elongated opening Central part for regulating the movement, while it is the connecting groove 1539 b is a circular opening, which serves the power transmission.
  • the present invention discloses a repositioning apparatus comprising a housing, a handle attached to the above-mentioned housing, a first connecting lever, a repositioning lever, a release lever, an elastic repositioning member, an elastic compression member and a hinge joint axis, wherein the repositioning lever described above passes through the hinge joint axis is connected to the above-mentioned housing and having a first work surface, wherein the above-mentioned release lever is connected by the hinge joint axis with the above-mentioned housing and having a second work surface, wherein the above-mentioned first connecting lever respectively with the above-indicated Handle and the above-mentioned repositioning lever is connected by a hinge joint, wherein the above-mentioned handle via the above-mentioned first connecting lever can drive the above-described repositioning lever for movement in a first direction, wherein the above-mentioned elastic repositioning element respectively with the above-mentioned

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Driving Mechanisms And Operating Circuits Of Arc-Extinguishing High-Tension Switches (AREA)
EP13177929.0A 2012-08-22 2013-07-25 Repositionierungsvorrichtung sowie Stromunterbrechungsvorrichtung mit Aktion unter Verwendung von restlichem elektrischen Strom Not-in-force EP2701175B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201210301954.7A CN103632900B (zh) 2012-08-22 2012-08-22 复位装置及剩余电流动作断路器

Publications (2)

Publication Number Publication Date
EP2701175A1 EP2701175A1 (de) 2014-02-26
EP2701175B1 true EP2701175B1 (de) 2016-04-06

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EP13177929.0A Not-in-force EP2701175B1 (de) 2012-08-22 2013-07-25 Repositionierungsvorrichtung sowie Stromunterbrechungsvorrichtung mit Aktion unter Verwendung von restlichem elektrischen Strom

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EP (1) EP2701175B1 (zh)
CN (1) CN103632900B (zh)

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0338930A1 (fr) * 1988-04-22 1989-10-25 Hager Electro S.A. Disjoncteurs ou disjoncteurs differentiels
JPH07118252B2 (ja) * 1988-06-09 1995-12-18 松下電工株式会社 リモートコントロール式回路しゃ断器
DE102006036187A1 (de) * 2006-08-01 2008-02-07 Siemens Ag Schaltvorrichtung mit Betätigungselement
JP4621751B2 (ja) * 2008-03-06 2011-01-26 パナソニック電工電路株式会社 回路遮断器
CN201725757U (zh) * 2010-07-25 2011-01-26 王继杰 电子式带永磁脱扣器的a型剩余电流动作断路器
CN101937811B (zh) * 2010-09-21 2013-12-25 上海良信电器股份有限公司 电磁脱扣器的自动复位机构

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CN103632900A (zh) 2014-03-12
CN103632900B (zh) 2016-04-13

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