WO2019021413A1 - ファスナーストリンガー製造装置 - Google Patents

ファスナーストリンガー製造装置 Download PDF

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Publication number
WO2019021413A1
WO2019021413A1 PCT/JP2017/027168 JP2017027168W WO2019021413A1 WO 2019021413 A1 WO2019021413 A1 WO 2019021413A1 JP 2017027168 W JP2017027168 W JP 2017027168W WO 2019021413 A1 WO2019021413 A1 WO 2019021413A1
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WO
WIPO (PCT)
Prior art keywords
ram
fastener
lever
follower roller
cutting
Prior art date
Application number
PCT/JP2017/027168
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
元 長谷川
Original Assignee
Ykk株式会社
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 Ykk株式会社 filed Critical Ykk株式会社
Priority to CN201780093443.1A priority Critical patent/CN110996709B/zh
Priority to PCT/JP2017/027168 priority patent/WO2019021413A1/ja
Priority to TW106140777A priority patent/TWI642378B/zh
Publication of WO2019021413A1 publication Critical patent/WO2019021413A1/ja

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Classifications

    • AHUMAN NECESSITIES
    • A44HABERDASHERY; JEWELLERY
    • A44BBUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
    • A44B19/00Slide fasteners
    • A44B19/24Details
    • A44B19/34Stringer tapes; Flaps secured to stringers for covering the interlocking members
    • AHUMAN NECESSITIES
    • A44HABERDASHERY; JEWELLERY
    • A44BBUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
    • A44B19/00Slide fasteners
    • A44B19/42Making by processes not fully provided for in one other class, e.g. B21D53/50, B21F45/18, B22D17/16, B29D5/00
    • AHUMAN NECESSITIES
    • A44HABERDASHERY; JEWELLERY
    • A44BBUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
    • A44B19/00Slide fasteners
    • A44B19/42Making by processes not fully provided for in one other class, e.g. B21D53/50, B21F45/18, B22D17/16, B29D5/00
    • A44B19/44Securing metal interlocking members to ready-made stringer tapes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D53/00Making other particular articles
    • B21D53/46Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples
    • B21D53/50Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples metal slide-fastener parts
    • B21D53/52Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples metal slide-fastener parts fastener elements; Attaching such elements so far as this procedure is combined with the process for making the elements

Definitions

  • the present invention relates to a device for manufacturing a fastener stringer of a slide fastener.
  • a fastener element is provided at a front end portion of the first ram, a first ram supported for reciprocation in the front-rear direction, a second ram supported for reciprocation in the vertical direction, and a fastener element
  • a cutting die having a wire insertion hole for the wire, a forming die provided at the front end of the first ram for forming the meshing head on the fastener element, and an upper surface of the cutting die are provided to cut the wire for the fastener element Cutting punches, a forming punch provided at the lower end of the second ram and forming a meshing head on the fastener element, and a side of the front end of the first ram, the fastener element being crimped to the fastener tape
  • One including a pair of side punches is known (see, for example, Patent Document 1).
  • the drive mechanism of the second ram in the vertical direction has a roller that contacts the second ram drive cam of the drive shaft, a roller supported at one end, and a central portion A lever pivotally supported by the apparatus body, a pin attached to the other end of the lever and abutting on the upper end of the second ram, and a compression spring biasing the one end of the lever toward the second ram drive cam It is done.
  • the present invention has been made in view of the above-described circumstances, and its object is to bring the input position of the driving force to the second ram close to the center of gravity of the second ram, thereby stabilizing the vertical movement of the second ram. It is an object of the present invention to provide a fastener stringer manufacturing apparatus which can improve the followability of the roller to the rotation of the drive shaft at high speed driving.
  • a fastener stringer manufacturing apparatus for manufacturing a fastener stringer by continuously attaching a fastener element along one side edge of a fastener tape, and cutting a wire which is a material of the intermittently supplied fastener element
  • the cutting portion includes a first ram provided to be reciprocably movable in the front-rear direction, and the head molding portion includes a second ram provided to be reciprocatingly movable in the vertical direction, and the first ram and the second ram are provided.
  • a second ram drive mechanism for transmitting the drive force of the drive shaft to the second ram
  • the second ram drive mechanism comprising a base portion A lever rotatably mounted on the base and having three ends, a first follower roller rotatably mounted on the first end of the lever, and rotatably mounted on the second end of the lever
  • the second follower roller and a link rotatably coupled at one end to the third end of the lever and rotatably coupled to the second ram at the other end, the first follower roller being the second of the drive shaft
  • the second follower roller contacts the lower moving cam that lowers the 2 ram, and the second follower roller contacts the upper moving cam that moves the second ram of the drive shaft upward, and the lever that connects one end of the link to the third end of the lever
  • a fastener stringer manufacturing apparatus characterized in that a side connecting shaft and a ram side connecting shaft connecting the other end of the link and the second ram are arranged in a substantially straight line along the vertical direction of the second
  • the first follower roller is rotatably supported to the first end of the lever by the support shaft, and the support shaft supporting the first follower roller is an eccentric shaft.
  • Fastener stringer manufacturing apparatus as described.
  • the second follower roller is rotatably supported to the second end of the lever by the support shaft, and the support shaft supporting the second follower roller is an eccentric shaft.
  • the cutting portion is provided at the front end of the first ram and the first ram, and is provided opposite to the upper surface of the cutting die having the insertion hole through which the wire is inserted and the upper surface of the cutting die. And a cutting punch for cutting the wire rod, and the fastener stringer manufacturing apparatus according to (3).
  • the head forming portion is provided at the lower end portion of the second ram and the second ram, and is provided at the front end portion of the first ram with the forming punch for forming the interlocking head on the fastener element.
  • the fastener stringer manufacturing apparatus according to (4) further comprising: a forming die to be driven; and an element presser pad for pressing a pair of legs of the fastener element at the time of head forming by the forming punch.
  • the fastener stringer manufacturing apparatus according to (5) characterized in that the caulking portion is provided on the first ram and includes a pair of caulking punches that crimp the pair of legs of the fastener element.
  • the fastener stringer manufacturing apparatus according to (6) wherein the caulking portion is provided in the first ram and includes a pair of chamfering punches for chamfering the fastener element.
  • the second ram drive mechanism for transmitting the drive force of the drive shaft to the second ram
  • the second ram drive mechanism is rotatably provided at the base portion and the base portion, and has three ends , A first follower roller rotatably provided at the first end of the lever, a second follower roller rotatably provided at the second end of the lever, and an end at the third end of the lever And the other end is rotatably connected to the second ram, the first follower roller being in contact with the lower moving cam for moving the second ram of the drive shaft downward, (2)
  • the follower roller contacts the upper moving cam that moves up the second ram of the drive shaft, and connects the lever side connecting shaft that connects one end of the link and the third end of the lever, and the other end of the link and the second ram
  • the ram side connecting shafts to be connected are arranged in a substantially straight line along the vertical direction of the second ram For placement, the input position of the drive force to the second ram can be brought close to the second ram
  • FIG. 5 is a cross-sectional view taken along line AA of FIG. 4; It is an expanded sectional view of a periphery of the cutting die of FIG.
  • FIG. 6 is an enlarged top view around the caulking portion of FIG. It is an enlarged top view of a periphery of the cutting die of FIG.
  • FIG. 12 is a cross-sectional view taken along the line BB in FIG.
  • FIG. 7 is a schematic side view illustrating the first die being advanced to attach the fastener element to the fastener tape.
  • FIG. 20B is a top view of the fastener element of FIG. 20A.
  • the upper side is the arrow U direction in FIG. 1
  • the lower side is the arrow D direction in FIG. 1
  • the front side is the arrow Fr direction in FIG. 1
  • the rear side is the arrow Rr direction in FIG. Is the direction of arrow L in FIG. 1
  • the right is the direction of arrow R in FIG.
  • the left and right direction is also referred to as the belt width direction.
  • the upstream side and the downstream side are based on the conveyance direction of a fastener tape.
  • the fastener stringer manufacturing apparatus 10 is cut by the cutting unit 20 that cuts the wire W, which is a material of the fastener element E supplied intermittently, and the cutting unit 20.
  • the fastener stringer manufacturing apparatus 10 manufactures the fastener stringer FS continuously attaching the fastener element E along the one side edge part of the fastener tape T. As shown in FIG.
  • the fastener stringer FS includes a fastener tape T and a plurality of metal fastener elements E attached to one side edge of the fastener tape T, as shown in FIGS. 21A and 21B.
  • the fastener element E has a mating head E1 and a pair of legs E2 extending from the mating head E1.
  • the meshing head E1 has a meshing convex portion E3 formed on one surface and a meshing concave portion E4 formed on the other surface.
  • the cutting unit 20 is provided at the front end of the first ram 21 and the front end of the first ram 21 provided so as to be capable of reciprocating in the front-rear direction.
  • a cutting punch 23 provided opposite to the upper surface of the cutting die 22 for cutting the wire W in cooperation with the cutting die 22, and a ram for slidably supporting the first ram 21 in the front-rear direction.
  • a guide 24 is attached to the ram guide 45 of the head molding part 40 mentioned later (refer FIG. 13).
  • the ram guide 24 is being fixed to the apparatus frame not shown.
  • the head molding portion 40 is provided at the lower end portion of the second ram 41 and the second ram 41 provided so as to be capable of reciprocating in the vertical direction, as shown in FIG. 2 and FIG. 10 to FIG.
  • a forming die 43 for forming the mating head E1 a forming die 43 integrally provided on the cutting die 22 and receiving the driving of the forming punch 42 (see FIG. 7), and a head of the fastener element E when forming the head by the forming punch 42
  • An element presser pad 44 for pressing the pair of legs E2 and a ram guide 45 for slidably supporting the second ram 41 in the vertical direction are provided.
  • the ram guide 45 is fixed to an apparatus frame (not shown).
  • the fastener stringer manufacturing apparatus 10 includes a drive shaft 80 for driving the first ram 21 of the cutting unit 20 and the second ram 41 of the head molding unit 40, and the drive shaft 80.
  • the first ram drive mechanism 30 for transmitting the driving force to the first ram 21, the second ram drive mechanism 50 for transmitting the driving force of the drive shaft 80 to the second ram 41, and the wire W in the insertion hole 22 a of the cutting die 22
  • a tape supply unit 110 for intermittently supplying a fastener tape T from below to the front of the first ram 21.
  • the drive shaft 80 includes a pair of retraction cams 81 for retracting the first ram 21, a single advancing cam 82 for advancing the first ram 21, a pair of lower moving cams 83 for lowering the second ram 41, and A pair of upper moving cams 84 for moving the 2 rams 41 upward, a wire rod supply cam 85 for driving the wire rod supply unit 100 and a tape supply cam 86 for driving the tape supply unit 110 are provided.
  • the wire rod supply unit 100 has a feed roller 101 and a guide roller 102 for transporting the wire rod W, a follower roller 103 in contact with the wire rod supply cam 85 of the drive shaft 80, and a follower roller 103 at one end.
  • the rod-like slider 104 supported, the ratchet 105 attached to the other end of the slider 104, the ratchet wheel 106 intermittently rotating at a predetermined angle only in one direction by the ratchet 105, the feed roller 101 and the ratchet wheel 106
  • a transmission shaft 107 and a compression spring 108 biasing the slider 104 toward the drive shaft 80 are provided.
  • the tape supply unit 110 includes a feed roller 111 and a guide roller 112 for conveying the fastener tape T, a tape guide 113 for guiding the conveyed fastener tape T, and a tape supply cam for the drive shaft 80.
  • a follower roller 114 in contact with the lock roller 86, a rocker arm 115 having the follower roller 114 supported at one end, a roller 116 supported at the other end of the rocker arm 115, and a lever 117 pivoted downward by the roller 116;
  • a transmission shaft 118 connecting the feed roller 111 and the lever 117, and a tension spring 119 urging the tip of the lever 117 upward.
  • a not-shown one-way clutch is provided between the lever 117 and the transmission shaft 118.
  • the first ram driving mechanism 30, as shown in FIGS. 3 to 6, is rotatably provided at a base portion 31 fixed to a device frame (not shown) and the base portion 31 and has first to third end portions. 32A to 32C, a pair of first follower rollers 33 rotatably provided at the first end 32A of the lever 32, and a second one rotatably provided at the second end 32B of the lever 32.
  • the follower roller 34 and a link 35 rotatably connected at one end to the third end 32C of the lever 32 and rotatably connected at the other end to the rear end of the first ram 21 are provided.
  • the pair of first follower rollers 33 respectively contact the pair of retraction cams 81 of the drive shaft 80.
  • one second follower roller 34 contacts one advancing cam 82 of the drive shaft 80.
  • the lever 32 is rotatably supported by the support shaft 31 a with respect to the base portion 31.
  • the pair of first follower rollers 33 is rotatably supported by the support shaft 33 a with respect to the first end 32 ⁇ / b> A of the lever 32.
  • One second follower roller 34 is rotatably supported by the support shaft 34 a with respect to the second end 32 B of the lever 32.
  • One end of the link 35 is rotatably connected to the third end 32C of the lever 32 by the lever side connecting shaft 35a, and the other end of the link 35 is rotated to the first ram 21 by the ram side connecting shaft 35b. It is linked possible.
  • the support shaft 33a supporting the first follower roller 33 is formed as an eccentric shaft in which the portion supporting the first follower roller 33 is eccentric to the portion supported by the first end 32A of the lever 32.
  • the position of the first follower roller 33 can be changed only by rotating the support shaft 33a with respect to the lever 32. Therefore, the contact condition between the first follower roller 33 and the retraction cam 81 of the drive shaft 80 is facilitated. It will be possible to adjust to
  • the support shaft 34a for supporting the second follower roller 34 is formed as an eccentric shaft in which a portion for supporting the second follower roller 34 is eccentric to a portion supported by the second end 32B of the lever 32.
  • the lever side connecting shaft 35a and the ram side connecting shaft 35b are arrange
  • the lever side connecting shaft 35a and the ram side connecting shaft 35b which are the input position of the driving force with respect to the 1st ram 21 can be closely approached to the gravity center of the 1st ram 21, and, thereby, the longitudinal direction of the 1st ram 21 Movement can be stabilized.
  • the lever side connecting shaft 35a and the ram side connecting shaft 35b are disposed from one end of the link 35 to the other end.
  • the axis connecting the axis of the lever side connecting shaft 35a of the link 35 and the axis of the ram side connecting shaft 35b intersects with the axis of the moving direction in which the first ram 21 moves in the front-rear direction at a small angle. In a side view of the fastener stringer manufacturing device 10, it is in a nearly parallel state.
  • the lever side connecting shaft 35 a and the ram side connecting shaft 35 b are arranged in a substantially straight line along the front-rear direction of the first ram 21.
  • a retracting cam 81 for retracting the first ram 21 and an advancing cam 82 for advancing the first ram 21 are separately provided in the drive shaft 80, and the reversing cam 81 and the advancing cam 82 have a first lever 32. Since the follower roller 33 and the second follower roller 34 are brought into contact with each other, the followability of the first follower roller 33 and the second follower roller 34 with respect to the rotation of the drive shaft 80 at the time of high speed driving can be improved. High-speed operation of the manufacturing apparatus 10 becomes possible.
  • the second ram driving mechanism 50 is rotatably provided at the base 51 fixed to the apparatus frame (not shown) and the base 51, and has first to third ends. 52A to 52C, a pair of first follower rollers 53 rotatably provided at a first end 52A of the lever 52, and a pair of second followers rotatably provided at a second end 52B of the lever 52
  • the follower roller 54 and a link 55 rotatably connected at one end to the third end 52 C of the lever 52 and rotatably connected at the other end to the upper end of the second ram 41 are provided.
  • the pair of first follower rollers 53 respectively contact the pair of lower moving cams 83 of the drive shaft 80.
  • the pair of second follower rollers 54 respectively contact the pair of upper moving cams 84 of the drive shaft 80.
  • the lever 52 is rotatably supported by the support shaft 51 a with respect to the base 51.
  • the pair of first follower rollers 53 is rotatably supported by the support shaft 53 a with respect to the first end 52 ⁇ / b> A of the lever 52.
  • the pair of second follower rollers 54 is rotatably supported by the support shaft 54 a with respect to the second end 52 B of the lever 52.
  • One end of the link 55 is rotatably connected to the third end 52C of the lever 52 by the lever side connecting shaft 55a, and the other end of the link 55 is rotated relative to the second ram 41 by the ram side connecting shaft 55b. It is linked possible.
  • the support shaft 53a for supporting the first follower roller 53 is formed as an eccentric shaft in which the portion for supporting the first follower roller 53 is eccentric to the portion supported by the first end 52A of the lever 52. For this reason, it is possible to adjust the degree of contact between the first follower roller 53 and the lower moving cam 83 of the drive shaft 80.
  • the support shaft 54a for supporting the second follower roller 54 is formed as an eccentric shaft in which the portion for supporting the second follower roller 54 is eccentric to the portion supported by the second end 52B of the lever 52. For this reason, it is possible to adjust the degree of contact between the second follower roller 54 and the upper moving cam 84 of the drive shaft 80.
  • the drive shaft 80 rotates and the cam crest of the lower moving cam 83 presses the first follower roller 53 upward, thereby the lever 52 Is rotated clockwise in FIG. 13, and the second ram 41 moves downward.
  • the drive shaft 80 rotates and the cam crest of the upper moving cam 84 presses the second follower roller 54 forward, the lever 52 rotates in the counterclockwise direction in FIG. Moves up. For this reason, when the drive shaft 80 rotates, the second ram 41 reciprocates in the vertical direction.
  • the lever side connecting shaft 55a and the ram side connecting shaft 55b are arrange
  • the lever side connecting shaft 55a and the ram side connecting shaft 55b are disposed from one end of the link 55 to the other end.
  • the axis connecting the axis of the lever side connecting shaft 55a of the link 55 and the axis of the ram side connecting shaft 55b intersects at a small angle with the axis of the moving direction in which the second ram 41 moves vertically. In a side view of the fastener stringer manufacturing device 10, it is in a nearly parallel state.
  • the lever side connecting shaft 55 a and the ram side connecting shaft 55 b are arranged in a substantially straight line along the vertical direction of the second ram 41.
  • the lower moving cam 83 for moving the second ram 41 downward to the drive shaft 80 and the upper moving cam 84 for moving the second ram 41 upward are separately provided, and the lower moving cam 83 and the upper moving cam 84 are provided. Since the first follower roller 53 and the second follower roller 54 of the lever 52 are brought into contact with each other, the followability of the first follower roller 53 and the second follower roller 54 to the rotation of the drive shaft 80 at the time of high speed driving can be enhanced. This enables high-speed operation of the fastener stringer manufacturing apparatus 10.
  • the first ram 21 has a die holder 25 attached to its front end for holding the cutting die 22.
  • the cutting die 22 is fixed to the front surface of the die holder 25 by a pair of clampers 26.
  • the cutting die 22 includes a spacer 27 attached to the die holder 25 and a die main body 28 attached to the front surface of the spacer 27.
  • an insertion groove 27a that constitutes a half of the insertion hole 22a through which the wire W is inserted is formed along the vertical direction.
  • a cutting groove 28a constituting a half of the insertion hole 22a through which the wire W is inserted is formed along the vertical direction.
  • the insertion hole 22a is formed by aligning the insertion groove 27a of the spacer 27 with the cutting groove 28a of the die main body 28 in the front-rear direction.
  • the cutting groove 28a is formed in the same shape as the outer peripheral surface of the fastener element E on the side of the pair of legs E2.
  • the cutting punch 23 is attached to the front surface of the lower end portion of the ram guide 45 of the head molding portion 40, as shown in FIG.
  • the cutting punch 23 is disposed such that its lower surface is in sliding contact with the upper surface of the cutting die 22.
  • a cutting recess 23a having the same shape as the outer peripheral surface of the fastener element E on the side of the meshing head E1 is formed at the tip of the cutting punch 23.
  • the second ram 41 has a punch holder 41a attached to the front surface of the lower end thereof for holding the forming punch 42. Further, a pad holder 41b to which an element pressing pad 44 is attached is attached to the front surface of the punch holder 41a. The element pressing pad 44 is provided slidably in the vertical direction between the punch holder 41 a and the pad holder 41 b.
  • the forming die 43 is integrally formed with the die body 28 of the cutting die 22, and the front end portion of the forming die 43 engages with the mating head E1 of the fastener element E.
  • a forming recess 43a is formed.
  • the second ram driving mechanism 50 is provided with a pad pressing mechanism 56 for pressing the element pressing pad 44 downward.
  • the pad pressing mechanism 56 is provided slidably on the link 55 in the vertical direction, and includes a pressing pin 56a that abuts on the upper end surface of the element pressing pad 44, a pair of compression springs 56b that press the pressing pin 56a downward, and the link And a spring receiver 56c fixed to the upper surface of 55 and receiving the upper end of the pair of compression springs 56b.
  • the pressing pin 56 a is inserted into a guide hole 55 c formed at the center in the width direction of the link 55 along the longitudinal direction (vertical direction) of the link 50.
  • the pressing pin 56a operates so as to absorb the upper moving dimension of the element pressing pad 44 when the second ram 41 moves downward and the element pressing pad 44 presses the fastener element E (see FIG. 16).
  • the element pressing pad 44 and the pad pressing mechanism 56 configured as above, the element pressing pad 44 is always pressed downward by the pad pressing mechanism 56, so the element pressing pad for the vertical movement of the second ram 41 during high speed driving
  • the followability of 44 can be enhanced, which enables high-speed operation of the fastener stringer manufacturing apparatus 10.
  • the fastener element E can be reliably pressed by the element pressing pad 44, the molding accuracy of the meshing head E1 of the fastener element E can be maintained constant.
  • the caulking portion 60 is provided on the upper surface of the die holder 25 of the first ram 21 as shown in FIGS. 3 to 5 and 8 and is provided with a pair of caulking punches 61 for caulking the pair of leg portions E2 of the fastener element E; A pair of chamfering punches 62 provided on the upper surface of the die holder 25 of the first ram 21 for chamfering the fastener element E, and a pair of punch driving parts 70 for driving the pair of caulking punches 61 and the pair of chamfering punches 62; Prepare.
  • the pair of caulking punches 61 and the pair of chamfering punches 62 are provided slidably in the left-right direction by a punch guide base 65 and a punch guide housing 66 (see FIG. 6) attached to the upper surface of the die holder 25 of the first ram 21. .
  • the punch guide housing 66 is formed to cover the upper side of the caulking punch 61, the chamfering punch 62, and the punch guide base 65.
  • the caulking punch 61 is formed at the inner end thereof, and is formed at the outer end thereof with a recess 61a to which the leg E2 of the fastener element E is fitted. And a guided surface 61b for advancing the caulking punch 61 inward in the width direction in contact with the guide surface 72a of the guide 72.
  • the guided surface 61b is a surface inclined to face forward. Further, the caulking punch 61 is constantly urged outward in the width direction by a compression spring 61c disposed therein.
  • the chamfering punch 62 is formed at its inner end and has a concave chamfered portion 62a for chamfering the corner of the fastener element E, and is formed at its outer end and chamfered as described later. And a guided surface 62b for advancing the chamfered punch 62 inward in the width direction in contact with the guide surface 73a of the punch guide 73.
  • the guided surface 62b is a surface inclined to face forward.
  • the chamfering punch 62 is always urged outward in the width direction by a compression spring 62c disposed therein.
  • the chamfering punch 62 is disposed to overlap above the caulking punch 61. Furthermore, the chamfering punch 62 is disposed along a direction orthogonal to the sliding direction of the first ram 21, and the caulking punch 61 is disposed obliquely to the chamfering punch 62. For this reason, the caulking punch 61 and the chamfering punch 62 are arranged such that their sliding directions cross each other.
  • the punch driving unit 70 is disposed outside the caulking punch 61 and the chamfering punch 62 in the width direction, and is provided in a case 71 fixed to an apparatus frame (not shown).
  • a caulking punch guide 72 arranged to drive the caulking punch 61, a chamfering punch guide 73 arranged in the case 71 to drive the chamfering punch 62, and a lid 74 closing the upper opening of the case 71 are provided.
  • the caulking punch guide 72 is provided on the case 71 so as to be slidable in the left-right direction and fixable at an arbitrary position. At the inner end of the caulking punch guide 72, a guide surface 72a is formed which comes into contact with the guided surface 61b of the caulking punch 61 when the first ram 21 advances.
  • the chamfering punch guide 73 is disposed adjacent to the front side of the caulking punch guide 72, and is slidably provided on the case 71 in the left-right direction and is fixable at any position. At the inner end of the chamfered punch guide 73, a guide surface 73a is formed which contacts the guided surface 62b of the chamfered punch 62 when the first ram 21 advances.
  • the first ram 21 advances, and the guided surfaces 61b of the left and right caulking punches 61 contact the guide surfaces 72a of the left and right caulking punch guides 72, thereby caulking the left and right.
  • the punch 61 advances inward in the width direction, the pair of leg portions E2 of the fastener element E fitted in the recesses 61a of the left and right caulking punch 61 is crimped, and the fastener element E is attached to the fastener tape T (see FIG. 19).
  • the first ram 21 advances, and the guided surfaces 62b of the left and right chamfered punches 62 contact the guide surfaces 73a of the left and right chamfered punch guides 73, whereby the left and right chamfered punches 62 advance inward in the width direction.
  • the corner of the fastener element Eb attached to the fastener tape T just before the fastener element Ea currently attached to the fastener tape T is chamfered by the chamfer 62a of the chamfering punch 62 (see FIG. 20).
  • FIG. 14 shows a state where the fastener element E is attached to the fastener tape T in a state where the first ram 21 is advanced.
  • the wire W is supplied by the thickness of the fastener element E to the insertion hole 22 a of the cutting die 22 by the wire supply unit 100, and the wire W protrudes on the cutting die 22 by the thickness of the fastener element E.
  • the wire W is inserted between the insertion hole 22a of the cutting die 22 and the cutting recess 23a of the cutting punch 23, and the wire W has a predetermined thickness.
  • the fastener element E is cut.
  • the cut fastener element E is engaged with the mating head E1 of the fastener element E in the forming recess 43a of the forming die 43, and the left and right of the caulking portion 60 are crimped.
  • the pair of leg portions E2 of the fastener element E is fitted into the recess 61a of the punch 61, respectively.
  • the fastener element E is fitted in and held in the forming recess 43 a of the forming die 43 and the recess 61 a of the left and right caulking punches 61.
  • the fastener tape T is conveyed upward by the thickness of two fastener elements E by the tape supply unit 110.
  • the second ram 41 moves downward, whereby the element pressing pad 44 presses the pair of legs E2 of the fastener element E downward, and the forming punch 42 acts as a fastener element.
  • the engagement head E1 of E is stamped to form the engagement projection E3 and the engagement recess E4 on the engagement head E1 of the fastener element E.
  • the meshing projection E3 is formed by the forming recess 43a of the forming die 43, and the meshing recess E4 is formed by the tip of the forming punch 42.
  • the 2nd ram 41 moves up rapidly after shaping head E1 shaping
  • the first ram 21 advances to move the fastener element E to one side edge of the fastener tape T, and the fastener tape T is moved between the pair of legs E2.
  • a pair of leg portions E2 are respectively crimped on the side of the fastener tape T by the left and right caulking punches 61 which advance inward in the width direction of the caulking portion while the one side edge portion is inserted. Attached to one side edge of the
  • the left and right chamfered punches 62 are advanced inward in the width direction together with the left and right caulking punches 61, so that the fastener element Ea currently attached to the fastener tape T
  • the corner of the fastener element Eb attached to the tape T is chamfered by the chamfered portion 62 a of the chamfering punch 62.
  • the fastener element E is continuously attached to one side edge portion of the fastener tape T by repeating the above operation.
  • the second ram drive mechanism 50 for transmitting the driving force of the drive shaft 80 to the second ram 41 has the base 51 and the base 51.
  • a lever 52 rotatably provided and having first to third ends 52A to 52C, a first follower roller 53 rotatably provided at the first end 52A of the lever 52, and a second end of the lever 52
  • a second follower roller 54 rotatably provided at the portion 52B, a link 55 rotatably connected at one end to the third end 52C of the lever 52, and the other end rotatably connected to the second ram 41;
  • the first follower roller 53 contacts the lower moving cam 83 for moving the second ram 41 of the drive shaft 80 downward, and the second follower roller 54 moves the second ram 41 for the drive shaft 80 upward.
  • Dynamic cam 84 The second ram 41 contacts the lever side connecting shaft 55a that connects one end of the link 55 with the third end 52C of the lever 52, and the ram side connecting shaft 55b connects the other end of the link 55 with the second ram 41. Because the input position of the driving force to the second ram 41 can be brought close to the center of gravity of the second ram 41, the vertical position of the second ram 41 can be increased. Movement can be stabilized. Further, since the lower moving cam 83 for moving the second ram 41 downward and the upper moving cam 84 for moving the second ram 41 are separately provided on the driving shaft 80, the follower roller 53 for the rotation of the driving shaft 80 at high speed driving is provided. , 54 can be enhanced.
  • the support shaft 53a for rotatably supporting the first follower roller 53 is an eccentric shaft, the support shaft 53a can be rotated only with respect to the lever 52. The position of the first follower roller 53 can be changed, whereby the contact condition between the first follower roller 53 and the lower moving cam 83 of the drive shaft 80 can be easily adjusted.
  • the support shaft 54a that rotatably supports the second follower roller 54 is an eccentric shaft, the support shaft 54a can be rotated only with respect to the lever 52.
  • the position of the 2-follower roller 54 can be changed, whereby the degree of contact between the second follower roller 54 and the upper moving cam 84 of the drive shaft 80 can be easily adjusted.
  • the present invention is not limited to the ones exemplified in the above embodiment, and can be appropriately modified without departing from the scope of the present invention.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Slide Fasteners (AREA)
PCT/JP2017/027168 2017-07-27 2017-07-27 ファスナーストリンガー製造装置 WO2019021413A1 (ja)

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CN201780093443.1A CN110996709B (zh) 2017-07-27 2017-07-27 拉链牙链带制造装置
PCT/JP2017/027168 WO2019021413A1 (ja) 2017-07-27 2017-07-27 ファスナーストリンガー製造装置
TW106140777A TWI642378B (zh) 2017-07-27 2017-11-23 拉鏈牙鏈帶製造機

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CN114603059A (zh) * 2020-12-07 2022-06-10 福建浔兴拉链科技股份有限公司 一种排咪机的打点传动机构及排咪机

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CN113786040B (zh) * 2021-10-22 2023-09-01 东莞市金美拉链科技有限公司 一种金属拉链颗粒牙制链机

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CN110996709B (zh) 2022-06-24

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