WO2021111901A1 - 電気機器 - Google Patents

電気機器 Download PDF

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Publication number
WO2021111901A1
WO2021111901A1 PCT/JP2020/043386 JP2020043386W WO2021111901A1 WO 2021111901 A1 WO2021111901 A1 WO 2021111901A1 JP 2020043386 W JP2020043386 W JP 2020043386W WO 2021111901 A1 WO2021111901 A1 WO 2021111901A1
Authority
WO
WIPO (PCT)
Prior art keywords
frame
fixing
fixing portion
relative displacement
flexible
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.)
Ceased
Application number
PCT/JP2020/043386
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
優志 関谷
幸悦 高谷
耕明 羽澤
翔太 菊地
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.)
Fuji Electric FA Components and Systems Co Ltd
Original Assignee
Fuji Electric FA Components and Systems Co Ltd
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 Fuji Electric FA Components and Systems Co Ltd filed Critical Fuji Electric FA Components and Systems Co Ltd
Priority to EP20895746.4A priority Critical patent/EP3965134B1/en
Priority to EP23177866.3A priority patent/EP4235726A3/en
Priority to JP2021562567A priority patent/JP7205647B2/ja
Priority to CN202311466384.1A priority patent/CN117292979A/zh
Priority to CN202080039746.7A priority patent/CN113939889B/zh
Publication of WO2021111901A1 publication Critical patent/WO2021111901A1/ja
Priority to US17/533,872 priority patent/US11862424B2/en
Anticipated expiration legal-status Critical
Priority to JP2022178311A priority patent/JP7609153B2/ja
Ceased legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/02Bases; Casings; Covers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/02Bases; Casings; Covers
    • H01H50/04Mounting complete relay or separate parts of relay on a base or inside a case
    • H01H50/041Details concerning assembly of relays
    • H01H50/045Details particular to contactors
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/16Magnetic circuit arrangements
    • H01H50/18Movable parts of magnetic circuits, e.g. armature
    • H01H50/30Mechanical arrangements for preventing or damping vibration or shock, e.g. by balancing of armature
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/64Driving arrangements between movable part of magnetic circuit and contact
    • H01H50/68Driving arrangements between movable part of magnetic circuit and contact with snap action

Definitions

  • the present invention relates to an electric device, and more particularly to a technique applicable to an electric device provided with a frame body for accommodating a contact unit and an electromagnet unit.
  • the magnetic contactor as an electric device is equipped with a main body frame for accommodating a contact unit and an electromagnet unit.
  • the main body frame includes a first frame and a second frame facing each other, and a connecting mechanism for connecting the first frame and the second frame.
  • Patent Documents 1 and 2 disclose an electromagnetic contactor provided with a snap-fit mechanism as a connecting mechanism.
  • the snap-fit mechanism described in Patent Document 1 connects the first frame and the second frame by fitting the fitting portion provided on the hook portion of the first frame and the fitting protrusion provided on the second frame. doing.
  • the snap-fit mechanism described in Patent Document 2 connects the upper case and the lower case by fitting the engaging protrusion provided on the upper case and the socket provided on the elastic plate portion of the lower case. ..
  • the electromagnetic coil may be replaced according to the type of power supply used by the customer.
  • the snap-fit mechanism described in Patent Document 1 can fit and release the fitting portion of the first frame and the fitting protrusion of the second frame, and is therefore useful for replacing the electromagnetic coil. is there.
  • the snap-fit mechanism described in Patent Document 1 it is possible to bend the flexible protruding plate portion of the first frame outward by using a tool having a flat tip (flat plate shape) such as a flat-blade screwdriver.
  • the fitting portion of the flexible protrusion plate portion and the fitting protrusion portion of the second frame are released from the fitting portion, and it is troublesome to bend the flexible protrusion plate portion with a tool.
  • the flexible protruding plate portion is bent outward, there is no stopper that regulates the amount of bending of the flexible protruding plate portion, so there is a concern that the flexible protruding plate portion may be broken depending on the amount of force applied. ..
  • the snap-fit mechanism is provided at a plurality of places, and it is necessary to release the plurality of snap-fit mechanisms at the same time with a tool, which causes a problem in workability.
  • an object of the present invention is to provide an electric device capable of easily exchanging parts in a main body frame.
  • the electric device is A contact unit, an electromagnet unit for driving the contact unit, and a main body frame for accommodating the contact unit and the electromagnet unit in a storage portion are provided.
  • the main body frame includes a first frame having a flexible plate portion protruding from the open end side, a second frame facing the first frame in the first direction and forming a storage portion, the first frame, and the first frame. It is equipped with a snap-fit mechanism that connects the second frame.
  • the snap-fit mechanism has a fitted portion provided on the flexible protruding plate portion and a fitting protrusion provided on the side wall of the second frame and fitted with the fitted portion.
  • the fitted portion and the fitting protrusion are fitted by bringing the first frame and the second frame relatively close to each other in the first direction, and the fitting portion and the fitting protrusion are fitted in the second direction orthogonal to the first direction.
  • the fitting is released by relatively displacement of the first frame and the second frame.
  • the electrical equipment is By connecting the open end sides facing each other in one direction, the relative displacement between the first frame and the second frame for accommodating the electric components and the connected first frame and the second frame is suppressed. It is equipped with a relative displacement suppression mechanism.
  • the relative displacement suppressing mechanism is provided so as to overlap the first fixing portion provided on the side wall of the first frame and the first fixing portion on the side wall of the second frame in one direction. It includes two fixing portions, and a fixing member that can move over the first fixing portion and the second fixing portion.
  • an electric device capable of easily exchanging parts in a main body frame.
  • the second direction and the third direction orthogonal to each other in the same plane are set to the X direction and the Y direction, respectively, and the second direction and the third direction are defined as the Y direction, respectively.
  • the first direction orthogonal to each of the third directions is defined as the Z direction.
  • the magnetic contactor 1 includes a contact unit 10, an electromagnet unit 20 for driving the contact unit 10, and the contact unit 10 and the electromagnet unit 20. Is provided with a main body frame 30 for storing the above in the storage portion 30a.
  • the contact unit 10 and the electromagnet unit 20 are housed in the storage portion 30a of the main body frame 30 in series in the Z direction (first direction).
  • the magnetic contactor 1 opens and closes a three-phase alternating current electric circuit.
  • the contact unit 10 includes a pair of fixed contacts 11 and 12 and a bridge-connected movable contact 13 arranged so as to be detachable from the pair of fixed contacts 11 and 12.
  • a movable contact support 14 for holding the movable contact 13 is provided.
  • the pair of fixed contacts 11 and 12 are extended in the X direction (second direction), and a fixed contact is provided on one end side and an external terminal portion is provided on the other end side.
  • the pair of fixed contacts 11 and 12 are fixed to the main body frame 30 in a state where one end side thereof faces each other and is separated in the X direction.
  • the movable contact 13 extends in the X direction and is provided with movable contacts on one end side and the other end side, respectively.
  • the movable contact on one end side of the movable contact 13 and the fixed contact on one fixed contact 11 are arranged so as to face each other.
  • the movable contact on the other end side of the movable contact 13 and the fixed contact on the other fixed contact 12 are arranged so as to face each other.
  • the movable contact 13 is held by the movable contact support 14.
  • a pair of fixed contacts 11 and 12 and a movable contact 13 form a contact portion, and three contact portions are arranged side by side in the Y direction corresponding to a three-phase alternating current electric circuit.
  • the electromagnet unit 20 has a fixed iron core 21, a movable iron core 22, an electromagnetic coil 23, and a return spring 26.
  • the fixed iron core 21 and the movable iron core 22 are arranged so that their tangent surfaces face each other.
  • the electromagnetic coil 23 generates a magnetic field that attracts the fixed iron core 21 and the movable iron core 22 by electromagnetic force.
  • the electromagnetic coil 23 has a winding 24 and a bobbin 25.
  • the winding 24 passes between the central leg portion and the outer leg portion of each of the fixed iron core 21 and the movable iron core 22 and orbits around the central leg portion.
  • the bobbin 25 is the one around which the winding 24 is wound.
  • the bobbin 25 has a cylindrical portion in which the central legs of the fixed iron core 21 and the movable iron core 22 are inserted on the inner diameter side thereof, and the winding 24 is wound on the outer diameter side thereof. Further, the bobbin 25 is provided with flange portions protruding in a flange shape from both end portions of the cylindrical portion to the outer diameter side.
  • the electromagnetic coil 23 can be replaced according to the type of power supply used by the customer.
  • the return spring 26 is an urging means for urging the movable iron core 22 in a direction away from the fixed iron core 21.
  • the return spring 26 is, for example, a coil spring provided between the upper surface of the bobbin 25 of the electromagnetic coil 23 and the movable iron core 22.
  • the pair of fixed contacts 11 and 12 and the movable contact 13 are electrical contacts that switch the connection and disconnection of a circuit by contacting and separating from each other.
  • the movable contact 13 is fixed to one end side of the movable contact support 14 in the Z direction.
  • the other end of the movable contact support 14 in the Z direction is fixed to the back surface of the movable iron core 22 opposite to the leg side.
  • the movable contact 13 moves in the Z direction in conjunction with the movement of the movable iron core 22 in the Z direction. That is, the pair of fixed contacts 11 and 12 and the movable contact 13 are separated from each other in the released state in which the fixed iron core 21 and the movable iron core 22 are separated from each other, and the fixed iron core 21 and the movable iron core 22 are in contact with each other. Let's get in touch.
  • a contact spring (not shown) is provided on the side of the movable contactor 13 opposite to the movable iron core 22 side.
  • the main body frame 30 connects the first frame 31 and the second frame 41, which face each other in the Z direction and form the storage portion 30a, and the first frame 31 and the second frame 41.
  • the snap-fit mechanism 50 is provided.
  • one end side of the square tubular outer peripheral side wall having four side walls 31a, 31b, 31c, 31d is opened, and the other end side opposite to one end side of the outer peripheral side wall is closed by the bottom wall 31e. It is composed of a bottomed cylinder.
  • one end side of the square tubular outer peripheral side wall having four side walls 41a, 41b, 41c, 41d is open, and the other end side opposite to one end side of the outer peripheral side wall is the bottom wall. It is composed of a closed bottomed cylinder.
  • the side wall 31a and the side wall 41a and the side wall 31b and the side wall 41b are located on opposite sides in the X direction.
  • the side wall 31c and the side wall 41c and the side wall 31d and the side wall 41d are located on opposite sides in the Y direction.
  • the first frame 31 includes a primary terminal portion electrically connected to one of the pair of fixed contacts 11 and 12 and the other of the pair of fixed contacts 11 and 12. A secondary terminal portion electrically connected to the fixed contact 12 is provided.
  • Mounting plate portions 43 having mounting holes are provided at the four corners of the second frame 41 on the bottom wall side.
  • the first frame 31 and the second frame 41 are made of, for example, a nylon-based thermoplastic insulating resin having excellent heat resistance and insulating properties.
  • the side for accommodating the contact unit 10 is the first frame 31 having the flexible protruding plate portion 51
  • the side for accommodating the electromagnet unit 41 is the first having the fitting projection portion 55.
  • the two frames 41 are used, but on the contrary, the side that houses the electromagnet unit 41 is the first frame having the flexible protruding plate portion 51, and the side that houses the contact unit 10 has the fitting protrusion 55. It may be the second frame.
  • the snap-fit mechanism 50 is a flexible projecting plate portion 51 projecting from the open end of the first frame 31 of one of the first frame 31 and the second frame 41.
  • the hook portion 53 is provided with a fitting hole (opening) 52 as a fitting portion on the tip end side of the above, and the second frame 41 of the first frame 31 and the second frame 41 is provided. It also has a fitting protrusion 55 that fits into the fitting hole 52 of the flexible protrusion 51.
  • the flexible projecting plate portion 51 extends along the Z direction, the base portion is integrated with the first frame 31, and the tip end side opposite to the base portion projects from the open end side of the first frame 31 (FIG. 5). reference).
  • the tip of the flexible protruding plate portion 51 faces the outer surface of the outer peripheral side wall of the second frame 41.
  • the fitting hole portion 52 penetrates the front surface and the back surface of the flexible protruding plate portion 51 facing each other on the tip end side of the flexible protruding plate portion 51.
  • the fitting protrusion 55 of the second frame 41 is fitted and fitted into the fitting hole 52.
  • the fitting hole 52 is used as the fitting portion, but the fitting recess may be used as the fitting portion.
  • the fitting hole portion 52 and the fitting protrusion 55 are fitted by bringing the first frame 31 and the second frame 41 relatively close to each other in the Z direction (first direction), and are fitted in the X direction (third direction) orthogonal to the Z direction. The fitting is released by relatively shifting the first frame 31 and the second frame 41 in two directions).
  • the flexible protrusion plate portion 51 has a fitting protrusion when the first frame 31 and the second frame 41 are relatively close to each other in the Z direction and the fitting hole portion 52 and the fitting protrusion portion 55 are fitted. It has a first inclined surface 51a that comes into contact with the portion 55 and bends the flexible protruding plate portion 51 outward. That is, the flexible protrusion plate portion 51 has a first inclined surface 51a in the Z direction in which the fitting hole portion 52 and the fitting protrusion portion 55 are fitted. The first inclined surface 51a is inclined in a direction in which the wall thickness of the tip portion of the flexible protruding plate portion 51 gradually increases toward the base portion.
  • the fitting protrusion 55 displaces the first frame 31 and the second frame 41 relatively in the X direction orthogonal to the Z direction to release the fitting between the fitting hole 52 and the fitting protrusion 55. It has a second inclined surface 55a that comes into contact with the inner surface of the fitting hole portion 52 and bends the flexible protruding plate portion 51 outward. That is, the fitting protrusion 55 has a second inclined surface 55a in the X direction for releasing the fitting between the fitting hole 52 and the fitting protrusion 55.
  • the second inclined surface 55a is inclined in a direction in which the wall thickness of the fitting protrusion 55 gradually increases from the position where the flexible protrusion plate 51 contacts.
  • the first frame 31 and the second frame 41 are relative to the other second frame 41 provided with the fitting protrusion 55 in the X direction orthogonal to the Z direction.
  • the flexible protrusion 51 is bent outward in contact with the tip end side of the flexible protrusion 51.
  • It has a third inclined surface 56.
  • the third inclined surface 56 is provided on the outer surface side of the outer peripheral side wall of the second frame 41. That is, the snap-fit mechanism 50 has a third inclined surface 56 provided on the second frame 41.
  • the third inclined surface 56 is inclined in a direction in which the wall thickness gradually increases from the position where the flexible protruding plate portion 51 contacts toward the side wall surface.
  • the snap-fit mechanism 50 is provided side by side in the X direction on each portion of the outer peripheral side wall of the main body frame 30 located on opposite sides in the Y direction, for a total of four.
  • the hook portion 53 having the flexible protruding plate portion 51, the first inclined surface 51a, and the fitting hole portion 52 has two side walls located on opposite sides of each other in the Y direction (third direction) of the first frame 31.
  • the outer surfaces of 31c and 31d are provided apart from each other in the X direction.
  • the fitting protrusion 55 having the second inclined surface 55a and the third inclined surface 56 are located on the outer surfaces of the two side walls 41c and 41d located opposite to each other in the Y direction of the second frame 41 in the X direction. It is provided apart from each other.
  • the snap-fit mechanism 50 may be provided on one of the two side wall portions located on opposite sides of the main body frame 30, but on each side wall portion located on opposite side of the main body frame 30. It is preferable to provide one or more of each.
  • the main body frame 30 further includes a positioning mechanism 70 for positioning the positions of the first frame 31 and the second frame 41 in the X direction.
  • the positioning mechanism 70 protrudes from the open end of the first frame 31, and when connecting the first frame 31 and the second frame 41, penetrates from the open end of the second frame 41 and enters the inner surface of the outer peripheral side wall of the second frame 41. It has a flexible positioning plate portion 71 that faces each other.
  • the flexible positioning plate portion 71 extends along the Z direction, the base portion is integrated with the first frame 31, and the tip end side opposite to the base portion protrudes from the open end side of the first frame 31.
  • the tip end side of the flexible positioning plate portion 71 penetrates from the open end of the second frame 41 and faces the inner surface of the outer peripheral side wall of the second frame 41.
  • a total of four flexible positioning plate portions 71 are provided on the two side walls 31a and 31b of the first frame 31 in the X direction, two apart from each other in the Y direction. That is, the flexible positioning plate portion 71 is provided at each of the four corners of the first frame 31.
  • Each of the two flexible positioning plate portions 71 facing the inner surface of the 41a and arranged on the side wall 31b side of the first frame 31 faces the inner surface of the side wall 41b of the second frame 41.
  • the tip end side of each of the four flexible positioning plate portions 71 penetrates from the open end side of the second frame 41 and comes into contact with the inner surface of the outer peripheral side wall of the second frame 41, so that the positioning mechanism 70 and the first frame 31 Positioning with the second frame 41 can be performed.
  • the two flexible positioning plate portions 71 provided on the side wall 31a side of the first frame 31 have elastic force to urge the inner surface of the side wall 41a of the second frame 41, and the side wall 31b of the first frame 31.
  • the two flexible positioning plate portions 71 provided on the side have elastic force to urge the inner surface of the side wall 41b of the second frame 41.
  • the flexible positioning plate portion 71 is provided on the side wall 31a side and the side wall 31b side, it may be provided on the side wall 31c side and the side wall 31d side.
  • first frame 31 and the second frame 41 are arranged along the Z direction so that their open end sides face each other.
  • the first frame 31 and the second frame 41 are relatively close to each other in the Z direction, and the first inclined surface 51a at the tip of the flexible protruding plate portion 51 and the fitting protrusion are fitted. It is brought into contact with the portion 55. Then, by bringing the first frame 31 and the second frame 41 closer to each other in the Z direction, the first inclined surface 51a on the tip end side of the flexible protrusion plate portion 51 moves while contacting the fitting protrusion portion 55. As a result, the flexible protrusion plate portion 51 bends outward. After that, as shown in FIGS.
  • the fitting protrusion 55 is fitted and fitted into the fitting hole 52 of the flexible protrusion 51, and the flexible protrusion 51 is fitted.
  • the fitting hole 52 and the fitting protrusion 55 are locked by the elastic force.
  • the first frame 31 and the second frame 41 are connected and fixed to each other by the snap-fit mechanism 50.
  • the tip end side of the flexible positioning plate portion 71 of the first frame 31 invades from the open end side of the second frame 41, and the outer peripheral side wall of the second frame 41
  • the first frame 31 and the second frame 41 are positioned by coming into contact with the inner surface.
  • the flexible positioning plate portion 71 urges the inner surface of the outer peripheral side wall of the second frame 41 with its own elastic force. It is possible to suppress rattling (vibration) in the X direction of the 1st frame 31 and the 2nd frame 41.
  • FIGS. 10A, 10B, 11A and 11B show the side walls 31c and 41c of the first frame 31 and the second frame 41, respectively, as in FIG.
  • the first frame 31 and the second frame 41 are relatively connected in the X direction.
  • the inner wall surface of the flexible protruding plate portion 51 and the second inclined surface 55a of the fitting protrusion 55 are brought into contact with each other, and the flexible protruding plate portion 51 is brought into contact with the third inclined surface 56.
  • the inner wall surface of the flexible protruding plate portion 51 is fitted with the fitting protrusion 55.
  • the flexible protruding plate portion 51 bends outward when it moves while contacting the second inclined surface 55a and the flexible protruding plate portion 51 moves while contacting the third inclined surface 56. After that, the fitting protrusion 55 moves from the inside to the outside of the fitting hole 52 of the flexible protrusion plate 51. Then, by separating the first frame 31 and the second frame 41 relatively in the Z direction, as shown in FIGS. 11A and 11B, the fitting hole portion 52 and the fitting protrusion portion of the flexible protruding plate portion 51 are formed. The mating of 55 is released. As a result, the connection between the first frame 31 and the second frame 41 by the snap-fit mechanism 50 is released. That is, the snap-fit mechanism 50 can release the connection between the first frame 31 and the second frame 41 by relatively displacing the first frame 31 and the second frame 41 in the X direction. No need to use tools.
  • the magnetic contactor 1 according to the first embodiment includes a snap-fit mechanism 50. Then, as described above, the snap-fit mechanism 50 fits the fitting hole portion 52 and the fitting protrusion portion 55 by relatively displaces the first frame 31 and the second frame 41 in the X direction. Since it is possible to release the fitting, it is not necessary to release the fitting by using a tool as in the conventional case, and there is no need to bend the flexible protruding plate portion 51 by the tool. Therefore, according to the magnetic contactor 1 according to the first embodiment, parts such as the electromagnetic coil 23 in the main body frame 30 can be easily replaced.
  • the fitting hole portion 52 of the flexible protruding plate portion 51 and the fitting protrusion 55 can be released from the fitting without using a tool, the force when the flexible protruding plate portion 51 is bent by the tool. It is possible to eliminate the concern that the flexible protruding plate portion 51 may be broken by adjusting the amount. Further, by relatively displacing the first frame 31 and the second frame 41 in the X direction, the mating states of the four snap-fit mechanisms 50 can be released almost at the same time, so that the plurality of snap-fit mechanisms can be released with a tool. The workability is excellent as compared with the case of.
  • the magnetic contactor 1 according to the first embodiment further includes a positioning mechanism 70 for positioning the positions of the first frame 31 and the second frame 41 in the X direction. Therefore, according to the magnetic contactor 1 according to the first embodiment, when the first frame 31 and the second frame 41 are connected, the positioning mechanism 70 positions the first frame 31 and the second frame 41 in the X direction. This can be done quickly, and workability when connecting the first frame 31 and the second frame 41 with the snap-fit mechanism 50 can be improved.
  • the flexible positioning plate portion 71 of the positioning mechanism 70 has an elastic force that urges the inner surface of the outer peripheral side wall of the second frame 41 after connecting the first frame 31 and the second frame 41, it snaps. Even if the first frame and the second frame can be relatively displaced in the X direction by the fit mechanism 50, the elastic force of the flexible positioning plate portion 71 causes the first frame and the second frame to be displaced in the X direction. Rattling (vibration) can be suppressed.
  • the snap-fit mechanism 50 in which the fitting hole portion 52 is provided in the first frame 31 and the fitting protrusion portion 55 is provided in the second frame 41 has been described.
  • the present invention is not limited to the snap-fit mechanism 50 of the first embodiment described above.
  • the present invention can be applied to a snap-fit mechanism in which a fitting protrusion 55 is provided on the first frame 31 and a fitting hole 52 is provided on the second frame 41. That is, the present invention relates to a hook portion provided with a fitted portion on the tip end side of the flexible protruding plate portion 51 projecting from the open end side of one of the first frame 31 and the second frame 41. It can be applied to an electromagnetic contactor provided on the other frame and having a snap fit having a fitting protrusion to be fitted and a fitting protrusion.
  • the case where two snap-fit mechanisms 50 are provided on each of the two side walls 31c and 31d located on opposite sides in the Y direction of the first frame 31 has been described.
  • the number of snap-fit mechanisms 50 provided is not limited to the above-described first embodiment.
  • one snap-fit mechanism 50 may be provided for each of the two side walls 31c and 31d, or three or more snap-fit mechanisms 50 may be provided.
  • the fitting hole portion 52 is used as the fitted portion of the snap-fit mechanism 50 has been described, but the present invention is not limited to the fitting hole portion 52.
  • a fitting recess may be used as the fitting portion.
  • the magnetic contactor 1A according to the second embodiment of the present invention includes a contact unit 10 and an electromagnet unit 20 for driving the contact unit 10 as electrical equipment. Further, the magnetic contactor 1A according to the second embodiment of the present invention further includes a main body frame 30 for accommodating the contact unit 10 and the electromagnet unit 20 in the accommodating portion 30a as a case for an electric device. The contact unit 10 and the electromagnet unit 20 are housed in the storage portion 30a of the main body frame 30 in series in the Z direction (first direction). The magnetic contactor 1A opens and closes a three-phase alternating current electric circuit.
  • the contact unit 10 includes a pair of fixed contacts 11 and 12 and a bridge-connected movable contact 13 arranged so as to be detachable from the pair of fixed contacts 11 and 12.
  • a movable contact support 14 for holding the movable contact 13 is provided.
  • the pair of fixed contacts 11 and 12 are extended in the X direction (second direction), and a fixed contact is provided on one end side and an external terminal portion is provided on the other end side.
  • the pair of fixed contacts 11 and 12 are fixed to the main body frame 30 in a state where one end side thereof faces each other and is separated in the X direction.
  • the movable contact 13 extends in the X direction and is provided with movable contacts on one end side and the other end side, respectively.
  • the movable contact on one end side of the movable contact 13 and the fixed contact on one fixed contact 11 are arranged so as to face each other.
  • the movable contact on the other end side of the movable contact 13 and the fixed contact on the other fixed contact 12 are arranged so as to face each other.
  • the movable contact 13 is held by the movable contact support 14.
  • a pair of fixed contacts 11 and 12 and a movable contact 13 form a contact portion, and three contact portions are arranged side by side in the Y direction corresponding to a three-phase alternating current electric circuit.
  • the electromagnet unit 20 has a fixed iron core 21, a movable iron core 22, an electromagnetic coil 23, and a return spring 26.
  • the fixed iron core 21 and the movable iron core 22 are arranged so that their tangent surfaces face each other.
  • the electromagnetic coil 23 generates a magnetic field that attracts the fixed iron core 21 and the movable iron core 22 by electromagnetic force.
  • the electromagnetic coil 23 has a winding 24 and a bobbin 25.
  • the winding 24 passes between the central leg portion and the outer leg portion of each of the fixed iron core 21 and the movable iron core 22 and orbits around the central leg portion.
  • the bobbin 25 is the one around which the winding 24 is wound.
  • the bobbin 25 has a cylindrical portion in which the central legs of the fixed iron core 21 and the movable iron core 22 are inserted on the inner diameter side thereof, and the winding 24 is wound on the outer diameter side thereof. Further, the bobbin 25 is provided with flange portions protruding in a flange shape from both end portions of the cylindrical portion to the outer diameter side.
  • the electromagnetic coil 23 can be replaced according to the type of power supply used by the customer.
  • the return spring 26 is an urging means for urging the movable iron core 22 in a direction away from the fixed iron core 21.
  • the return spring 26 is, for example, a coil spring provided between the upper surface of the bobbin 25 of the electromagnetic coil 23 and the movable iron core 22.
  • the pair of fixed contacts 11 and 12 and the movable contact 13 are electrical contacts that switch the connection and disconnection of a circuit by contacting and separating from each other.
  • the movable contact 13 is fixed to one end side of the movable contact support 14 in the Z direction.
  • the other end of the movable contact support 14 in the Z direction is fixed to the back surface of the movable iron core 22 opposite to the leg side.
  • the movable contact 13 moves in the Z direction in conjunction with the movement of the movable iron core 22 in the Z direction. That is, the pair of fixed contacts 11 and 12 and the movable contact 13 are separated from each other in the released state in which the fixed iron core 21 and the movable iron core 22 are separated from each other, and the fixed iron core 21 and the movable iron core 22 are in contact with each other. Let's get in touch.
  • a contact spring (not shown) is provided on the side of the movable contactor 13 opposite to the movable iron core 22 side.
  • the main body frame 30 connects the first frame 31 and the second frame 41, which face each other in the Z direction and form the storage portion 30a, and the first frame 31 and the second frame 41.
  • the snap-fit mechanism 50 is provided.
  • one end side of the square tubular outer peripheral side wall having four side walls 31a, 31b, 31c, 31d is opened, and the other end side opposite to one end side of the outer peripheral side wall is closed by the bottom wall 31e. It is composed of a bottomed cylinder.
  • one end side of the square tubular outer peripheral side wall having four side walls 41a, 41b, 41c, 41d is open, and the other end side opposite to one end side of the outer peripheral side wall is the bottom wall. It is composed of a closed bottomed cylinder.
  • the side wall 31a and the side wall 41a and the side wall 31b and the side wall 41b are located on opposite sides in the X direction.
  • the side wall 31c and the side wall 41c and the side wall 31d and the side wall 41d are located on opposite sides in the Y direction.
  • the first frame 31 includes a primary terminal portion electrically connected to one of the pair of fixed contacts 11 and 12 and the other of the pair of fixed contacts 11 and 12. A secondary terminal portion electrically connected to the fixed contact 12 is provided.
  • Mounting plate portions 43 having mounting holes are provided at the four corners of the second frame 41 on the bottom wall side.
  • the first frame 31 and the second frame 41 are made of, for example, a nylon-based thermoplastic insulating resin having excellent heat resistance and insulating properties.
  • the side for accommodating the contact unit 10 is the first frame 31 having the flexible protruding plate portion 51
  • the side for accommodating the electromagnet unit 20 is the first having the fitting projection portion 55.
  • the two frames 41 are used, but on the contrary, the side that houses the electromagnet unit 20 is the first frame having the flexible protruding plate portion 51, and the side that houses the contact unit 10 has the fitting protrusion 55. It may be the second frame.
  • the snap-fit mechanism 50 is a flexible projecting plate portion 51 projecting from the open end of the first frame 31 of one of the first frame 31 and the second frame 41.
  • the hook portion 53 is provided with a fitting hole (opening) 52 as a fitting portion on the tip end side of the above, and the second frame 41 of the first frame 31 and the second frame 41 is provided. It also has a fitting protrusion 55 that fits into the fitting hole 52 of the flexible protrusion 51.
  • the flexible protruding plate portion 51 extends along the Z direction, the base portion is integrated with the first frame 31, and the tip end side opposite to the base portion protrudes from the open end side of the first frame 31 (FIG. 16). reference).
  • the tip of the flexible protruding plate portion 51 faces the outer surface of the outer peripheral side wall of the second frame 41.
  • the fitting hole portion 52 penetrates the front surface and the back surface of the flexible protruding plate portion 51 facing each other on the tip end side of the flexible protruding plate portion 51.
  • the fitting protrusion 55 of the second frame 41 is fitted and fitted into the fitting hole 52.
  • the fitting hole 52 is used as the fitting portion, but the fitting recess may be used as the fitting portion.
  • the fitting hole portion 52 and the fitting protrusion 55 are fitted by bringing the first frame 31 and the second frame 41 relatively close to each other in the Z direction (first direction), and are fitted in the X direction (third direction) orthogonal to the Z direction. The fitting is released by relatively shifting the first frame 31 and the second frame 41 in two directions).
  • the flexible protrusion plate portion 51 has a fitting protrusion when the first frame 31 and the second frame 41 are relatively close to each other in the Z direction and the fitting hole portion 52 and the fitting protrusion portion 55 are fitted. It has a first inclined surface 51a that comes into contact with the portion 55 and bends the flexible protruding plate portion 51 outward. That is, the flexible protrusion plate portion 51 has a first inclined surface 51a in the Z direction in which the fitting hole portion 52 and the fitting protrusion portion 55 are fitted. The first inclined surface 51a is inclined in a direction in which the wall thickness of the tip portion of the flexible protruding plate portion 51 gradually increases toward the base portion.
  • the fitting protrusion 55 displaces the first frame 31 and the second frame 41 relatively in the X direction orthogonal to the Z direction to release the fitting between the fitting hole 52 and the fitting protrusion 55. It has a second inclined surface 55a that comes into contact with the inner surface of the fitting hole portion 52 and bends the flexible protruding plate portion 51 outward. That is, the fitting protrusion 55 has a second inclined surface 55a in the X direction for releasing the fitting between the fitting hole 52 and the fitting protrusion 55.
  • the second inclined surface 55a is inclined in a direction in which the wall thickness of the fitting protrusion 55 gradually increases from the position where the flexible protrusion plate 51 contacts.
  • the first frame 31 and the second frame 41 are relative to the other second frame 41 provided with the fitting protrusion 55 in the X direction orthogonal to the Z direction.
  • the flexible protrusion 51 is bent outward in contact with the tip end side of the flexible protrusion 51.
  • It has a third inclined surface 56.
  • the third inclined surface 56 is provided on the outer surface side of the outer peripheral side wall of the second frame 41. That is, the snap-fit mechanism 50 has a third inclined surface 56 provided on the second frame 41.
  • the third inclined surface 56 is inclined in a direction in which the wall thickness gradually increases from the position where the flexible protruding plate portion 51 contacts toward the side wall surface.
  • the snap-fit mechanism 50 is provided side by side in the X direction on each portion of the outer peripheral side wall of the main body frame 30 located on opposite sides in the Y direction, for a total of four.
  • the hook portion 53 having the flexible protruding plate portion 51, the first inclined surface 51a, and the fitting hole portion 52 has two side walls located on opposite sides of each other in the Y direction (third direction) of the first frame 31.
  • the outer surfaces of 31c and 31d are provided apart from each other in the X direction.
  • the fitting protrusion 55 having the second inclined surface 55a and the third inclined surface 56 are located on the outer surfaces of the two side walls 41c and 41d located opposite to each other in the Y direction of the second frame 41 in the X direction. It is provided apart from each other.
  • the snap-fit mechanism 50 may be provided on one of the two side wall portions located on opposite sides of the main body frame 30, but on each side wall portion located on opposite side of the main body frame 30. It is preferable to provide one or more of each.
  • the main body frame 30 further includes a relative displacement suppressing mechanism 80 that suppresses the relative displacement between the connected first frame 31 and the second frame 41.
  • the relative displacement suppressing mechanism 80 of the second embodiment has the relative displacements of the X direction and the Y direction in the two-dimensional plane orthogonal to the connecting direction (Z direction) of the first frame 31 and the second frame 41, respectively. Relative displacement (lateral displacement) in the direction can be suppressed. In addition, relative displacement (longitudinal displacement) in the Z direction can also be suppressed.
  • the relative displacement suppressing mechanism 80 includes a first fixing portion 81 provided on the side wall 31a of the first frame 31 and a second fixing portion 81 provided on the side wall 41a of the second frame 41. It includes an 85 and a fixing member 90 that can be detachably attached to the first fixing portion 81 and the second fixing portion 85. Then, as shown in FIGS. 20A and 20B, the relative displacement suppressing mechanism 80 has a first state in which the fixing member 90 is fixed to both the first fixing portion 81 and the second fixing portion 85, and the fixing member 90 is the first. As a second state fixed to either the 1 fixing portion 81 or the second fixing portion 85, a second state in which the fixing member 90 is fixed to the first fixing portion 81 as shown in FIGS. 19A and 20B. Have.
  • the first fixing portion 81 and the second fixing portion 85 are provided so as to overlap each other in the Z direction when connecting the first frame 31 and the second frame 41.
  • the fixing member 90 moves from the first fixing portion 81 side toward the second fixing portion 85 side, and is connected and fixed over each of the first fixing portion 81 and the second fixing portion 85. Is done (first state).
  • the fixing member 90 is detachably held on the first fixing portion 81 side (second state). Then, the fixing member 90 in this holding state (second state) is moved from the first fixing portion 81 side toward the second fixing portion 85 side (from the state shown in FIGS. 19A and 19B (second state)) to FIGS.
  • the fixing member 90 in the relative displacement suppressing state is moved from the second fixing portion 85 side toward the first fixing portion 81 side (from the state shown in FIGS. 20A and 20B (first state) to FIGS. 19A and 19B.
  • the relative displacement suppression between the connected first frame 31 and the second frame 41 can be released.
  • the fixing member 90 slides over the first fixing portion 81 and the second fixing portion 85. That is, the relative displacement suppressing mechanism 80 can suppress and release the relative displacement between the connected first frame 31 and the second frame 41 without using a tool (without a tool).
  • the first fixing portion 81 is integrally formed with the side wall 31a of the first frame 31.
  • the second fixing portion 85 is integrally formed with the side wall 41a of the second frame 41.
  • the first fixed portion 81 includes a front portion 81a, two side surface portions 81b located on opposite sides in the Y direction, and two end faces located on opposite sides in the Z direction. It is composed of a rectangular parallelepiped three-dimensional structure having a portion 81c.
  • the first fixing portion 81 has a first piece insertion portion 82 into which the insertion piece 92 described later is inserted, and a first arm insertion portion 83 into which the flexible arm 93 described later is inserted. ..
  • Each of the first piece insertion portion 82 and the first arm insertion portion 83 is composed of a through hole extending from one end face portion 81c side of the first fixing portion 81 to the other end face portion 81c side.
  • Two first piece insertion portions 82 are provided so as to be separated from each other in the Y direction.
  • the first arm insertion portion 83 is provided between the two first piece insertion portions 82 so as to be separated from each other in the Y direction.
  • the second fixing portion 85 includes a front portion 85a, two side surface portions 85b located on opposite sides in the Y direction, and two end faces located on opposite sides in the Z direction. It is composed of a rectangular parallelepiped three-dimensional structure having a portion 85c.
  • the second fixing portion 85 has a second piece inserting portion 86 into which the insertion piece 92 is inserted, and a second arm inserting portion 87 into which the flexible arm 93 is inserted.
  • Each of the second piece insertion portion 86 and the second arm insertion portion 87 is composed of a through hole extending from one end face portion 85c side of the second fixing portion 85 to the other end face portion 85c side.
  • Two second piece insertion portions 86 are provided so as to be separated from each other in the Y direction.
  • Two second arm insertion portions 87 are provided between the two second piece insertion portions 86 so as to be separated from each other in the Y direction.
  • the insertion piece 92 is inserted from the first piece insertion portion 82 side toward the second piece insertion portion 86.
  • the second piece insertion portion 86 may be formed of a recess having a bottom portion.
  • the first fixing portion 81 and the second fixing portion 85 are connected to the front portions 81a and 85a in the Z direction when the first frame 31 and the second frame 41 are connected to each other.
  • the sizes of the external shapes are uniform so that the side wall portions 81b and 85b are flush with each other.
  • the first piece insertion portion 82 and the second piece insertion portion 86 are configured to be positioned on a straight line in the Z direction when the first frame 31 and the second frame 41 are connected. There is. In other words, the first piece insertion portion 82 and the second piece insertion portion 86 are configured to overlap each other in the Z direction.
  • first arm insertion portion 83 and the second arm insertion portion 87 are also configured to be positioned on a straight line in the Z direction when the first frame 31 and the second frame 41 are connected. In other words, the first arm insertion portion 83 and the second arm insertion portion 87 are configured to overlap each other in the Z direction.
  • the first locking projection 93a provided on the tip end side of the flexible arm 93 is hooked by utilizing the flexibility of the flexible arm 93. 1 It has a locked portion 88.
  • the first locked portion 88 is provided on the inner wall of each of the two second arm insertion portions 87, and is arranged adjacent to each other in the Y direction.
  • the second locking protrusion 93b provided on the flexible arm 93 at a distance from the first locking protrusion 93a is flexible of the flexible arm 93. It has a second locked portion 84 that can be hooked by utilizing the property.
  • the second locked portion 84 is provided on the inner wall of each of the two first arm insertion portions 83, and is arranged adjacent to each other in the Y direction. As shown in FIGS. 19B and 20B, the first locked portion 88 and the second locked portion 84 are located on a straight line in the Z direction when the first frame 31 and the second frame 41 are connected. It is configured as follows. In other words, the first locked portion 88 and the second locked portion 84 are configured to overlap each other in the Z direction.
  • the fixing member 90 has a member main body 91, an insertion piece 92 in which each base is fixed to the member main body 91, and a flexible arm 93.
  • the member main body 91 has a two-dimensional plane shape (rectangular shape) including a longitudinal direction (for example, Y direction) and a lateral direction (for example, X direction), and an upper wall portion 91a and the upper wall portion 91a in the lateral direction.
  • the back wall portion 91b extending in a direction orthogonal to the upper wall portion 91a (for example, the Z direction) from the long side side of one of the two long sides located on the opposite side and the upper wall portion 91a are opposite to each other in the longitudinal direction.
  • the side of the member main body 91 opposite to the upper wall portion 91a is opened, and the open end side serves as an entrance / exit for the first fixing portion 81 and the second fixing portion 85. That is, when the fixing member 90 moves from the first fixing portion 81 side toward the second fixing portion 85 side, the front portions 81a, 85a and the side surface portions 81b of the first fixing portion 81 and the second fixing portion 85, respectively, , 85b slide. As shown in FIGS. 18A and 19B, when the fixing member 90 is attached to the first fixing portion 81, the longitudinal direction of the fixing member 90 is the Y direction, and the lateral direction of the fixing member 90 is the X direction.
  • the insertion piece 92 has a base portion (root) connected to the upper wall portion 91a by integral molding, and extends from the base portion toward the open end side of the member main body 91. Then, the insertion piece 92 moves the fixing member 90 from the first fixing portion 81 side toward the second fixing portion 85 side (from the state shown in FIGS. 19A and 19B (second state)) shown in FIGS. 20A and 20B. By moving to the state (first state), the first piece insertion portion 82 of the first fixing portion 81 and the second piece insertion portion 86 of the second fixing portion 85 are inserted.
  • the insertion piece 92 moves while sliding on the inner walls of the first piece insertion portion 82 and the second piece insertion portion 86.
  • the insertion piece 92 has, for example, a plate shape wide in the longitudinal direction of the upper wall portion 91a.
  • the flexible arm 93 has a base portion connected to the upper wall portion 91a by integral molding and extends from the base portion toward the open end side of the member main body 91.
  • the flexible arm 93 is separated from the first locking protrusion 93a provided on the tip side opposite to the base portion and the first locking protrusion 93a in the extending direction of the flexible arm 93. It also has a second locking protrusion 93b provided on the base side of the first locking protrusion 93a.
  • the first locking projection 93a of the flexible arm 93 moves the fixing member 90 from the first fixing portion 81 side to the second fixing portion 85 side (from the state shown in FIGS. 19A and 19B (second state)).
  • the elastic force of the flexible arm 93 causes the second fixing portion 85 to be first locked. It is hooked on the portion 88 and the locked state with the first locked portion 88 is maintained.
  • the insertion piece 92 is held in the state of being inserted into each of the first piece insertion portion 82 of the first fixing portion 81 and the second piece insertion portion 86 of the second fixing portion 85.
  • the relative displacement suppressing mechanism 80 moves the fixing member 90 from the first fixing portion 81 side toward the second fixing portion 85 side, and the elastic force of the flexible arm 93 causes the first flexible arm 93 to move.
  • the insertion piece 92 is fixed to the first piece inserting portion 82 and the second fixing portion 81 of the first fixing portion 81.
  • the state of being inserted over each of the second piece insertion portions 86 of the portion 85 is held, and the first state in which the fixing member 90 is fixed to both the first fixing portion 81 and the second fixing portion 85 is held. ..
  • the state of suppressing the relative displacement of the first frame 31 and the second frame 41 in each of the X and Y directions is maintained.
  • the second locking projection 93b of the flexible arm 93 moves the fixing member 90 from the second fixing portion 85 side toward the first fixing portion 81 side (state shown in FIGS. 20A and 20B (first state)).
  • the elastic force of the flexible arm 93 causes the second cover of the first fixing portion 81 to be covered. It is hooked on the locking portion 84 and the locked state with the second locked portion 84 is maintained. Then, by holding this locked state, the insertion piece 92 is held in a state of being pulled out (disengaged state) from the second piece insertion portion 86 of the second fixing portion 85.
  • the relative displacement suppressing mechanism 80 moves the fixing member 90 from the second fixing portion 85 side toward the first fixing portion 81 side, and the elastic force of the flexible arm 93 causes the second of the flexible arm 93 to move.
  • the flexible arm 93 has an elastic force that urges the first locking protrusion 93a to the first locked portion 88 and the second locking protrusion 93b to the second locked portion 84. Has. Then, the first locking projection 93a is urged to the first locked portion 88 by the elastic force of the flexible arm 93, and the locked state with the first locked portion 88 is maintained. Further, the second locking protrusion 93b is urged to the second locked portion 84 by the elastic force of the flexible arm 93, and the locked state with the second locked portion 84 is maintained.
  • each of the insertion piece 92, the first piece insertion portion 82 of the first fixing portion 81, and the second piece insertion portion 86 of the second fixing portion 85 is in the longitudinal direction of the upper wall portion 91a. Two are provided side by side (Y direction). Further, each of the flexible arm 93, the first arm insertion portion 83 of the first fixing portion 81, and the second arm insertion portion 87 of the second fixing portion 85 is provided in the longitudinal direction (Y direction) of the upper wall portion 91a. And two are provided.
  • the relative displacement suppressing mechanism 80 of the first embodiment includes two sets including the insertion piece 92, the first piece insertion portion 82, and the second piece insertion portion 86, and the flexible arm 93 and the first. Two sets including the arm insertion portion 83 and the second arm insertion portion 87 are provided.
  • the group including the insertion piece 92, the first piece insertion part 82 and the second piece insertion part 86, and the group including the flexible arm 93, the first arm insertion part 83 and the second arm insertion part 87 are the same.
  • the number of sets is not limited to that of the first embodiment, and may be, for example, one set, or three or more sets. Further, the number of sets includes the set including the insertion piece 92, the first piece insertion part 82 and the second piece insertion part 86, and the set including the flexible arm 93, the first arm insertion part 83 and the second arm insertion part 87. May be different.
  • the relative displacement suppressing mechanism 80 is provided on the side wall of the first frame 31 and the positioning protrusion 95 provided on the side wall of the fixing member 90, and the fixing member 90 is provided on the second fixing portion.
  • the positioning protrusion 95 is in a state where the insertion piece 92 is pulled out from the second piece insertion portion 86 and the fixing member 90 is held by the first fixing portion 81.
  • a stopper portion 96 that abuts and stops the movement of the first fixing portion 81 is provided.
  • the relative displacement suppressing mechanism 80 is further provided with a guide recess 97 extending in the Z direction on the side wall 41a of the second frame 41 and in which the positioning protrusion 95 moves along the Z direction.
  • the stopper portion 96 is provided at the end of the guide recess 97, and is formed by a step between the first frame 31 and the guide recess 97.
  • the insertion piece 92 is inserted only into the first piece insertion portion 82 of the first fixing portion 81, and the fixing member 90 is inserted from the second piece insertion portion 86 of the second fixing portion 85. It is held by the first fixing portion 81 in a detached state, that is, in a state in which the suppression of the relative displacement (lateral displacement) in the X direction and the Y direction is released.
  • the flexible arm 93 is inserted into the first arm insertion portion 83 of the first fixing portion 81 and the second arm insertion portion 87 of the second fixing portion 85.
  • the first locking protrusion 93a of the flexible arm 93 is located between the first locked portion 88 and the second locked portion 84, and is locked with the first locked portion. Therefore, the suppression of the relative displacement (longitudinal displacement) in the Z direction is released.
  • the fixing member 90 is inserted toward the second fixing portion 85 side from the state where the suppression of the relative displacement is released, and the fixing member 90 is inserted toward the first fixing portion 81 side as shown in FIGS. 20A and 20B.
  • the fixing member 90 Toward the second fixed portion 85 side.
  • the insertion piece 92 moves to the second piece insertion portion 86 of the second fixing portion 85, and the insertion piece 92 is first fixed. It is inserted over the first piece insertion portion 82 of the portion 81 and the second piece insertion portion 86 of the second fixing portion 85.
  • the first locking protrusion 93a of the flexible arm 93 is first locked by the second fixing portion 85.
  • the flexible arm 93 bends outward on the side opposite to the first locked portion 88 by moving while contacting the portion 88.
  • the first locking projection 93a gets over the first locked portion 88 due to the bending of the outside of the flexible arm 93.
  • the first locking protrusion 93a of the flexible arm 93 is hooked on the first locked portion 88 by the elastic force of the flexible arm 93, and the first locking protrusion 93a of the flexible arm 93 is hooked.
  • the locked state of the second fixed portion 85 with the first locked portion 88 is maintained.
  • the upper wall portion 91a of the fixing member 90 comes into contact with the second locked portion 84 of the first fixing portion 81 to stop the movement of the fixing member 90, and the first locking protrusion 93a and the first covering Positioning with the locking portion 88 is made.
  • the second locking protrusion 93b of the flexible arm 93 is second locked to the first fixing portion 81.
  • the flexible arm 93 bends outward on the side opposite to the second locked portion 84 by moving while contacting the portion 84.
  • the second locking projection 93b gets over the second locked portion 84 due to the bending of the outside of the flexible arm 93.
  • the second locking projection 93b of the flexible arm 93 moves between the second locked portion 84 of the first fixing portion 81 and the first locked portion 88 of the second fixing portion 85.
  • the locked state of the second locking protrusion 93b of the flexible arm 93 and the second locked portion 84 of the first fixing portion 81 is released.
  • the insertion pieces 92 inserted over the first piece insertion portion 82 and the second piece insertion portion 86 cause the relative displacements of the first frame 31 and the second frame 41 in the X and Y directions, respectively. Lateral displacement) can be suppressed. Further, by holding the locking between the first locking protrusion 93a of the flexible arm 93 and the first locked portion 88 of the second fixing portion 85, the first frame 31 and the second frame 41 Relative displacement (longitudinal displacement) in the Z direction can also be suppressed. Further, the fixing member 90 can hold the first state fixed to both the first fixing portion 81 and the second fixing member 85.
  • the fixing member 90 is moved from the second fixing portion 85 side to the first fixing portion 81 side from the state where the relative displacement is suppressed (see FIGS. 20A and 20B) (see FIGS. 19A and 19B). Due to the movement of the fixing member 90, the insertion piece 92 moves from the second piece insertion portion 86 side of the second fixing portion 85 to the first piece insertion portion 82 side of the first fixing portion 81, and the insertion piece 92 is second-fixed. It is pulled out from the second piece insertion portion 86 of the portion 85.
  • the first locking protrusion 93a of the flexible arm 93 is first locked by the second fixing portion 85.
  • the flexible arm 93 bends outward on the side opposite to the first locked portion 88 by moving while contacting the portion 88.
  • the first locking projection 93a gets over the first locked portion 88 due to the bending of the outside of the flexible arm 93.
  • the first locking projection 93a of the flexible arm 93 moves between the first locked portion 88 of the second fixing portion 85 and the second locked portion 84 of the first fixing portion 81.
  • the locked state of the first locking protrusion 93a of the flexible arm 93 and the first locked portion 88 of the second fixing portion 85 is released.
  • the second locking protrusion 93b of the flexible arm 93 is second locked to the first fixing portion 81.
  • the flexible arm 93 bends outward on the side opposite to the second locked portion 84 by moving while contacting the portion 84.
  • the second locking projection 93b gets over the second locked portion 84 due to the bending of the outside of the flexible arm 93.
  • the second locking protrusion 93b of the flexible arm 93 is hooked on the second locked portion 84 by the elastic force of the flexible arm 93, and the second locking protrusion 93b of the flexible arm 93 is hooked.
  • the locked state of the first fixed portion 81 with the second locked portion 84 is maintained.
  • the positioning protrusion 95 of the fixing member 90 moves the guide recess 97 of the second fixing portion 85, and the positioning protrusion portion The 95 abuts on the stopper portion 96 of the first frame 31 to stop the movement of the fixing member 90, and the second locking protrusion 93b and the second locked portion 84 are positioned.
  • the insertion piece 92 is pulled out from the second piece insertion portion 86, the suppression of the relative displacement (lateral displacement) of the first frame 31 and the second frame 41 in the X direction and the Y direction is released. Can be done. Further, since the first locking projection 93a of the flexible arm 93 and the first locked portion 88 of the second fixing portion 85 are released from each other, the first frame 31 and the second frame 41 are combined. The suppression of relative displacement (longitudinal displacement) in the Z direction can be released. Further, the fixing member 90 can hold the second state fixed to the first fixing member 81.
  • the surface of the second locking projection 93b of the flexible arm 93 in contact with the second locked portion 84 is R-shaped in order to facilitate overcoming of the second locked portion 84.
  • the tip surface of the first locking projection 93a of the flexible arm 93 in contact with the first locked portion 88 is inclined in order to facilitate overcoming of the first locked portion 88.
  • the fixing member 90 is made of, for example, a polyamide (PA) resin having excellent flexibility.
  • the main body frame 30 further includes a positioning mechanism 70 for positioning the positions of the first frame 31 and the second frame 41 in the X direction.
  • the positioning mechanism 70 protrudes from the open end of the first frame 31, and when connecting the first frame 31 and the second frame 41, penetrates from the open end side of the second frame 41 and penetrates from the open end side of the second frame 41 to enter the inner surface of the outer peripheral side wall of the second frame 41.
  • It has a flexible positioning plate portion 71 facing the surface.
  • the flexible positioning plate portion 71 extends along the Z direction, the base portion is integrated with the first frame 31, and the tip end side opposite to the base portion protrudes from the open end side of the first frame 31.
  • the tip end side of the flexible positioning plate portion 71 invades from the open end side of the second frame 41 and with the inner surface of the outer peripheral side wall of the second frame 41.
  • a total of four flexible positioning plate portions 71 are provided on the two side walls 31a and 31b of the first frame 31 in the X direction, two apart from each other in the Y direction. That is, the flexible positioning plate portion 71 is provided at each of the four corners of the first frame 31.
  • Each of the two flexible positioning plate portions 71 facing the inner surface of the 41a and arranged on the side wall 31b side of the first frame 31 faces the inner surface of the side wall 41b of the second frame 41.
  • the tip end side of each of the four flexible positioning plate portions 71 penetrates from the open end side of the second frame 41 and comes into contact with the inner surface of the outer peripheral side wall of the second frame 41, so that the positioning mechanism 70 and the first frame 31 Positioning with the second frame 41 can be performed.
  • the two flexible positioning plate portions 71 provided on the side wall 31a side of the first frame 31 have elastic force to urge the inner surface of the side wall 41a of the second frame 41, and the side wall 31b of the first frame 31.
  • the two flexible positioning plate portions 71 provided on the side have elastic force to urge the inner surface of the side wall 41b of the second frame 41.
  • the flexible positioning plate portion 71 is provided on the side wall 31a side and the side wall 31b side, it may be provided on the side wall 31c side and the side wall 31d side.
  • FIGS. 22A, 22B, 23A, and 23B show the side walls 31c and 41c of the first frame 31 and the second frame 41, respectively, as in FIG.
  • the first frame 31 and the second frame 41 are arranged along the Z direction so that their open end sides face each other.
  • the first frame 31 and the second frame 41 are relatively close to each other in the Z direction, and the first inclined surface 51a and the fitting projection at the tip of the flexible protruding plate portion 51 are brought close to each other. It is brought into contact with the portion 55. Then, by bringing the first frame 31 and the second frame 41 closer to each other in the Z direction, the first inclined surface 51a on the tip end side of the flexible protrusion plate portion 51 moves while contacting the fitting protrusion portion 55. As a result, the flexible protrusion plate portion 51 bends outward. After that, as shown in FIGS.
  • the fitting protrusion 55 is fitted and fitted into the fitting hole 52 of the flexible protrusion 51, and the flexible protrusion 51 is fitted.
  • the fitting hole 52 and the fitting protrusion 55 are locked by the elastic force.
  • the first frame 31 and the second frame 41 are connected and fixed to each other by the snap-fit mechanism 50.
  • the tip end side of the flexible positioning plate portion 71 of the first frame 31 invades from the open end side of the second frame 41, and the outer peripheral side wall of the second frame 41
  • the first frame 31 and the second frame 41 are positioned by coming into contact with the inner surface.
  • the flexible positioning plate portion 71 urges the inner surface of the outer peripheral side wall of the second frame 41 with its own elastic force. It is possible to suppress rattling (vibration) in the X direction of the 1st frame 31 and the 2nd frame 41.
  • FIGS. 24A, 24B, 25A, and 25B show the side walls 31c and 41c of the first frame 31 and the second frame 41, respectively, as in FIG.
  • the first frame 31 and the second frame 41 are relatively connected in the X direction.
  • the inner wall surface of the flexible protruding plate portion 51 and the second inclined surface 55a of the fitting protrusion 55 are brought into contact with each other, and the flexible protruding plate portion 51 is brought into contact with the third inclined surface 56.
  • the inner wall surface of the flexible protruding plate portion 51 is fitted with the fitting protrusion 55.
  • the flexible protruding plate portion 51 bends outward when it moves while contacting the second inclined surface 55a and the flexible protruding plate portion 51 moves while contacting the third inclined surface 56. After that, the fitting protrusion 55 moves from the inside to the outside of the fitting hole 52 of the flexible protrusion plate 51. Then, by separating the first frame 31 and the second frame 41 relatively in the Z direction, as shown in FIGS. 25A and 25B, the fitting hole portion 52 and the fitting protrusion portion of the flexible protruding plate portion 51 are formed. The mating of 55 is released. As a result, the connection between the first frame 31 and the second frame 41 by the snap-fit mechanism 50 is released. That is, the snap-fit mechanism 50 can release the connection between the first frame 31 and the second frame 41 by relatively displacing the first frame 31 and the second frame 41 in the X direction. No need to use tools.
  • the magnetic contactor 1A according to the second embodiment includes a snap-fit mechanism 50. Then, as described above, the snap-fit mechanism 50 fits the fitting hole portion 52 and the fitting protrusion portion 55 by relatively displaces the first frame 31 and the second frame 41 in the X direction. Since it is possible to release the fitting, it is not necessary to release the fitting by using a tool as in the conventional case, and there is no need to bend the flexible protruding plate portion 51 by the tool. Therefore, according to the magnetic contactor 1A according to the second embodiment, parts such as the electromagnetic coil 23 in the main body frame 30 can be easily replaced.
  • the fitting hole portion 52 of the flexible protruding plate portion 51 and the fitting protrusion 55 can be released from the fitting without using a tool, the force when the flexible protruding plate portion 51 is bent by the tool. It is possible to eliminate the concern that the flexible protruding plate portion 51 may be broken by adjusting the amount. Further, by relatively displacing the first frame 31 and the second frame 41 in the X direction, the fitting states of the four snap-fit mechanisms 50 can be released almost at the same time, so that the plurality of snap-fit mechanisms can be released with a tool. The workability is excellent as compared with the case of.
  • the magnetic contactor 1A according to the second embodiment further includes a positioning mechanism 70 for positioning the positions of the first frame 31 and the second frame 41 in the X direction. Therefore, according to the magnetic contactor 1A according to the second embodiment, when the first frame 31 and the second frame 41 are connected, the positioning mechanism 70 positions the first frame 31 and the second frame 41 in the X direction. This can be done quickly, and workability when connecting the first frame 31 and the second frame 41 with the snap-fit mechanism 50 can be improved. Further, since the flexible positioning plate portion 71 of the positioning mechanism 70 has an elastic force that urges the inner surface of the outer peripheral side wall of the second frame 41 after connecting the first frame 31 and the second frame 41, it snaps.
  • the elastic force of the flexible positioning plate portion 71 causes the X of the first frame 31 and the second frame 41 to be displaced. It is possible to suppress rattling (vibration) in the direction.
  • the main body frame 30 of the second embodiment includes a relative displacement suppressing mechanism 80 that suppresses the relative displacement between the first frame 31 and the second frame 41. Then, the relative displacement moving mechanism 80 can suppress and release the relative displacement between the connected first frame 31 and the second frame 41 without using a tool (without a tool). Therefore, according to the relative displacement suppressing mechanism 80 of the second embodiment, parts such as the electromagnetic coil 23 (electrical parts) in the main body frame 30 can be easily replaced. Further, the relative displacement suppressing mechanism 80 moves the fixing member 90 from the first fixing portion 81 side to the second fixing portion 85 side, so that the first piece insertion portion 82 and the second fixing portion of the first fixing portion 81 are moved. The insertion piece 92 is inserted into each of the second piece insertion portions 86 of the 85. Therefore, the relative displacement suppressing mechanism 80 of the second embodiment can suppress the relative displacement of the connected first frame 31 and the second frame 41 in each of the X direction and the Y direction.
  • a relative displacement suppressing mechanism 80 that suppresses the relative displacement between the first
  • the relative displacement suppressing mechanism 80 moves the fixing member 90 from the first fixing portion 81 side toward the second fixing portion 85 side, and the elastic force of the flexible arm 93 causes the flexible arm 93 to move to the second position. 1
  • the insertion piece 92 is placed in the first piece inserting portion 82 and the second of the first fixing portion 81. It is configured to hold the inserted state over each of the second piece insertion portions 86 of the fixed portion 85. Therefore, the relative displacement suppressing mechanism 80 of the first embodiment can suppress the relative displacement of the connected first frame 31 and the second frame 41 in the Z direction.
  • the first frame 31 and the second frame 41 are connected and fixed by a snap-fit mechanism 50.
  • the relative displacement suppression in the Z direction of the relative displacement suppression mechanism 80 is auxiliary, but in the main body frame (case for electric equipment) when there is no connecting mechanism such as the snap fit mechanism 50, this is achieved.
  • the relative displacement suppression in the Z direction by the relative displacement suppression mechanism 80 of the second embodiment is effective.
  • the relative displacement suppressing mechanism 80 of the second embodiment moves the fixing member 90 from the second fixing portion 85 side toward the first fixing portion 81 side, and is flexible by the elastic force of the flexible arm 93.
  • the insertion piece 92 inserts the second piece of the second fixing portion 85. It is configured to hold the state of being pulled out from the part 86. Therefore, the relative displacement suppressing mechanism 80 of the second embodiment can increase the retaining strength of the fixing member 90 attached to the first fixing portion 81.
  • the insertion piece 92 that suppresses the relative displacement and the flexible arm 93 that holds the fixing member 90 in the first fixing portion 81 and the second fixing portion 85 are provided. Since the fixing member 90 has a separate structure, the fixing member 90 can have a thick wall structure, and the strength of the fixing member 90 itself can be increased. Further, since the relative displacement suppressing mechanism 80 can suppress the relative displacement of the connected first frame 31 and the second frame 41, it is possible to provide a more reliable electromagnetic contactor 1A.
  • the snap-fit mechanism 50 in which the fitting hole portion 52 is provided in the first frame 31 and the fitting protrusion portion 55 is provided in the second frame 41 has been described.
  • the present invention is not limited to the snap-fit mechanism 50 of the first embodiment described above.
  • the present invention can be applied to a snap-fit mechanism in which a fitting protrusion 55 is provided on the first frame 31 and a fitting hole 52 is provided on the second frame 41.
  • the present invention is a hook portion provided with a fitted portion on the tip end side of the flexible protruding plate portion 51 protruding from the open end side of one of the first frame 31 and the second frame 41. It can be applied to an electromagnetic contactor provided on the other frame and having a snap fit having a fitting protrusion to be fitted and a fitting protrusion.
  • the case where two snap-fit mechanisms 50 are provided on each of the two side walls 31c and 31d located on opposite sides in the Y direction of the first frame 31 has been described.
  • the number of snap-fit mechanisms 50 provided is not limited to the above-described embodiment.
  • one snap-fit mechanism 50 may be provided for each of the two side walls 31c and 31d, or three or more snap-fit mechanisms 50 may be provided.
  • the fitting hole portion 52 is used as the fitted portion of the snap-fit mechanism 50 has been described, but the present invention is not limited to the fitting hole portion 52.
  • a fitting recess may be used as the fitting portion.
  • the relative displacement suppressing mechanism 80 is used on the side wall of each of the two side walls 31a and 31b, 41a and 41b located in the X direction of the first frame 31 and the second frame 41.
  • the case where it is provided over 31a and 41a has been described.
  • the position where the relative displacement suppressing mechanism 80 is provided is not limited to the second embodiment described above.
  • the relative displacement suppressing mechanism 80 may be provided over the side walls 31c and 41c of one of the two side walls located in the Y direction of the first frame 31 and the second frame 41.
  • the relative displacements (positional deviations) of the connected first frame 31 and second frame 41 in the X direction, the Y direction, and the Z direction can be suppressed.
  • the insertion piece 92 is inserted into the first piece insertion portion 82, and the elastic force of the flexible arm 93 causes the second locking projection portion 93b to be second. 2
  • the case where the fixing member 90 holds the second state fixed to the first fixing portion 81 by hooking the locked portion 84 to the locked state has been described.
  • the present invention is not limited to the second state of the second embodiment, and can be applied to the case where the fixing member 90 holds the second state fixed to the first fixing portion 81. ..
  • the magnetic contactor 1B according to the third embodiment of the present invention has basically the same configuration as the magnetic contactor 1A according to the second embodiment described above, and the configuration of the relative displacement suppressing mechanism is different. That is, as shown in FIG. 26, the magnetic contactor 1B according to the third embodiment includes a relative displacement suppressing mechanism 60 instead of the relative displacement suppressing mechanism 80 of the magnetic contactor 1A shown in FIG. Other configurations are the same as those in the second embodiment described above.
  • the main body frame 30 includes a relative displacement suppressing mechanism 60 that suppresses the relative displacement of the connected first frame 31 and the second frame 41.
  • the relative displacement suppressing mechanism 60 of the third embodiment has the relative displacements of the X direction and the Y direction in the two-dimensional plane orthogonal to the connecting direction (Z direction) of the first frame 31 and the second frame 41, respectively. Relative displacement (lateral displacement) in the direction can be suppressed. In addition, relative displacement (longitudinal displacement) in the Z direction can also be suppressed. As shown in FIGS.
  • the relative displacement suppressing mechanism 60 includes a first fixing portion 61 provided on the first frame 31, a second fixing portion 62 provided on the second frame 41, and the first fixed portion 62 thereof. It has a fixing member 63 that can be detachably attached and fixed to the fixing portion 61 and the second fixing portion 62. Then, as shown in FIGS. 27A and 27B, the relative displacement suppressing mechanism 60 has a first state in which the fixing member 63 is fixed to both the first fixing portion 61 and the second fixing portion 62, and the fixing member 63 is the first. As a second state fixed to either the 1 fixing portion 61 or the second fixing portion 62, for example, as shown in FIGS. 28A and 28B, the fixing member 63 is fixed to the second fixing member 62. And have.
  • the first fixing portion 61 and the second fixing portion 62 have guide rails 61a and 62a extending in the Z direction, and the respective guide rails 61a and 62a are linearly formed by connecting the first frame 31 and the second frame 41. Placed in.
  • the fixing member 63 has a sliding piece 63a that slides the guide rails 61a and 62a of the first fixing portion 61 and the second fixing portion 62, respectively. The fixing member 63 moves over the first fixing portion 61 and the second fixing portion 62 by the sliding piece 63a sliding on the guide rails 61a and 62a.
  • the fixing member 63 is slidably held by the second fixing portion 62 by inserting the sliding piece 63a into the guide rail 62a from either end of the first fixing portion 61 or the second fixing portion 62.
  • the fixing member 63 is attached to the guide rail 62a of the second fixing portion 62 from the end of the second fixing portion 62 opposite to the first fixing portion 61 side.
  • the fixing member 63 is held in the second fixing portion 62 by inserting the sliding piece 63a of the above. From this state, the fixing member 63 is further moved upward and the sliding piece 63a of the fixing member 63 is inserted into the guide rail 61a of the first fixing portion 61. It is held by the first fixing portion 61 and the second fixing portion 62.
  • the sliding piece 63a has a locking projection 63a 1 that locks to the ends 61a 1 , 62a 1 of the guide rails 61a, 62a. Then, as shown in FIG. 27B, the relative displacement suppressing mechanism 60 is fixed by locking the locking projection 63a 1 of the sliding piece 63a to the end 61a 1 of the guide rail 61a of the first fixing portion 61.
  • the member 63 holds the first state fixed to both the first fixing portion 61 and the second fixing portion 62, and as shown in FIG. 28B, the locking projection 63a 1 of the sliding piece 63 is the second fixing portion.
  • the fixing member 63 By locking to the end portion 62a 1 of the guide rail 62a of 62, the fixing member 63 holds the second state fixed to the second fixing portion 62.
  • the sliding piece 63a of the fixing member 63 is attached to the guide rail 61a of the first fixing portion 61 from the end portion of the first fixing portion 61 opposite to the second fixing portion 62 side.
  • the locking protrusion 63a 1 of the sliding piece 63a is locked by locking to the end of the guide rail 61a of the first fixing portion 61.
  • the member 63 holds the second state fixed to the first fixing portion 61.
  • the relative displacement suppressing mechanism 60 is in a state of holding the fixing member 63 in the first fixing portion 61 and the second fixing portion 62 (first state), so that the first frame 31 And the relative displacement of the second frame 41 in the X direction can be suppressed. Then, as shown in FIGS. 28A and 28B, the relative displacement suppressing mechanism 60 is in a state of holding the fixing member 63 only in the second fixing portion 62 (second state), so that the first frame 31 and the second frame 31 and the second are held. The suppression of the relative displacement of the frame 41 in the X direction can be released.
  • the relative displacement suppressing mechanism 60 can suppress and release the relative displacement between the connected first frame 31 and the second frame 41 without using a tool (without a tool). Therefore, also in the relative displacement suppressing mechanism 60 of the third embodiment, parts such as the electromagnetic coil 23 (electrical parts) in the main body frame 30 can be easily replaced as in the first embodiment described above.
  • the relative displacement suppressing mechanism 60 is fixed to each of the first fixing portion 61 and the second fixing portion 62 by moving the fixing member 63 from the second fixing portion 63 side to the first fixing portion 61 side. It is configured. Therefore, also in the relative displacement suppressing mechanism 60 of the third embodiment, the relative displacement of the connected first frame 31 and the second frame 41 in each of the X direction, the Y direction, and the Z direction is suppressed. Can be done. Further, since the relative displacement suppressing mechanism 60 can suppress the relative displacement of the connected first frame 31 and the second frame 41, it is possible to provide a more reliable electromagnetic contactor 1B.
  • Electromagnetic contactor 10 ... Contact unit 11, 12 ... Fixed contactor 13 ... Movable contactor 14 ... Movable contact support 20 ... Electromagnet unit 21 ... Fixed iron core 22. .. Movable iron core 23 ... Electromagnetic coil 24 ... Winding 25 ... Bobbin 26 ... Return spring 30 ... Body frame 30a ... Storage section 31 ... First frame 31a, 31b, 31c, 31d ... Side wall 31e ... Bottom wall 41 ... Second frame 41a, 41b, 41c, 41d ... Side wall 43 ... Mounting plate 50 ... Snap fit mechanism 51 ... Possible Flexible protruding plate portion 51a ... First inclined surface 52 ... Fitting hole portion 53 ... Hook portion 55 ...
  • 2nd arm insertion part 88 ... 1st locked part 90 ...
  • Fixed member (fixing piece) 91 ... Member body 91a ... Upper wall (top plate) 91b ... Back wall part 91c ... Side wall part 92 ... Insert piece 93 ... Flexible arm 93a ... First locking protrusion 93b ... Second locking protrusion 95 .. .Positioning protrusion 96 ... Stopper 97 ... Guide recess

Landscapes

  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Switch Cases, Indication, And Locking (AREA)
  • Casings For Electric Apparatus (AREA)
PCT/JP2020/043386 2019-12-02 2020-11-20 電気機器 Ceased WO2021111901A1 (ja)

Priority Applications (7)

Application Number Priority Date Filing Date Title
EP20895746.4A EP3965134B1 (en) 2019-12-02 2020-11-20 Electric device
EP23177866.3A EP4235726A3 (en) 2019-12-02 2020-11-20 Electric device
JP2021562567A JP7205647B2 (ja) 2019-12-02 2020-11-20 電気機器
CN202311466384.1A CN117292979A (zh) 2019-12-02 2020-11-20 电气装置
CN202080039746.7A CN113939889B (zh) 2019-12-02 2020-11-20 电气装置
US17/533,872 US11862424B2 (en) 2019-12-02 2021-11-23 Electric device with a main body frame including a snap-fit mechanism
JP2022178311A JP7609153B2 (ja) 2019-12-02 2022-11-07 電気機器

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2019-218188 2019-12-02
JP2019218188 2019-12-02

Related Child Applications (1)

Application Number Title Priority Date Filing Date
US17/533,872 Continuation US11862424B2 (en) 2019-12-02 2021-11-23 Electric device with a main body frame including a snap-fit mechanism

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WO2021111901A1 true WO2021111901A1 (ja) 2021-06-10

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PCT/JP2020/043386 Ceased WO2021111901A1 (ja) 2019-12-02 2020-11-20 電気機器

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EP (2) EP4235726A3 (https=)
JP (2) JP7205647B2 (https=)
CN (2) CN113939889B (https=)
WO (1) WO2021111901A1 (https=)

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JP7524921B2 (ja) 2022-03-24 2024-07-30 富士電機機器制御株式会社 電気機器

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JP7609153B2 (ja) 2025-01-07
CN113939889B (zh) 2024-06-21
JP7205647B2 (ja) 2023-01-17
CN113939889A (zh) 2022-01-14
EP3965134A1 (en) 2022-03-09
EP3965134A4 (en) 2022-12-21
US20220084766A1 (en) 2022-03-17
JP2023009148A (ja) 2023-01-19
CN117292979A (zh) 2023-12-26
EP3965134B1 (en) 2024-01-31
EP4235726A2 (en) 2023-08-30
US11862424B2 (en) 2024-01-02
JPWO2021111901A1 (https=) 2021-06-10
EP4235726A3 (en) 2023-10-04

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