WO2013118324A1 - Dispositif de décalage de ligne électrique - Google Patents

Dispositif de décalage de ligne électrique Download PDF

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Publication number
WO2013118324A1
WO2013118324A1 PCT/JP2012/069093 JP2012069093W WO2013118324A1 WO 2013118324 A1 WO2013118324 A1 WO 2013118324A1 JP 2012069093 W JP2012069093 W JP 2012069093W WO 2013118324 A1 WO2013118324 A1 WO 2013118324A1
Authority
WO
WIPO (PCT)
Prior art keywords
electric wire
pair
gripping
drive mechanism
unit
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/JP2012/069093
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English (en)
Japanese (ja)
Inventor
純一 白川
幸一郎 後藤
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.)
Sumitomo Wiring Systems Ltd
Original Assignee
Sumitomo Wiring Systems 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 Sumitomo Wiring Systems Ltd filed Critical Sumitomo Wiring Systems Ltd
Priority to CN201280069132.9A priority Critical patent/CN104094366B/zh
Priority to EP12868300.0A priority patent/EP2814042B1/fr
Priority to KR1020147021134A priority patent/KR101647573B1/ko
Publication of WO2013118324A1 publication Critical patent/WO2013118324A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B13/00Apparatus or processes specially adapted for manufacturing conductors or cables
    • H01B13/012Apparatus or processes specially adapted for manufacturing conductors or cables for manufacturing wire harnesses
    • H01B13/01263Tying, wrapping, binding, lacing, strapping or sheathing harnesses
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B13/00Apparatus or processes specially adapted for manufacturing conductors or cables
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B13/00Apparatus or processes specially adapted for manufacturing conductors or cables
    • H01B13/0003Apparatus or processes specially adapted for manufacturing conductors or cables for feeding conductors or cables
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B13/00Apparatus or processes specially adapted for manufacturing conductors or cables
    • H01B13/0016Apparatus or processes specially adapted for manufacturing conductors or cables for heat treatment
    • H01B13/002Apparatus or processes specially adapted for manufacturing conductors or cables for heat treatment for heat extraction
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B13/00Apparatus or processes specially adapted for manufacturing conductors or cables
    • H01B13/012Apparatus or processes specially adapted for manufacturing conductors or cables for manufacturing wire harnesses
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B13/00Apparatus or processes specially adapted for manufacturing conductors or cables
    • H01B13/016Apparatus or processes specially adapted for manufacturing conductors or cables for manufacturing co-axial cables
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R43/00Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
    • H01R43/04Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for forming connections by deformation, e.g. crimping tool
    • H01R43/048Crimping apparatus or processes
    • H01R43/052Crimping apparatus or processes with wire-feeding mechanism
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R43/00Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
    • H01R43/28Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for wire processing before connecting to contact members, not provided for in groups H01R43/02 - H01R43/26
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R43/00Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
    • H01R43/04Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for forming connections by deformation, e.g. crimping tool
    • H01R43/048Crimping apparatus or processes

Definitions

  • This invention relates to the technique of conveying an electric wire in the manufacturing process of a wire harness.
  • the wire harness is manufactured through, for example, a cutting / crimping process, a temporary binding process, and an assembly process.
  • the cutting and crimping step is a step of manufacturing the electric wire with a terminal by cutting the electric wire into a predetermined length and crimping the terminal to the end of the end.
  • the temporary binding step is a step of manufacturing temporary binding by binding a plurality of electric wires with terminals or inserting terminals of the plurality of electric wires with terminals into a connector.
  • an assembly process is a process of assembling a wire harness by assembling a plurality of electric wires with terminals and a plurality of temporary bundles into a predetermined wiring form.
  • the terminal-equipped wire transfer mechanism is equipped with a terminal from the terminal crimping device that crimps the terminal to the end of the wire that has been cut and cut, toward the wire holding bar on the wire holding bar transport device side that transports multiple wire holding bars. It is an apparatus for transferring electric wires. More specifically, the terminal-attached electric wire transfer mechanism unit includes a pair of transfer gripping units capable of gripping and releasing the end of the terminal-attached electric wire, and a transfer for moving and driving the pair of transfer gripping units. And a gripping part movement drive unit.
  • the transfer gripper movement drive unit has a pair of transfer grips provided on two base plates, and each base plate is supported by a horizontal guide so as to be horizontally movable between the wire holding bar and the wire receiving position.
  • the pair of transfer gripping portions are configured to be moved along the horizontal guide by different transfer drive portions.
  • an object of the present invention is to further improve the transfer efficiency of the electric wire with terminal.
  • the terminal-attached electric wires manufactured in the cutting and crimping apparatus and arranged at the receiving position are arranged at the set position, and a plurality of electric wire holding parts capable of holding the end portions of the electric wires with terminals are provided in a row.
  • An electric wire transfer device for transferring to an electric wire holding bar comprising a first transfer mechanism portion and a second transfer mechanism portion, wherein the first transfer mechanism portion includes both wire end portions of the electric wire with terminal.
  • Each of the pair of first gripping mechanism portions capable of gripping and releasing gripping, and the pair of first gripping mechanism portions, respectively, capable of receiving the terminal-attached electric wire disposed at the receiving position, or the terminal-attached electric wire A pair of firsts moved between an advance position that can be set to any one of the plurality of electric wire holding portions of the electric wire holding bar arranged at a set position and a first retracted position that is retracted from the advanced position.
  • Advance / retreat drive mechanism and the pair of first advance / retreat drive units Each having a pair of first reciprocating drive mechanism portions that move between the receiving position side region and the set position side region, and the second transfer mechanism portion includes a terminal-attached electric wire.
  • a pair of second gripping mechanism portions that can grip and release gripping ends of both wires, and the pair of second gripping mechanism portions, respectively, are the advance position and the first retracted position retracted from the advance position.
  • a pair of second reciprocating drive mechanisms that move between the receiving position side area and the set position side area in a moving area parallel to the moving area of the first reciprocating drive mechanism section, The second reciprocating drive mechanism portion is the first gripping mechanism portion. With at least one of which is moved to the first retracted position or the second retracted position of the fine the second gripping mechanism unit, thereby Surechigawa and the first advancing drive mechanism the second reciprocating drive mechanism.
  • a 2nd aspect is an electric wire transfer apparatus which concerns on a 1st aspect, Comprising: A said 1st reciprocating drive mechanism part extends the said 1st advance / retreat drive mechanism part above the said receiving position and the said setting position.
  • the second reciprocating drive mechanism is configured to move in the first movement region, and the second reciprocating drive mechanism moves in the second movement region extending in parallel to the side of the first movement region.
  • the second advancing / retreating drive mechanism unit causes the second gripping mechanism unit to move the second gripping mechanism unit diagonally above the advancing position in the second moving region from the advancing position in the first moving region. 2. Move to a retracted position on a route including a straight route that goes diagonally upward.
  • a 3rd aspect is an electric wire transfer apparatus which concerns on a 2nd aspect, Comprising:
  • the said 2nd advance / retreat drive mechanism part is a delivery raising / lowering drive part which moves the said 2nd holding
  • an indirect elevating drive unit that moves up and down obliquely between a lowered position in the first moving region and an elevated position obliquely above the lowered position in the second moving region.
  • a 4th aspect is an electric wire transfer device concerning the 3rd aspect, and the 2nd above-mentioned grasping mechanism part is in the state where the delivery raising / lowering drive part was moved to the lowered position by the indirect raising / lowering drive part, It is set so that it can pass under the first gripping mechanism portion moved to the first retracted position.
  • a fifth aspect is an electric wire transfer apparatus according to any one of the first to fourth aspects, wherein the first reciprocating drive mechanism unit and the second reciprocating drive mechanism unit are the first advance / retreat drive mechanism unit. And the second advancing / retreating drive mechanism are alternately moved between the receiving position side area and the set position side area.
  • the first reciprocating drive mechanism unit and the second reciprocating drive mechanism unit are configured such that at least one of the first gripping mechanism unit and the second gripping mechanism unit is in the first retracted position or the second reciprocating drive unit.
  • the first advance / retreat drive mechanism and the second advance / retreat drive mechanism are passed. For this reason, while one of the first gripping mechanism portion and the second gripping mechanism portion is receiving the terminal-attached wire on the receiving position side, the other is on the wire holding portion of the wire holding bar on the set position side. Can be set. Thereby, the transfer speed of the electric wire with a terminal can be improved more.
  • the second advance / retreat drive mechanism portion moves the second gripping mechanism portion from the advance position in the first movement region where the first advance / retreat drive mechanism portion is moved to the second advance / retreat position.
  • the second gripping mechanism part in the second movement region in which the drive mechanism part is moved to a second retraction position that is obliquely above the advance position, including a linear path that is obliquely upward Can be shortened.
  • the second advancing / retreating drive mechanism unit moves the second gripping mechanism unit up and down, and the delivery elevating drive unit with the lowered position in the first movement region.
  • an indirect lifting drive unit that moves up and down diagonally between the second moving region and a rising position that is diagonally above the lowering position.
  • the second gripping mechanism portion is moved to the first retraction position while the delivery lifting drive portion is moved to the lowered position by the indirect lifting drive portion. It is set so that it can pass under the mechanism. For this reason, if the second gripping mechanism portion is moved upward by the delivery lifting / lowering drive unit, the first gripping mechanism unit and the second gripping mechanism unit are moved to the region on the receiving position side even if the delivery lifting / lowering drive unit remains in the lowered position. And the area on the set position side. Thereby, the drive number of an indirect raising / lowering drive part can be reduced, and it contributes to the reduction of drive cost and the prolongation of lifetime.
  • the first reciprocating drive mechanism unit and the second reciprocating drive mechanism unit include the first advance / retreat drive mechanism unit and the second advance / retreat drive mechanism unit, and the region on the receiving position side. Since the movement is alternately performed in the region on the set position side, the receiving operation and the setting operation of the terminal-attached electric wire can be advanced simultaneously to further improve the transfer efficiency.
  • the wire transfer device 10 is a device for transferring the manufactured terminal-attached wire 2 to the wire holding bar 80 in the wire harness manufacturing process.
  • the wire harness is manufactured through a cutting and pressing process, a temporary binding process, and an assembly process.
  • the cutting / crimping step is a step of manufacturing the electric wire 2 with a terminal by adjusting and cutting the electric wire to a predetermined length, and peeling the coating of the end of the electric wire and crimping the terminal to the exposed portion of the core wire. .
  • this process can be performed with the cutting and crimping apparatus 70 which has the adjustment mechanism part 72, the cutting mechanism part 74, the terminal crimping mechanism part 76 grade
  • the temporary binding step is a step of manufacturing a small unit binding form constituting a part of the wire harness. That is, the wire harness may be formed by combining a plurality of temporary bundles (and a single terminal-attached electric wire 2).
  • This process manufactures temporary binding by inserting the terminal of the electric wire 2 with a terminal into a connector, bundling an electric wire, etc.
  • an intermediate process such as a special terminal crimping process, a splice connection process, or a twist process may be performed on the electric wire as necessary.
  • the assembly process is a process of manufacturing a wire harness in a completed form by assembling a temporary bundle and various electric wires 2 with terminals 2 into a wiring form.
  • the wire harness manufactured in this way is incorporated into a vehicle or other electrical equipment through an inspection process or the like.
  • the terminal-attached electric wire 2 manufactured by the cutting / crimping device 70 in the cutting / crimping step is held by the wire holding bar 80 in a temporary binding unit when being used in the temporary binding step.
  • the electric wire with terminal is circulated and conveyed by the electric wire holding bar conveying device 90 that conveys the plurality of electric wire holding bars 80 while being held by the electric wire holding bar 80.
  • the electric wire transfer device 10 is used to transfer the terminal-attached electric wire 2 manufactured by the cutting and crimping device 70 to the electric wire holding bar 80 that is circulated and conveyed by the electric wire holding bar conveying device 90.
  • the electric wire transfer device 10 is provided between the cutting and crimping device 70 and the electric wire holding bar transport device 90.
  • the cutting and crimping apparatus 70 includes an adjustment mechanism 72, a cutting mechanism 74, a terminal crimping mechanism 76, and an electric wire transport mechanism 78 (see FIG. 1).
  • the adjusting mechanism 72 is a part that adjusts the electric wire continuously supplied from the electric wire storage body such as a take-up reel and feeds it downstream by a set dimension.
  • the adjusting mechanism 72 may be provided with a wrinkle removing mechanism for removing wrinkles of the electric wire.
  • the cutting mechanism part 74 is provided on the downstream side of the measuring mechanism part 72, cuts the electric wire fed by the adjusting mechanism part 72 by a set dimension to the set dimension, and covers the end of the cut electric wire. It is a part which peels.
  • the terminal crimping mechanism 76 is a part that is provided on the downstream side of the cutting mechanism 74 and crimps the terminal to the exposed portion of the core wire of the electric wire that has been cut and stripped by the cutting mechanism 74.
  • a mechanism for attaching a rubber plug or the like to the electric wire may be provided on the upstream side of the terminal crimping mechanism portion 76.
  • the electric wire transport mechanism 78 grips both ends of the electric wire cut by the cutting mechanism 74 (the front side of each core wire exposed portion to which the terminal is crimped and both ends of the insulation coating) It is a part conveyed downstream.
  • the electric wire transfer mechanism 78 passes through the processing position of the terminal crimping mechanism 76 from the downstream position of the cutting mechanism 74, and the electric wire transfer device 10 located on the downstream side of the terminal crimping mechanism 76 is connected to the terminal-attached electric wire. It is comprised so that conveyance of the electric wire 2 (terminal wire) with a terminal to the receiving position P1 which receives 2 is possible.
  • the electric wire conveyance mechanism unit 78 treats a plurality of electric wire conveyance grips 79 (see FIG. 12) that can grasp and release the electric wires, the downstream position of the cutting mechanism unit 74, and the processing of the terminal crimping mechanism unit 76. It is configured so as to circulate in a route passing through the position and the receiving position P1 (see FIG. 3).
  • the electric wire conveyance gripping portion 79 can employ a configuration in which a pair of gripping pieces are supported so as to be capable of opening and closing.
  • the electric wire conveyance mechanism part 78 hold
  • the operation control of the cutting and crimping apparatus 70 is performed by a cutting and crimping control unit 62 configured by a general microcomputer including a CPU, a ROM, a RAM, and the like (see FIG. 1).
  • a cutting and crimping control unit 62 when a pair of wire conveyance gripping portions 79 in which both ends of the wire 2 with terminals are gripped at the receiving position P1, the terminal-attached wires 2 exist at the receiving position P1. A signal to that effect is output.
  • the electric wire holding bar 80 is a member in which a plurality of electric wire holding portions 82 that can hold the electric wire end portion of the electric wire 2 with terminals are arranged in a line (see FIGS. 4 and 5).
  • the electric wire holding bar 80 is a member configured to be able to hold the plurality of terminal-attached electric wires 2 respectively held by the plurality of electric wire holding portions 82 in a form in which the ends of the electric wires are arranged in parallel.
  • the electric wire holding bar 80 is formed long in the direction in which the plurality of electric wire holding portions 82 are arranged, and includes a bar main body portion 85 that supports the plurality of electric wire holding portions 82.
  • the electric wire holding part 82 is a part that holds the electric wire end of the electric wire 2 with a terminal, and has a pair of elastic holding pieces 83 and an elastic holding piece fixing part 84.
  • the elastic clamping piece 83 is a member formed by punching and bending a plate-shaped metal material or molding a synthetic resin material with a mold or the like, and includes a flat portion on the proximal end side and a curved portion on the distal end side. have. More specifically, the flat portion is formed in a flat plate shape, and the curved portion is formed in a shape that curves in a gentle S shape continuously from the flat portion.
  • the elastic clamping piece fixing portion 84 is a portion that supports the pair of elastic clamping pieces 83, and is formed in a substantially rectangular parallelepiped shape as a whole with synthetic resin or the like.
  • the elastic clamping piece fixing portion 84 is configured to be supported in a state where the flat portions are overlapped (back to back) in a posture in which the distal ends of the pair of elastic clamping pieces 83 are separated from each other. More specifically, the elastic clamping piece fixing portion 84 has an opening at one end surface, and has a recess into which the pair of elastic clamping pieces 83 can be inserted through the opening.
  • the elastic clamping piece fixing portion 84 Inside the elastic clamping piece fixing portion 84, a wall portion is formed that is supported in a sandwiched manner in a state where the flat portions of the pair of elastic clamping pieces 83 are superimposed on the back side. And the elastic clamping piece fixing
  • the wire end portion of the terminal-attached electric wire 2 between the pair of elastic clamping pieces 83 is adjacent to the curved portion of the pair of elastic clamping pieces 83 and the opening of the elastic clamping piece fixing portion 84. It is held between the side end faces.
  • maintenance part 82 is an example, You may employ
  • the electric wire holding portion may have a comb-like member, and a configuration in which the electric wire end portion of the electric wire with terminal 2 is pushed and hooked between the comb teeth can be adopted.
  • the bar body 85 has a body base 86 and a pair of end members 88.
  • the main body base 86 is formed in a rod shape (here, a prismatic rod shape), and the plurality of electric wire holding portions 82 are supported in parallel on one side surface along the longitudinal direction. More specifically, the main body base portion 86 supports the plurality of wire holding portions 82 in a form in which the plurality of wire holding portions 82 are arranged in a direction in which the pair of elastic clamping pieces 83 are opposed to each other. For example, the plurality of wire holding portions 82 may be supported by being concavo-convexly fitted to the main body base 86. In addition, a configuration in which the electric wire holding portion 82 is individually fixed to the main body base 86 by screwing or the like may be employed.
  • the pair of end members 88 are fixed to both ends in the longitudinal direction of the main body base 86 by screwing or the like, and are secured to the plurality of electric wire holding portions 82 supported by the main body base 86 so as to be sandwiched from both sides in the parallel direction. Part.
  • the wire holding bar transfer device 90 is installed on the downstream side of the cutting and crimping device 70 that manufactures the terminal-attached electric wire 2, and is configured to be able to transfer a plurality of wire holding bars 80 along the circulation path (FIGS. 1 to 5). 3).
  • the electric wire holding bar transport device 90 includes a plurality of bar support portions 92 and a circulation drive mechanism portion 94. More specifically, the wire holding bar transport device 90 circulates and moves a plurality of bar support portions 92 that respectively support the plurality of wire holding bars 80 along the circulation path by the circulation drive mechanism portion 94.
  • the bar support portion 92 is a portion that supports each of the plurality of electric wire holding bars 80, and is provided so as to be able to circulate along an annular circulation path.
  • the circulation path is a path including a curved path protruding outward and a straight path, and here includes a pair of semicircular arc-shaped curved paths and a pair of straight paths connecting the pair of curved paths. .
  • the circulation path is set to a path passing through the set position P ⁇ b> 2 where the terminal-attached electric wire 2 is transferred to the electric wire holding bar 80 by the electric wire transfer device 10.
  • the bar support portion 92 is formed in a long groove shape that opens upward. That is, the bar support portion 92 is configured to support the electric wire holding portion 82 (the elastic pinching piece 83) in a posture in which the electric wire holding bar 80 is disposed on the inner side, with the electric wire holding portion 82 facing upward. But the bar support part 92 should just be able to support the electric wire holding bar 80 with the attitude
  • the circulation drive mechanism unit 94 is a part that circulates and moves the plurality of bar support units 92 along the circulation path.
  • a configuration having a pair of gears 95, a circulation chain 96, and a drive portion 97 can be employed.
  • the pair of gears 95 are spur gears that can rotate around parallel rotation axes, and are supported with respect to the base portion 98 at positions spaced apart on substantially the same plane.
  • One of the pair of gears 95 is rotationally driven by a drive unit 97 such as a motor.
  • the annular circulation chain 96 is wound around a pair of gears 95 and extends on the circulation path (here, the circulation path is on a plane substantially parallel to the horizontal plane).
  • the pair of gears 95 are rotated and the circulation chain 96 is circulated and rotated along the circulation path by the rotational drive of the drive unit 97.
  • the circulation drive mechanism portion 94 is not limited to a configuration having a combination of a pair of gears 95 and a circulation chain 96, but a configuration having a combination of a pair of pulleys and a drive belt. Any configuration can be used as long as it can be circularly moved along.
  • the plurality of bar support portions 92 are supported with respect to the circulation chain 96. More specifically, the plurality of bar support portions 92 are provided so as to be supported in a posture in which the plurality of electric wire holding bars 80 are extended toward the outside of the circulation path. Further, the plurality of bar support portions 92 are provided at substantially equal intervals in the extending direction of the circulation chain 96. For example, the plurality of bar support portions 92 are supported by the circulation chain 96 via a traveling portion capable of traveling on the base portion 98, and move on the circulation path by the movement of the traveling portion accompanying the rotational movement of the circulation chain 96. It is good to be provided.
  • the electric wire transfer device 10 has the electric wire holding device in which the electric wire with terminal 2 arranged at the receiving position P1 on the downstream side of the terminal crimping mechanism portion 76 in the cutting and crimping device 70 is moved to the set position P2 by the electric wire holding bar conveying device 90. It is comprised so that it may transfer to the bar 80 (refer FIG. 2, FIG. 3).
  • the electric wire transfer device 10 includes a first transfer mechanism unit 20 and a second transfer mechanism unit 40. Schematically, the electric wire transfer device 10 alternately conveys the electric wire 2 with a terminal from the receiving position P1 to the set position P2 by the first transfer mechanism unit 20 and the second transfer mechanism unit 40, and is cut and crimped.
  • the terminal-attached electric wire 2 is transferred from the device 70 to the electric wire holding bar 80.
  • the first transfer mechanism portion 20 and the second transfer mechanism portion 40 are supported by the base portion 16 disposed so as to extend along the direction connecting the receiving position P1 and the set position P2 by the pillar portion. ing.
  • the first transfer mechanism unit 20 includes a pair of first gripping mechanism units 22, a pair of first advance / retreat drive mechanism units 26, and a pair of first reciprocating drive mechanism units 32.
  • the pair of first gripping mechanism portions 22 that respectively grip the wire ends are configured to be moved by the pair of first advance / retreat drive mechanism portions 26 and the pair of first reciprocating drive mechanism portions 32 (FIG. 6 to FIG. 6). (See FIG. 9).
  • the first advance / retreat drive mechanism section 26 is a drive mechanism section that moves the first gripping mechanism section 22 on a plane orthogonal to the direction connecting the receiving position P1 and the set position P2.
  • the first reciprocating drive mechanism 32 is a drive mechanism that moves the first advance / retreat drive mechanism 26 (first gripping mechanism 22) along the direction connecting the receiving position P1 and the set position P2. More specifically, the first reciprocating drive mechanism 32 is configured to move the first advance / retreat drive mechanism 26 in a first movement region R1 extending above the receiving position P1 and the set position P2. (See FIGS. 6 and 7).
  • the pair of first gripping mechanism portions 22 is configured to be able to grip and release both ends of the electric wire 2 with terminal (see FIG. 9). More specifically, the 1st holding
  • the pair of gripping pieces 23 are formed in a substantially U shape. The pair of gripping pieces 23 grips the terminal-attached electric wire 2 in a form that crosses the substantially U-shaped inner side in the direction connecting the opposing portions, and the electric wire holding portion 82 and the electric wire transport mechanism portion 78 of the electric wire holding bar 80.
  • the pair of gripping pieces 23 grips two locations of the wire end portions of the terminal-attached electric wire 2 extending on both sides of the wire holding portion 82 and the wire conveyance gripping portion 79.
  • the distance between the substantially U-shaped facing portions is set to be larger than the extending direction of the wire end portions of the wire 2 with terminals of the wire holding portion 82 and the wire conveyance gripping portion 79. Yes.
  • the first gripping mechanism portion 22 is configured to move the pair of gripping pieces 23 toward and away from each other by an opening / closing drive portion 24 such as an air cylinder or an electromagnetic actuator.
  • an opening / closing drive portion 24 such as an air cylinder or an electromagnetic actuator.
  • the opening / closing drive unit 24 moves one grip piece 23 relative to and away from the other grip piece 23 (here, along the horizontal direction).
  • the pair of first advancing / retracting drive mechanism portions 26 are configured to move the pair of first gripping mechanism portions 22 into the advanced position A (see the first gripping mechanism portion 22 indicated by a two-dot chain line in FIG. 7) and the first retracted position C1, respectively. (Refer to FIG. 6).
  • the advancing position A is capable of receiving the terminal-attached electric wire 2 arranged at the receiving position P1, or sets the terminal-attached electric wire 2 to any one of the plurality of electric wire holding portions 82 of the electric wire holding bar 80 arranged at the set position P2. This is a possible position.
  • the first retreat position C1 is a position retreated from the advance position A, more specifically, a position above the advance position A. And in the 1st retraction position C1, a pair of holding piece 23 of the 1st holding
  • FIG. 1st retraction position C1 a pair of holding piece 23 of the 1st holding
  • the first advance / retreat drive mechanism unit 26 includes an indirect elevating drive unit 27 and a delivery elevating drive unit 28.
  • the indirect elevating drive unit 27 and the delivery elevating drive unit 28 are configured by linear actuators such as air cylinders.
  • the first advancing / retracting drive mechanism unit 26 moves the first gripping mechanism unit 22 directly up and down by the delivery lifting drive unit 28 and moves the delivery lifting drive unit 28 up and down by the indirect lifting drive unit 27.
  • the first gripping mechanism 22 is indirectly moved up and down.
  • the indirect elevating drive unit 27 and the delivery elevating drive unit 28 are arranged so as to be linearly driven along the vertical direction. That is, the 1st holding
  • the delivery raising / lowering drive unit 28 is moved by the indirect raising / lowering drive unit 27 to move the first gripping mechanism unit 22 between the advance position A and the advance position A and the first retract position C1. It is configured to be movable between the position B (see the first gripping mechanism portion 22 indicated by the solid line in FIG. 6).
  • the position where the delivery raising / lowering drive unit 28 moved up by the indirect lifting drive unit 27 moves the first gripping mechanism unit 22 up is the first retraction position C1.
  • the pair of first reciprocating drive mechanism portions 32 are configured to move the pair of first advance / retreat drive mechanism portions 26 between an area on the receiving position P1 side and an area on the set position P2 side, respectively.
  • the region on the receiving position P1 side and the region on the set position P2 side are a region on the receiving position P1 side and a region on the set position P2 side in the first moving region R1 (and a moving region R2 described later). That is, here, the first reciprocating drive mechanism 32 moves the first advancing / retreating drive mechanism 26 between the area above the receiving position P1 and the area above the set position P2.
  • each of the pair of first reciprocating drive mechanisms 32 includes a pair of first advance / retreat drive mechanisms 26, and the pair of first gripping mechanisms 22 at the receiving position P1. It moves to the position corresponding to a pair of electric wire conveyance holding part 79 which hold
  • each first gripping mechanism portion 22 is a main holding body of the electric wire transport gripping portion 79 arranged at the receiving position P1 or the electric wire holding bar 80 arranged at the set position P2. It is a position arranged just above the two electric wire holding portions 82.
  • the first reciprocating drive mechanism portion 32 includes a guide rail 33, a pair of moving base portions 34, and a pair of reciprocating drive portions 36. More specifically, the first reciprocating drive mechanism portion 32 includes a pair of moving base portions 34 that are supported so as to be movable in the longitudinal direction with respect to the guide rail 33 and that respectively support the pair of first advance / retreat drive mechanism portions 26. The pair of first reciprocating drive units 36 are moved along the guide rails 33 to move the pair of first advance / retreat drive mechanism units 26, respectively.
  • the guide rail 33 is formed in the shape of a long straight line, and is arranged in a form extending along a direction (here, the horizontal direction) connecting the receiving position P1 and the set position P2 (see FIG. 3).
  • the guide rail 33 is fixed to one side portion of the base portion 16.
  • the guide rail 33 is an electric wire farthest from the cutting and crimping device 70 in the electric wire holding bar 80 arranged at the set position P2 from the position above the electric wire conveyance gripping portion 79 on the upstream side arranged at the receiving position P1. It is provided so as to extend linearly over a region including a position above the holding portion 82.
  • the pair of moving bases 34 is supported in a form of concave and convex fitting so as to be movable toward and away from one guide rail 33 along the longitudinal direction (see FIGS. 6 and 9).
  • the pair of first advancing / retracting drive mechanism portions 26 may be fixed to the pair of moving base portions 34 by screws or the like. Accordingly, the pair of first advance / retreat drive mechanism portions 26 are supported so as to be movable along the guide rails 33.
  • the reciprocating drive unit 36 includes a pair of pulleys 37, a motor 38 that can rotationally drive one pulley 37 in both forward and reverse directions, and an annular drive belt 39 wound around the pair of pulleys 37 ( (See FIGS. 2 and 3).
  • the pair of pulleys 37 is supported so as to be rotatable around an axis parallel (here, along the horizontal direction) to one side of the base portion 16.
  • One of the pair of pulleys 37 (on the side of the electric wire holding bar conveyance device 90 in FIGS. 2 and 3) is arranged so as to be rotationally driven by a motor 38.
  • the motor 38 is also supported by the base 16.
  • the moving base 34 is fixed to a part of the driving belt 39 in the extending direction.
  • the moving base 34 is fixed to a lower portion of the drive belt 39 that extends along the direction connecting the receiving position P1 and the set position P2.
  • the reciprocating drive unit 36 is configured to reciprocate the moving base 34 fixed to the drive belt 39 between the receiving position P1 and the set position P2 by rotating the motor 38 in both forward and reverse directions. Yes.
  • the reciprocating drive unit 36 is disposed in parallel at a substantially same height position in order to move the pair of moving bases 34 along the guide rails 33 (see FIG. 2). That is, each pair of pulleys 37 and each drive belt 39 are set to operate on different parallel surfaces. More specifically, the pair of pulleys 37, the motor 38, and the drive belt 39 in the pair of reciprocating drive units 36 are provided with a receiving position P1 and a set position P2 in order to avoid interference between each pair of pulleys 37 and each motor 38. Are displaced in the direction connecting the two.
  • the pair of first advance / retreat drive mechanisms 26 are arranged in a line along a direction connecting the receiving position P1 and the set position P2, and a pair of moving bases 34 fixed to the pair of drive belts 39, respectively. (See FIG. 9). And a pair of 1st holding
  • the second transfer mechanism section 40 includes a second gripping section 42, a second advancing / retreating driving mechanism section 46, and a second delivery movement driving section 52 (see FIGS. 6 to 8 and FIG. 10). More specifically, the second transfer mechanism section 40 includes a pair of second gripping mechanism sections 42 that respectively grip both ends of the electric wire 2 with terminal, and a pair of second advance / retreat drive mechanism sections 46 and a pair.
  • the second reciprocating drive mechanism unit 52 is configured to move.
  • the second advance / retreat drive mechanism 46 is a drive mechanism that moves the second gripping mechanism 42 on a plane orthogonal to the direction connecting the receiving position P1 and the set position P2.
  • the second reciprocating drive mechanism 52 is a drive mechanism that moves the second advance / retreat drive mechanism 46 (second gripping mechanism 42) along the direction connecting the receiving position P1 and the set position P2. More specifically, the second reciprocating drive mechanism 52 is configured to move the second advance / retreat drive mechanism 46 in the second movement region R2 extending in parallel to the side of the first movement region R1. (See FIGS. 2 and 6).
  • the pair of second gripping mechanism portions 42 are configured to be capable of gripping and releasing the both ends of the electric wires 2 with terminals. More specifically, the 2nd holding
  • the pair of gripping pieces 43 are formed in a substantially U shape like the pair of gripping pieces 23.
  • the first gripping mechanism unit 42 is configured to move the pair of gripping pieces 43 toward and away from each other by the opening / closing drive unit 44.
  • the pair of second advancing / retreating drive mechanism units 46 moves the pair of second gripping mechanism units 42 from the advanced position A (see the second gripping mechanism part 42 indicated by a two-dot chain line in FIG. 6) and the advanced position A, respectively. It is configured to move between the retracted second retracted position C2 (see FIG. 7).
  • the advance position A is the same position as the advance position A of the first gripping mechanism 22.
  • the second retreat position C2 is a position obliquely above the advance position A, and is a position where the second gripping mechanism portion 42 does not straddle the electric wire holding portion 82 or the electric wire conveyance gripping portion 79.
  • the second retraction position C2 is a position different from the first retraction position C1 of the first gripping mechanism portion 22.
  • FIG. 8 shows a state in which the first gripping mechanism portion 22 and the second gripping mechanism portion 42 are disposed at the first retracted position C1 or the second retracted position C2, respectively.
  • the second advancing / retreating drive mechanism unit 46 moves the second gripping mechanism unit 42 obliquely upward from the advance position A on the first movement region R1 to the second retraction position C2 on the second movement region R2. It is configured to move along a route including a straight route. More specifically, the second advancing / retreating drive mechanism unit 46 includes an indirect elevating drive unit 47 and a delivery elevating drive unit 48. Then, the second advancing / retreating drive mechanism unit 46 moves the second gripping mechanism unit 42 directly up and down by the delivery lifting / lowering driving unit 48 and moves the delivery / lifting driving unit 48 up and down by the indirect lifting / lowering driving unit 47 to perform the second gripping. The mechanism part 42 is moved up and down indirectly.
  • the indirect elevating drive unit 47 elevates and lowers the delivery elevating drive unit 48 obliquely between a lowered position on the first movement region R1 and an elevated position obliquely above the lowered position on the second movement region R2. It is arranged to move.
  • the lowered position is a position directly above the wire conveyance gripping portion 79 disposed at the receiving position P1 and a position directly above the wire holding bar 80 disposed at the set position P2.
  • the delivery raising / lowering drive part 48 is arrange
  • the indirect lifting drive unit 47 and the delivery lifting drive unit 48 are constituted by linear actuators such as air cylinders.
  • the delivery raising / lowering drive unit 48 is moved downward from the raised position to the lowering position obliquely downward by the indirect raising / lowering driving unit 47, and moves the second gripping mechanism unit 42 to the advanced position A and the advanced position A. It is configured to be able to move between the preliminary retracted position B (see the second gripping mechanism portion 42 indicated by the solid line in FIG. 6).
  • the preliminary retraction position B of the second gripping mechanism unit 42 is the same position as the preliminary retraction position B of the first gripping mechanism unit 22 (although it may be a different position).
  • the position at which the delivery raising / lowering driving unit 48 in the state of being lifted and moved obliquely upward by the indirect raising / lowering driving unit 47 from the lowered position moves the second gripping mechanism unit 42 upward is the second retraction position C2.
  • the pair of second reciprocating drive mechanisms 52 moves the pair of second reciprocating drive mechanisms 46 between the receiving position P1 side area and the set position P2 side area in the second movement area R2. (See FIGS. 2 and 3). More specifically, each of the pair of second reciprocating drive mechanisms 52 includes a pair of second advance / retreat drive mechanisms 46, and the pair of second gripping mechanisms 42 at the receiving position P1 serves as both wires of the terminal-equipped electric wire 2. It moves to the position corresponding to a pair of electric wire conveyance holding part 79 which hold
  • the pair of second reciprocating drive mechanism portions 52 are set targets of the terminal-attached electric wires 2 gripped by the pair of second advance / retreat drive mechanism portions 46 of the electric wire holding bars 80 arranged at the set position P2. The position is moved to a position corresponding to the two electric wire holding portions 82.
  • the second reciprocating drive mechanism portion 52 includes a guide rail 53, a pair of moving base portions 54, and a pair of reciprocating drive portions 56. More specifically, the second reciprocating drive mechanism portion 52 includes a pair of moving base portions 54 that are supported so as to be movable in the longitudinal direction with respect to the guide rail 53 and support the pair of first advance / retreat drive mechanism portions 56. The pair of second advancing / retreating drive mechanism portions 46 are respectively moved by being moved along the guide rails 53 by the pair of reciprocating drive portions 56.
  • the guide rail 53 is formed in a long linear shape and is arranged in a form extending along a direction (here, a horizontal direction) connecting the receiving position P1 and the set position P2.
  • the guide rail 53 is fixed to the other side portion of the base portion 16 in a form parallel to the guide rail 33. Further, the guide rail 53 extends from a position above the receiving position P1 to an area including a position above the wire holding portion 82 farthest from the cutting and crimping device 70 of the wire holding bar 80 in the set position P2. Is provided.
  • the pair of moving bases 54 are supported in a form in which the guide rails 53 are unevenly fitted so as to be movable toward and away from each other along the longitudinal direction. Further, the pair of first advance / retreat drive mechanism portions 46 are fixed to the pair of movement base portions 54. Accordingly, the pair of first advance / retreat drive mechanism portions 46 are supported so as to be movable along the guide rails 53.
  • the reciprocating drive unit 56 includes a pair of pulleys 57, a motor 58 capable of rotationally driving one pulley 57 in both forward and reverse directions, and an annular drive belt 59 wound around the pair of pulleys 57.
  • the pair of pulleys 57 is supported so as to be rotatable around an axis parallel to the other side of the base portion 16 (here, along the horizontal direction).
  • One of the pair of pulleys 57 (on the electric wire holding bar conveyance device 90 side in FIG. 2) is arranged so as to be rotationally driven by a motor 58.
  • the motor 58 is also supported by the base portion 16.
  • the moving base 54 is fixed to a part of the driving belt 59 in the extending direction.
  • the moving base 54 is fixed to a lower portion of the drive belt 59 that extends along the direction connecting the receiving position P1 and the set position P2.
  • the reciprocating drive unit 56 is configured to reciprocate the moving base 54 fixed to the drive belt 59 between the receiving position P1 and the set position P2 by rotationally driving the motor 58 in both forward and reverse directions. Yes.
  • a pair of reciprocating drive units 56 are arranged in parallel at substantially the same height position. That is, each pair of pulleys 57 and each drive belt 59 are positioned so as to operate on different parallel surfaces. More specifically, the pair of pulleys 57, the motor 58, and the drive belt 59 in the pair of reciprocating drive units 56 are configured so that the receiving position P1 and the set position P2 are set in order to avoid interference between the pair of pulleys 57 and the motors 58. Are displaced in the direction connecting the two.
  • the pair of second advance / retreat drive mechanisms 46 are arranged in a line along a direction connecting the receiving position P1 and the set position P2, and a pair of moving bases 54 fixed to the pair of drive belts 59, respectively. Are supported by each. And a pair of 2nd holding
  • the first reciprocating drive mechanism portion 32 and the second reciprocating drive mechanism portion 52 are configured such that at least one of the first gripping mechanism portion 22 and the second gripping mechanism portion 42 has the first retraction position C1 or the second retraction drive mechanism portion 42.
  • the first advancing / retreating drive mechanism unit 26 and the second advancing / retreating drive mechanism unit 46 are configured to pass each other in the state of being moved to the retreat position C2 (see FIGS. 6 to 8).
  • the first reciprocating drive mechanism portion 32 and the second reciprocating drive mechanism portion 52 divide the first advance / retreat drive mechanism portion 26 and the second advance / retreat drive mechanism portion 46 into an area on the receiving position P1 side and an area on the set position P2 side. And move them alternately.
  • the second transfer mechanism 40 sets the terminal-attached electric wire 2 on the electric wire holding bar 80 at the set position P2. Further, while the second transfer mechanism unit 40 receives the terminal-attached electric wire 2 at the receiving position P1, the first transfer mechanism unit 20 sets the terminal-attached electric wire 2 to the electric wire holding bar 80 at the set position P2.
  • the operation control of the electric wire transfer device 10 is performed by a transport control unit 60 configured by a general microcomputer including a CPU, a ROM, a RAM, and the like (see FIG. 1).
  • the transfer control unit 60 receives the electric wire transfer terminal 2 to receive and set the terminal-attached electric wire 2 at this timing. Operation control of each drive part in the 1st transfer mechanism part 20 and the 2nd transfer mechanism part 40 in the mounting apparatus 10 is performed.
  • the operation control of the wire holding bar transfer device 90 is also performed by the transfer control unit 60.
  • the transport control unit 60 controls the transport timing of the wire holding bar 80 so that a preset number of the terminal-attached electric wires 2 are transferred to the wire holding bar 80 in cooperation with the cutting and crimping control unit 62 and the like. To do.
  • the pair of first reciprocating drive mechanism portions 32 support the first advance / retreat drive mechanism portions 26 above the electric wire conveyance gripping portions 79 arranged at the receiving position P1, and the pair of second reciprocating drive mechanism portions 52 It is assumed that each second advance / retreat driving mechanism 46 is supported above two predetermined electric wire holding portions 82 of the electric wire holding bar 80 arranged at the set position P2. Further, the pair of first advance / retreat drive mechanism portions 26 and the pair of second advance / retreat drive mechanism portions 46 move the first gripping mechanism portion 22 and the second gripping mechanism portion 42 to the first retracted position C1 or the second retracted position C2. It shall be supported (see FIG. 8). Further, the pair of gripping pieces 23 of the first gripping mechanism portion 22 are open, and the pair of gripping pieces 23 of the second gripping mechanism portion are closed with the wire end portion of the terminal-attached electric wire 2 sandwiched therebetween. And
  • the delivery lifting drive unit 28 is moved downward by the indirect lifting drive unit 27 (see FIG. 7).
  • the first gripping mechanism 22 is moved from the first retracted position C1 to the preliminary retracted position B.
  • the first gripping mechanism unit 22 is moved downward by the delivery raising / lowering drive unit 28 (see FIG. 7). As a result, the first gripping mechanism 22 is moved from the preliminary retracted position B to the advanced position A.
  • the pair of gripping pieces 23 are moved close (closed) by the opening / closing drive section 24 (see FIG. 12).
  • the distance between the pair of gripping pieces 23 is set to be the same as or smaller than the diameter of the wire end of the terminal-attached electric wire 2 (here, slightly smaller).
  • the electric wire conveyance holding part 79 is made to release
  • the first lifting mechanism unit 22 is moved up by the delivery raising / lowering drive unit 28. As a result, the first gripping mechanism 22 is moved from the advance position A to the preliminary retreat position B.
  • the delivery raising / lowering driving unit 28 is moved up by the indirect raising / lowering driving unit 27.
  • the first gripping mechanism 22 is moved from the preliminary retracted position B to the first retracted position C1.
  • the second transfer mechanism section 40 executes the setting process of the terminal-attached electric wire 2.
  • the delivery lift drive unit 48 is moved downward by the indirect lift drive unit 47 (see FIG. 6).
  • the second gripping mechanism portion 42 is moved from the second retracted position C2 to the preliminary retracted position B.
  • the second gripping mechanism part 42 is moved downward by the delivery raising / lowering drive part 48 (see FIG. 6). As a result, the second gripping mechanism portion 42 is moved from the preliminary retracted position B to the advanced position A.
  • the terminal-attached electric wire 2 held by the second holding mechanism portion 42 is held by the electric wire holding portion 82 of the electric wire holding bar 80. More specifically, in the electric wire with terminal 2, a part of the end portion of the electric wire that crosses the inside of the opposing portions of the gripping piece 43 by the advancing operation of the pair of gripping pieces 43 is arranged on the inner side. It is clamped by a pair of elastic clamping pieces 83 of the holding portion 82 (see FIGS. 5 and 11).
  • the pair of gripping pieces 43 are moved apart (opened) by the opening / closing drive section 44.
  • the distance between the pair of gripping pieces 43 is set to be larger than the diameter of the end portion of the terminal-attached electric wire 2.
  • the second lifting mechanism unit 42 is moved up by the delivery raising / lowering drive unit 48.
  • the second gripping mechanism portion 42 is moved from the advance position A to the preliminary retracted position B.
  • the delivery lift drive unit 48 is moved up by the indirect lift drive unit 47.
  • the second gripping mechanism portion 42 is moved from the preliminary retracted position B to the second retracted position C2.
  • 6 and 7 show a state where the first gripping mechanism 22 and the second gripping mechanism 42 are alternately moved to the advance position A and the first retracted position C1 or the second retracted position C2. This is shown for convenience of explanation. Actually, both the first gripping mechanism portion 22 and the second gripping mechanism portion 42 are advanced positions in the region on the receiving position P1 side or the region on the set position P2 side, respectively. Moved to A.
  • the transport process of the first transfer mechanism part 20 and the second transfer mechanism part 40 is executed.
  • the first reciprocating drive mechanism 32 moves the first advance / retreat drive mechanism 26 from the receiving position P1 side area to the set position P2 side area in the first path R1.
  • the second reciprocating drive mechanism 52 moves the second advance / retreat drive mechanism 46 from the set position P2 side area to the receiving position P1 side area in the second path R2.
  • the first gripping mechanism unit 22 and the second gripping mechanism unit 42 are respectively in the first retracted position C1 or the second retracted position. Passing sideways in the state of position C2 (see FIG. 8).
  • the first advance / retreat drive mechanism unit 26 and the second The two-way drive mechanism 46 can pass by.
  • the second gripping mechanism unit 42 passes under the first gripping mechanism unit 22 (FIG. 6).
  • the state is a state in which the delivery raising / lowering driving unit 48 is moved to the lowered position by the indirect raising / lowering driving unit 47 and the second gripping mechanism unit 42 is moved to the lowered position by the delivery raising / lowering driving unit 48. Further, in a state where the first gripping mechanism unit 22 is in the preliminary retracted position B and the second gripping mechanism unit 42 is in the second retracted position C2, the first gripping mechanism unit 22 and the second gripping mechanism unit 42 are mutually connected. Pass by the side (see Figure 7).
  • grip mechanism part 22 and One of the second gripping mechanism portions 42 that grips the terminal-attached electric wire 2 and moves from the region on the receiving position P1 side to the region on the set position P2 side is disposed at the preliminary retracted position B, and the other is the first retracted position.
  • the first gripping mechanism portion 22 and the second gripping mechanism portion 42 may be alternately moved between the region on the receiving position P1 side and the region on the set position P2 side in the state where the C1 or the second retracted position C2 is disposed. (See FIGS. 6 and 7).
  • the first transfer mechanism part 20 and the second transfer mechanism part 40 at least one of the first gripping mechanism part 22 and the second gripping mechanism part 42 is in the first retraction position C1 or the second transfer mechanism part 42. As long as it has been moved to the second retracted position C2, the other does not have to be moved upward from the preliminary retracted position B.
  • a pair of 1st reciprocating drive mechanism parts 32 are the electric wire holding
  • the first advancing / retracting drive mechanism unit 26 is moved to a position disposed above the unit 82.
  • the pair of second reciprocating drive mechanism units 52 includes the second advancing / retreating drive mechanism unit 46 to a position where each second gripping mechanism unit 42 is disposed above the pair of electric wire conveyance gripping units 79 disposed at the receiving position P1. Move.
  • the next step is to execute the setting process of the terminal-attached electric wire 2 received in the receiving process by the first transfer mechanism unit 20, and the second transfer mechanism part 40 executes the receiving process of the terminal-attached electric wire. To do.
  • each first gripping mechanism unit 22 is moved to the advanced position A by the pair of first advance / retreat drive mechanism units 26 and is held by the wire holding unit 82 of the wire holding bar 80. And the holding
  • the second gripping mechanism sections 42 are moved to the advanced positions A by the pair of second advance / retreat driving mechanism sections 26, and are gripped by the wire conveyance gripping section 79 by the second gripping mechanism section 42.
  • the end portion of the terminal-attached electric wire 2 is gripped.
  • the second gripping mechanism portions 42 are moved again to the second retracted position C2 by the pair of second advance / retreat driving mechanism portions 46 again. Thereby, the receiving process of the electric wire 2 with a terminal by the 2nd transfer mechanism part 20 is completed.
  • the transfer process of the first transfer mechanism unit 20 and the second transfer mechanism unit 40 is executed.
  • the first reciprocating drive mechanism 32 moves the first advance / retreat drive mechanism 26 from the set position P2 side area to the receiving position P1 side area in the first path R1.
  • the second reciprocating drive mechanism 52 moves the second advance / retreat drive mechanism 46 from the receiving position P1 side area to the set position P2 side area in the second path R2.
  • the terminal-attached electric wire 2 can be transferred continuously.
  • the electric wire holding bar conveying device 90 moves the next electric wire holding bar 80 to the set position P2 and transfers the terminal-attached electric wire 2 to the electric wire holding bar 80. Good.
  • the first reciprocating drive mechanism unit 32 and the second reciprocating drive mechanism unit 52 are configured such that at least one of the first gripping mechanism unit 22 and the second gripping mechanism unit 42 is the first.
  • the first advance / retreat drive mechanism unit 26 and the second advance / retreat drive mechanism unit 46 are alternately arranged in the receiving position P1 side area and the set position P2 side area.
  • the other is the electric wire holding bar 80 on the set position P2 side.
  • the terminal-attached electric wire 2 can be used without changing the configuration of the cutting and crimping device 70 and the wire holding bar transport device 90.
  • the transfer efficiency can be improved.
  • the second advance / retreat drive mechanism 46 moves the second gripping mechanism 42 from the advance position A on the first movement region R1 where the first advance / retreat drive mechanism 26 is moved.
  • the second gripping mechanism portion 42 is moved along a path including a straight path that is obliquely upward between the second movement region R2 and the second retraction position C2 that is obliquely above the advance position A. Can be shortened. Moreover, it contributes to space saving of the wire transfer device 10 itself.
  • the second advancing / retreating drive mechanism unit 46 moves the second gripping mechanism unit 42 up and down
  • the delivery lifting and lowering drive unit 48 moves the lowering position on the first movement region R1 and on the second movement region R2.
  • the delivery lift drive section 48 is moved to the drop position on the first movement region R1.
  • the configuration to be made can be simplified. That is, the movement in the vertical direction and the movement in the horizontal direction can be realized by one drive unit, and the equipment cost of the wire transfer device 10 can be reduced and the space can be saved.
  • the second gripping mechanism portion 42 passes under the first gripping mechanism portion 22 moved to the first retraction position C1 in a state where the delivery lifting drive portion 48 is moved to the lowered position by the indirect lifting drive portion 47.
  • the first gripping mechanism portion 22 and the first gripping mechanism portion 22 are connected to each other even if the delivery lifting / lowering drive portion 48 remains in the lowered position. 2
  • the gripping mechanism portion 42 can be moved between the area on the receiving position P1 side and the area on the set position P2 side.
  • the drive number of the indirect raising / lowering drive part 47 can be reduced, and it contributes to reduction of drive cost and prolongation of lifetime. Further, as compared with the case where the first gripping mechanism portion 22 and the second gripping mechanism portion 42 pass each other, the clearance for suppressing the interference of the portion protruding to the side of the gripped terminal-attached electric wire 2. Is not required to be provided on the side of the first gripping mechanism portion 22 and the second gripping mechanism portion 42, which contributes to space saving of the wire transfer device 10 itself.
  • first reciprocating drive mechanism portion 32 and the second reciprocating drive mechanism portion 52 divide the first advance / retreat drive mechanism portion 26 and the second advance / retreat drive mechanism portion 46 into an area on the receiving position P1 side and an area on the set position P2 side. Therefore, the receiving operation and the setting operation of the terminal-attached electric wire 2 can be simultaneously advanced to further improve the transfer efficiency.
  • the first transfer mechanism unit 20 has been described with an example in which the first gripping mechanism unit 22 is moved only in the vertical direction, but the first gripping mechanism unit 22 is tilted like the second transfer mechanism unit 40. It may be configured to move in the direction.
  • the 1st transfer mechanism part 20 may be comprised so that the delivery raising / lowering drive part 28 may be moved to the diagonal direction by the indirect raising / lowering drive part arrange
  • the second transfer mechanism unit 40 has been described as an example in which the indirect lifting drive unit 47 moves the delivery lifting drive unit 48 in an oblique direction, the present invention is not limited to this. That is, the second transfer mechanism unit 40 only needs to be able to move the second gripping mechanism unit 42 between the advanced position A and the second retracted position C2, and the delivery lifting / lowering drive unit 48 in the horizontal direction. You may have the indirect raising / lowering drive part to move.
  • the 2nd transfer mechanism part 40 may be comprised so that an indirect raising / lowering drive part may move the delivery raising / lowering drive part 48 to a perpendicular direction. However, in this case, it is necessary to adopt the configuration of the first advance / retreat drive mechanism that moves the first gripping mechanism 22 in an oblique direction or a horizontal direction.
  • the 1st reciprocating drive mechanism part 32 and the 2nd reciprocating drive mechanism part 52 demonstrated by the example comprised by a guide rail, a movement base, a pair of pulley, a motor, and a drive belt, it is not restricted to this. . That is, the first reciprocating drive mechanism portion 32 and the second reciprocating drive mechanism portion 52 move the first advance / retreat drive mechanism portion 26 or the second advance / retreat drive mechanism portion 46 along the first movement region R1 or the second movement region R2. Any mechanism that can move linearly may be used, and a linear actuator such as an air cylinder may be used.
  • movement of the electric wire transfer apparatus 10 has been demonstrated in the example in which the receiving process or setting process of the 1st transfer mechanism part 20 and the setting process or receiving process of the 2nd transfer mechanism part 40 are advanced simultaneously.
  • the timings of both processes may be shifted. That is, the first transfer mechanism unit 20 and the second transfer mechanism unit 40 are transferred by one transfer mechanism unit if the first gripping mechanism unit 22 and the second gripping mechanism unit 42 operate so as to pass each other.
  • the transfer efficiency can be improved as compared with the case of performing. From the viewpoint of improving the transfer efficiency, the first transfer mechanism unit 20 and the second transfer mechanism unit 40 set with the region on the receiving position P1 side of the first holding mechanism unit 22 and the second holding mechanism unit 42. It is preferable that the reciprocation between the area on the position P2 side is alternately performed, and the setting process or the receiving process is performed simultaneously.

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Manufacturing Of Electrical Connectors (AREA)
PCT/JP2012/069093 2012-02-09 2012-07-27 Dispositif de décalage de ligne électrique Ceased WO2013118324A1 (fr)

Priority Applications (3)

Application Number Priority Date Filing Date Title
CN201280069132.9A CN104094366B (zh) 2012-02-09 2012-07-27 电线移载装置
EP12868300.0A EP2814042B1 (fr) 2012-02-09 2012-07-27 Dispositif de décalage de ligne électrique
KR1020147021134A KR101647573B1 (ko) 2012-02-09 2012-07-27 전선 이재 장치

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JP2012-025801 2012-02-09
JP2012025801A JP5817576B2 (ja) 2012-02-09 2012-02-09 電線移載装置

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CN113422273A (zh) * 2021-06-24 2021-09-21 刘丽琴 一种基于智能制造用新能源汽车线束线耳组装设备
CN115331888A (zh) * 2022-07-04 2022-11-11 江苏博之旺自动化设备有限公司 新能源汽车高压线束后盖组件自动穿插装置及方法

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JP6107639B2 (ja) * 2013-12-18 2017-04-05 住友電装株式会社 電線排出装置
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DE102017206141B4 (de) * 2017-04-10 2021-01-28 Leoni Bordnetz-Systeme Gmbh Anlage sowie Verfahren zur automatisierten Vorbereitung und Bereitstellung von einzelnen Leitungselementen für einen Kabelsatz
DE102017206139B4 (de) 2017-04-10 2023-12-07 Leoni Bordnetz-Systeme Gmbh Anlage sowie Verfahren zum automatisierten Herstellen eines Kabelsatzes
KR101979243B1 (ko) * 2018-12-13 2019-05-16 김재현 커넥터 단자핀 굴곡장치
KR102620721B1 (ko) * 2021-08-09 2024-01-02 곽재곤 이중 적재 이재기
KR102369027B1 (ko) * 2021-08-20 2022-03-03 곽철 와이어 하네스 제조방법
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KR102640500B1 (ko) * 2021-10-07 2024-02-23 안종이 와이어 하네스 제조시스템
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KR20140108714A (ko) 2014-09-12
CN104094366A (zh) 2014-10-08
EP2814042A4 (fr) 2015-08-05
KR101647573B1 (ko) 2016-08-10
EP2814042B1 (fr) 2016-06-29
JP5817576B2 (ja) 2015-11-18
CN104094366B (zh) 2016-09-14
JP2013161776A (ja) 2013-08-19
EP2814042A1 (fr) 2014-12-17

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