CN105710230A - Copper pin assembling mechanism of hidden zipper puller assembling machine - Google Patents
Copper pin assembling mechanism of hidden zipper puller assembling machine Download PDFInfo
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- CN105710230A CN105710230A CN201610219612.9A CN201610219612A CN105710230A CN 105710230 A CN105710230 A CN 105710230A CN 201610219612 A CN201610219612 A CN 201610219612A CN 105710230 A CN105710230 A CN 105710230A
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- copper pin
- plate
- riveted
- stacker
- riveting
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D39/00—Application of procedures in order to connect objects or parts, e.g. coating with sheet metal otherwise than by plating; Tube expanders
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D43/00—Feeding, positioning or storing devices combined with, or arranged in, or specially adapted for use in connection with, apparatus for working or processing sheet metal, metal tubes or metal profiles; Associations therewith of cutting devices
- B21D43/02—Advancing work in relation to the stroke of the die or tool
- B21D43/16—Advancing work in relation to the stroke of the die or tool by gravity, e.g. chutes
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D53/00—Making other particular articles
- B21D53/46—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples
- B21D53/50—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples metal slide-fastener parts
- B21D53/54—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples metal slide-fastener parts slides
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Portable Nailing Machines And Staplers (AREA)
Abstract
The invention discloses a copper pin assembling mechanism of a hidden zipper puller assembling machine, and relates to the field of zipper manufacturing. The copper pin assembling mechanism comprises a feeding mechanism and a riveting mechanism. The feeding mechanism comprises a copper pin track. The riveting mechanism comprises a bearing base and a riveting base. The bearing base is provided with a first riveting column, and a telescopic fine needle penetrates the first riveting column. The riveting base is provided with a second riveting column matched with the first riveting column. The riveting mechanism further comprises a drive assembly and a transmission assembly. The drive assembly drives the bearing base and the riveting base to move through the transmission assembly, and the bearing base and the riveting base are made to get close to each other when the first riveting column is staggered with the discharging end of the copper pin track and is aligned with the second riveting column. The copper pin assembling mechanism has the beneficial effects that the fine needle of the first riveting column is utilized for bearing copper pins rushing out of the discharging end of the copper pin track, the structure is simple, abrasion is not likely to happen, maintaining is convenient, and the maintaining cost is low; and pullers of different types can be produced.
Description
Technical field
The present invention relates to art of zipper fabrication, more specifically the copper pin bank mounting mechanism of a kind of invisible zipper head kludge.
Background technology
With reference to Figure 13, common invisible zipper head includes slider of zipper fastener body A, the vertical holes of pull head body is built with spring, the elongated slot of pull head body is embedded with horse hook B, the circular hole of horse hook B aligns with the lateral aperture of pull head body A, it is installed with in lateral aperture in the space that copper pin C, horse hook B and pull head body A are formed and is cased with lasso D, lasso D hangs with pulling-on piece E.At present, produce such slider of zipper fastener Full-automatic assembling machine and mainly completed feeding and assembly working by pull head feed mechanism, spring assembling mechanism, lasso assembling mechanism, horse hook assembling mechanism, copper pin bank mounting mechanism.
Authorization Notice No. CN202377410U Chinese utility model patent discloses a kind of band hat type copper pin mechanism for six formula invisible zipper head Full-automatic assembling machines, description [0020] is recorded: " during utility model works; when the main rotation dish 17 of calibration rotates copper pin bank dress station; being spaced apart through copper pin runner 12 by gas blow pipe from vibrating disk through discharging groove all night, single entrance chela 35 also aligns with pull head hole.Camshaft 05 band movable eccentric wheel 06 rotates simultaneously, thus driving sliding block 02 to slide in gliding groove 03, sliding block 02 drives pushing block 23 fixed thereon and riveted pushing block 25 to move, pushing block 24 and riveted pushing block 25 promote top shoe 21 and riveted seat 28 to slide in upper hopper chute 01 by spring 23, when top shoe 21 and riveted seat 28 move to riveted position and are subject to resistance, pushing block 24 and riveted pushing block 25, spring 23 is compressed, and the riveted push rod 26 being fixed on riveted pushing block 25 moves forward, owing to having inclined-plane to coordinate between riveted push rod 26 and riveted block 27, the motion of riveted push rod 26 can be converted into the move toward one another of a pair riveted block 27, such riveted block 27 just can extrude copper pin, realize riveted function." this copper pin mechanism there is problems in that in 1. clamping mechanism that the chela for clamping copper pin is easy to be worn or damage because copper pin bumps against with pull head; make chela cannot clamp copper pin securely, cause in the installing hole that copper pin cannot be loaded on pull head exactly;In order to ensure normal production, it is necessary to the chela more renewed at set intervals, not only affect production efficiency, also can increase production cost;2., for ensureing held more firm of copper pin, the inner side of each chela is held and can be offered a circular groove, owing to the required precision of this circular groove is high and difficult processing so that the cost that chela produces and changes increases.3. clamping mechanism makes whole copper pin mechanism structure complicated, and parts are on the high side, and maintenance is got up extremely onerous.4. the mode of this installing hole utilizing clamping mechanism that copper pin loads pull head is only used for producing No. 3 pull heads.Can collide with No. 4 pull heads or No. 5 pull heads when chela declines, therefore No. 4 pull heads and No. 5 pull heads cannot be produced.
Summary of the invention
The present invention provides the copper pin bank mounting mechanism of a kind of invisible zipper head kludge, purpose is in that to solve existing copper pin bank mounting mechanism structure complexity, parts are on the high side, can only produce No. 3 pull heads, and causes, because the easy grandson of chela damages, the problem that copper pin cannot accurately be installed, production cost is high.
The present invention adopts the following technical scheme that
A kind of copper pin bank mounting mechanism of invisible zipper head kludge, including feed mechanism and riveting mechanism, described feed mechanism includes copper pin rail road, described riveting mechanism includes stacker and riveted seat, described stacker is provided with the first riveted post that the discharge end with copper pin rail road aligns, this the first riveted post is equipped with a telescopic fine needle, and described riveted seat is provided with the second riveted post being oppositely arranged with the first riveted post and staggering up and down;Described riveting mechanism also includes driving assembly and transmission component, described driving assembly drives stacker and riveted seat to move by transmission component so that stacker and riveted seat are close to each other when the discharge end of the first riveted post Yu copper pin rail road mutually staggers and is mutually aligned with the second riveted post.
Further, above-mentioned transmission component includes installing rack, and this installing rack is provided with movable and that be sequentially connected with in the horizontal direction the first plate, spring and the Second Board, and described first plate is connected to and makes its described driving assembly moved back and forth along the length direction of spring;The upper surface of described first plate is equiped with one the 3rd plate, the upper surface of described the Second Board equipped with an assembly or fitting table, described stacker and riveted seat is movable is installed in assembly or fitting table;Described transmission component also includes making when assembly or fitting table moves forward stacker be downwardly inclined mobile thus allowing the gathering sill that the first riveted post and the second riveted post are mutually aligned;Described transmission component also includes making the Left Drive bar that stacker moves towards riveted seat and the right drive link making riveted seat move towards stacker when the 3rd plate is near assembly or fitting table.
Further, above-mentioned assembly or fitting table includes header board, top board and base plate, described base plate is provided with left mounting groove and right mounting groove, the lower surface of described stacker is provided with an installing port, described Left Drive bar is articulated in left mounting groove and is equipped with elastic reset part, one end of Left Drive bar is installed in installing port, and the other end is inconsistent by the sidewall of roller and the 3rd plate corner;The lower surface of described riveted seat is provided with a breach, and described right drive link is slidably arranged on right mounting groove, and one end of right drive link is provided with kink, and this kink is installed in described breach, and the other end and the 3rd plate of right drive link are connected.
Further, being additionally provided with a connecting rod between above-mentioned first plate and the Second Board, one end of described connecting rod is fixedly arranged on the first plate, and the other end is slidably arranged in the Second Board.
Further, above-mentioned driving assembly includes fixing seat, portable plate, eccentric and the motor driving eccentric to rotate, the upper surface of described fixing seat is provided with a chute, a through hole it is provided with bottom this chute, described portable plate and the first plate are connected and are slidably arranged in chute, the lower end of portable plate is provided with recess, and described eccentric is rotating to be installed in through hole, and eccentric eccentric shaft extends in the recess of portable plate.
Further, above-mentioned feed mechanism also includes body, support and interval clearance device, described copper pin rail road is provided with arc pore, one end of this arc pore is docked with body, the other end is described discharge end, described interval clearance device includes the left plate block and the right panel block that are connected with each other and lay respectively at the left and right sides, copper pin rail road, described left plate block is provided with left thimble, the other end of this left thimble is laterally arranged in arc pore movably, described right panel block is provided with right thimble, the other end of this right thimble is laterally arranged in arc pore movably, and mutually stagger with the bearing of trend of left thimble arcuately pore;Described interval clearance device also includes making the cylinder that right panel block moves back and forth along the length direction of right thimble.
Further, above-mentioned feed mechanism also includes Crashworthy plate, and described copper pin rail road is provided with a breach at the discharge end of arc pore, and described Crashworthy plate is provided with the extension suitable with breach, and Crashworthy plate can be articulated in copper pin rail road what indentation, there swung with extension.
Further, above-mentioned right thimble can elastic telescopic be arranged at right panel block.
By stating the description to present configuration it can be seen that present invention have the advantage that
One, the present invention include feed mechanism and riveting mechanism, and wherein feed mechanism includes copper pin rail road, and riveting mechanism includes being provided with the stacker of the first riveted post and being provided with the riveted seat of the second riveted post, and the first riveted post is equipped with a telescopic fine needle;Riveting mechanism also includes driving assembly and transmission component, drives assembly to drive stacker and riveted seat to move by transmission component.The fine needle utilizing the first riveted post accepts the copper pin gone out from the discharge end in copper pin rail road, compared to the existing mode utilizing chela to accept copper pin, have simple in construction, not easy to wear, be easy to the features such as maintenance, repair cost is low;And only need to change the different fine needle of thickness when producing the pull head of different model and finely tune parameter.Stacker and riveted seat is driven to move by driving assembly by transmission component so that stacker and riveted seat are close to each other when the discharge end of the first riveted post Yu copper pin rail road mutually staggers and is mutually aligned with the second riveted post.When stacker and riveted seat are close to each other, copper pin is loaded in pull head and passes through the first riveted post and the second riveted post by copper pin riveted by fine needle.The present invention completes copper pin bank dress and two steps of riveted with ingenious and quick mode one step, it is possible to be greatly enhanced the production efficiency of invisible zipper head kludge.
Two, in the present invention, feed mechanism also includes Crashworthy plate, and copper pin rail road is provided with a breach at the discharge end of arc pore, and described Crashworthy plate is provided with the extension suitable with breach, and Crashworthy plate can be articulated in copper pin rail road what indentation, there swung with extension.When rushing from discharge end, the front end of copper pin and fine needle is collided mutually, the effect that Crashworthy plate is subject to copper pin is softened, and now, copper pin can drop from indentation, there, it is prevented that copper pin deforms or is stuck in the arc pore of discharge end.
Three, in the present invention, right thimble can elastic telescopic be arranged at right panel block.When unexpected when the front end of right thimble and in arc pore copper pin is conflicted mutually, right thimble can back shrinkage, it is prevented that with copper pin generation hard collision and defective copper pin.
Accompanying drawing explanation
Fig. 1 is the present invention structural representation when the discharge end of stacker Yu copper pin rail road aligns.
Fig. 2 is present invention structural representation at another visual angle when the discharge end of stacker Yu copper pin rail road aligns.
Fig. 3 is the structural representation of feed mechanism in the present invention.
Fig. 4 is the decomposing schematic representation of feed mechanism in the present invention.
Fig. 5 is clearance device in interval in feed mechanism.
Fig. 6 is the assembling schematic diagram of Crashworthy plate in feed mechanism.
Fig. 7 is the decomposing schematic representation one of riveting mechanism in the present invention.
Fig. 8 is the decomposing schematic representation two of riveting mechanism in the present invention.
Fig. 9 is the connection diagram (wherein spring is not drawn into) of the first plate and the Second Board.
Figure 10 is the riveting mechanism structural representation (wherein top board is not drawn into) when stacker is mutually aligned with riveted seat.
Figure 11 is the riveting mechanism structural representation when stacker staggers mutually with riveted seat.
Figure 12 is the riveting mechanism structural representation when stacker is mutually aligned with riveted seat.
Figure 13 is the structural representation of invisible zipper head.
Detailed description of the invention
The specific embodiment of the present invention is described with reference to the accompanying drawings.
With reference to Fig. 1, Fig. 2 and Figure 11, the copper pin bank mounting mechanism of a kind of invisible zipper head kludge, include copper pin rail road a1 including feed mechanism a and riveting mechanism b, feed mechanism a.Riveting mechanism b includes stacker 1 and riveted seat 2.Stacker 1 is provided with the first riveted post 11 that the discharge end with copper pin rail road a1 aligns, and this first riveted post 11 is equipped with a telescopic fine needle 111.Riveted seat 2 is provided with the second riveted post 21 being oppositely arranged with the first riveted post 11 and staggering up and down.Riveting mechanism b also includes driving assembly b2 and transmission component b1, assembly b2 is driven to drive stacker 1 and riveted seat 2 to move by transmission component b1 so that stacker 1 and riveted seat 2 are close to each other when the first riveted post 11 mutually staggers with the discharge end of copper pin rail road a1 and is mutually aligned with the second riveted post 21.
With reference to Fig. 1, Fig. 2, Fig. 3, Figure 4 and 5, feed mechanism a also includes body a2, support a3 and interval clearance device a4.Copper pin rail road a1 is provided with arc pore a101, and one end of this arc pore a101 is docked with body a2, and the other end is above-mentioned discharge end.Clearance device a4 in interval includes the left plate block a41 and right panel block a43 that are connected with each other and are laid respectively at the a1 left and right sides, copper pin rail road by two latch a42 being arranged in copper pin rail road a1 movably, wherein left plate block a41 is provided with left thimble a411, and the other end of this left thimble a411 is laterally arranged in arc pore a101 movably.Right panel block a43 is provided with right thimble a431, and the other end of this right thimble a431 is laterally arranged in arc pore a101 movably, and mutually staggers with the bearing of trend of left thimble a411 arcuately pore a101.Clearance device in interval also includes making the right panel block a43 cylinder a44 moved back and forth along the length direction of right thimble a431.
With reference to Fig. 3, Figure 4 and 5, preferably: right panel block a43 is provided with through hole a432, right thimble a431 by connector a45 can elastic telescopic be arranged at through hole a432, when unexpected and in arc pore a101 the copper pin in the front end of right thimble a431 is conflicted mutually, right thimble a431 can back shrinkage, it is prevented that with copper pin generation hard collision and defective copper pin.
With reference to Fig. 1, Fig. 3, Fig. 4 and Fig. 6, feed mechanism a also includes Crashworthy plate a5, copper pin rail road a1 and is provided with a breach a102 at the discharge end of arc pore a101.Crashworthy plate a5 is provided with the extension a501 suitable with breach a102.Crashworthy plate a5 is articulated in copper pin rail road a1 by connector a51 with what extension a501 can swing at breach a102 place and is equipped with elastic reset part (not shown in FIG.).
With reference to Fig. 7, Fig. 9, transmission component b1 includes installing rack, this installing rack includes installing rack body 31, front apron 32 and two press strips 33, the upper surface of installing rack body 31 is provided with chute 311, is provided with movable and that be sequentially connected with in the horizontal direction the first plate 41, spring 43 and the Second Board 42 in this chute 311.First plate 41 and the Second Board 42 are all in convex, first plate 41 and the Second Board 42 are equipped with two blind holes for installing spring 311, preferably: in order to better define the mutual motion between the first plate 41 and the Second Board 42, a connecting rod 44 it is additionally provided with between first plate 41 and the Second Board 42, one end of connecting rod 44 is fixedly arranged on the first plate 41 by mounting groove 411, and the other end is slidably arranged in the Second Board 42 by draw-in groove 421.The face that holds of front apron 32 is provided with one for installing the breach 321 of buffering blob of viscose (not shown in FIG.).Installing rack body 31 is provided with an inclined plane 312 in the front end of chute 311, affects the Second Board 42 and slides preventing the copper pin dropped from accumulating in chute 311.
With reference to Fig. 7, Figure 10, Figure 11 and Figure 12, the upper surface of the first plate 41 is equiped with one the 3rd plate 6, and the upper surface of the Second Board 42 is equipped with an assembly or fitting table.Stacker 1 and riveted seat 2 is movable is installed in above-mentioned assembly or fitting table;Transmission component b1 also includes making when above-mentioned assembly or fitting table moves forward stacker 1 be downwardly inclined mobile thus allowing the gathering sill 7 that the first riveted post 11 and the second riveted post 21 are mutually aligned;Transmission component b1 also includes making the Left Drive bar 10 that stacker 1 moves towards riveted seat 2 and the right drive link 20 making riveted seat 2 move towards stacker 1 when the 3rd plate 6 is near above-mentioned assembly or fitting table.
With reference to Fig. 7 and Figure 10, the first riveted post 11 is detachably arranged in stacker 1 by connector 14, and fine needle 111 is by connector 15 and torsion spring 151 is telescopic is arranged in the first riveted post 11.
With reference to Fig. 1, Fig. 7 and Figure 10, as specific embodiments: assembly or fitting table includes header board 51, top board 53 and base plate 52.Wherein header board 51 is provided with breach 511, and base plate 52 is provided with left mounting groove 521 and right mounting groove 522, and base plate 52 and header board 51 form mounting groove 523.Stacker 1 and riveted seat 2 is mobilizable is installed in mounting groove 523, base plate 52 is provided with one for holding the cylinder 54 of slider of zipper fastener rear end by connector 541 between stacker 1 and riveted seat 2;Gathering sill 7 is installed with the sidewall of installing rack body 31 by connector 71, and is positioned at by the side of above-mentioned assembly or fitting table.Stacker 1 is provided with extension 13, and this extension 13 is slidably arranged in gathering sill 7.The lower surface of stacker 1 is provided with an installing port 12, Left Drive bar 10 is articulated in left mounting groove 521 and is equipped with elastic reset part 101, one end of Left Drive bar 10 is installed in installing port 22, the other end is inconsistent near the sidewall of corner by roller 102 and the 3rd plate 6, elastic reset part 101 one end is connected to Left Drive bar 10, and the other end is connected to the rear wall of top board 53;The lower surface of riveted seat 2 is provided with a breach 22, and one end of right drive link 522 is provided with kink 201.Right drive link 20 is slidably arranged on right mounting groove 522, and the kink 201 of right drive link 20 is installed in breach 22, and the other end of right drive link 20 is connected with the 3rd plate 6 by connector 61.
With reference to Fig. 7 and Figure 10, the first plate 41 is connected to and makes its driving assembly b2 moved back and forth along the length direction of spring 43 in chute 311.As specific embodiments: drive assembly b2 to include fixing seat, portable plate 81, eccentric 83 and the motor (not shown in FIG.) driving eccentric to rotate.Above-mentioned fixing seat includes installing plate 82 and fixing plate 84, and the upper surface of installing plate 82 is provided with chute 821, is provided with a through hole 822 bottom chute 821.Installing rack body 31 is installed on installing plate 82, and installing plate 82 is installed on fixing plate 84.Portable plate 81 is connected with the first plate 41 by connector 8141 and is slidably arranged in chute 821.The lower end of portable plate 81 is provided with recess 811, and eccentric 83 is rotating to be installed in through hole 822, and the eccentric shaft 831 of eccentric 83 extends in the recess 811 of portable plate 81.Fixing plate 84 is equipped with power transmission shaft 85, and is equipped with bearing 86.One end of power transmission shaft 85 is connected with eccentric 831, and the other end is connected with motor (not shown in FIG.) by angular wheel 87.
With reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, the method for work of feed mechanism a: copper pin is blown into from the upper end of body a2 by (1) by the effect of air-flow;(2) copper pin enters arc pore a101 through body a2, driven right panel block a43 and left plate block a41 towards moving left by cylinder a44, make right thimble a431 extend in arc pore a101, left thimble a411 is reduced to outside arc pore a101, is stopped by first copper pin by right thimble a431;(3) driven right panel block a43 and left plate block a41 towards moving right by cylinder a44, make right thimble a431 be reduced to outside arc pore a101, left thimble a411 extends in arc pore a101, by left thimble a11, second copper pin is stopped, and first copper pin is let pass, towards discharge end landing;(4) constantly repeat step (3) and step (4), allow multiple copper pin in arc pore a101 one by one and spaced towards discharge end landing.
With reference to Fig. 1, Fig. 2 and Fig. 6, the copper pin gone out from discharge end can be placed on the fine needle 111 of stacker 1 automatically.When rushing from discharge end, the front end of copper pin and fine needle 111 is collided mutually, Crashworthy plate a5 is softened because being subject to the effect of copper pin, and now, copper pin can drop from breach a102 voluntarily, to avoid copper pin to deform or to be stuck in the arc pore a101 of discharge end.
With reference to Fig. 1, Fig. 2, Fig. 7, Fig. 9, Figure 10, Figure 11 and Figure 12, the method for work of riveting mechanism b: (1) is rotated by power transmission shaft 85 band movable eccentric wheel 83 by motor (not shown in FIG.), allow portable plate 81 towards front slide in chute 821;(2) portable plate 81 drives the first plate 41 to synchronize towards front slide by connector 8141, simultaneously because spring 43 hold effect, the Second Board 42 synchronizes towards front slide with the first plate 41: time (3) first plates 41 and the Second Board 43 synchronize towards front slide, drives the 3rd plate 6, right drive link 20, base plate 52, stacker 1 and riveted seat 2 entirety to move forward;In the process that entirety moves forward, stacker 1 is downwardly inclined movement because being subject to the guide effect of gathering sill 7 so that the first riveted post 11 of stacker 1 is staggered with the discharge end of copper pin rail road a1;(4) when the first riveted post 11 of stacker 1 aligns with the second riveted post 21 of riveted seat 2, the Second Board 42 is inconsistent with front apron 32 and stops sliding, and base plate 52, stacker 1 and riveted seat also stop mobile therewith;(5) and owing to spring 43 and connecting rod 44 exist, the first plate 41 continues towards front slide with portable plate 81 and compresses spring 43, and the 3rd plate 6 moves with the first plate 41 and forward near the rear end of base plate 52;(6) the 3rd plates 6 move and forward when the rear end of base plate 52, due to roller 102 and the 3rd plate 6 conflict effect mutually, Left Drive bar 10 is rotated counterclockwise, the front end of Left Drive bar 10 drives stacker 1 towards moving right, thus being loaded by copper pin in the installing hole of slider of zipper fastener (not shown in FIG.) and near riveted seat 2;Meanwhile, right drive link 20 moves forward, due to the existence of kink 201 and installing port 22 so that riveted seat 2 is towards moving left, with near stacker 1;Stacker 1 and riveted seat 2 is close to each other copper pin can be riveting in slider of zipper fastener.(7) rotated by power transmission shaft 85 band movable eccentric wheel 83 by motor (not shown in FIG.), allow portable plate 81 slide backwards in chute 821, first drive the first plate 41 and the 3rd plate 6 to move backwards, make stacker 1 and riveted seat 2 be located remotely from each other;(8) portable plate 81 continuation in chute 821 is slided backwards, by connecting rod 44, the Second Board 42 is driven to move backwards with the first plate, so that stacker 1 inclination movement upward, stacker 1 and riveted seat 2 is allowed mutually to stagger, the the first riveted post 11 finally making stacker 1 aligns with the discharge end of copper pin rail road a1 again, fine needle 111 receive next copper pin.
Above are only the specific embodiment of the present invention, but the design concept of the present invention is not limited thereto, all changes utilizing this design that the present invention carries out unsubstantiality, the behavior invading scope all should be belonged to.
Claims (8)
1. the copper pin bank mounting mechanism of an invisible zipper head kludge, including feed mechanism and riveting mechanism, described feed mechanism includes copper pin rail road, it is characterized in that: described riveting mechanism includes stacker and riveted seat, described stacker is provided with the first riveted post that the discharge end with copper pin rail road aligns, this the first riveted post is equipped with a telescopic fine needle, and described riveted seat is provided with the second riveted post being oppositely arranged with the first riveted post and staggering up and down;Described riveting mechanism also includes driving assembly and transmission component, described driving assembly drives stacker and riveted seat to move by transmission component so that stacker and riveted seat are close to each other when the discharge end of the first riveted post Yu copper pin rail road mutually staggers and is mutually aligned with the second riveted post.
2. the copper pin bank mounting mechanism of a kind of invisible zipper head kludge according to claim 1, it is characterized in that: described transmission component includes installing rack, this installing rack is provided with movable and that be sequentially connected with in the horizontal direction the first plate, spring and the Second Board, and described first plate is connected to and makes its described driving assembly moved back and forth along the length direction of spring;The upper surface of described first plate is equiped with one the 3rd plate, the upper surface of described the Second Board equipped with an assembly or fitting table, described stacker and riveted seat is movable is installed in assembly or fitting table;Described transmission component also includes making when assembly or fitting table moves forward stacker be downwardly inclined mobile thus allowing the gathering sill that the first riveted post and the second riveted post are mutually aligned;Described transmission component also includes making the Left Drive bar that stacker moves towards riveted seat and the right drive link making riveted seat move towards stacker when the 3rd plate is near assembly or fitting table.
3. the copper pin bank mounting mechanism of a kind of invisible zipper head kludge according to claim 2, it is characterized in that: described assembly or fitting table includes header board, top board and base plate, described base plate is provided with left mounting groove and right mounting groove, the lower surface of described stacker is provided with an installing port, described Left Drive bar is articulated in left mounting groove and is equipped with elastic reset part, one end of Left Drive bar is installed in installing port, and the other end is inconsistent by the sidewall of roller and the 3rd plate corner;The lower surface of described riveted seat is provided with a breach, and described right drive link is slidably arranged on right mounting groove, and one end of right drive link is provided with kink, and this kink is installed in described breach, and the other end and the 3rd plate of right drive link are connected.
4. the copper pin bank mounting mechanism of a kind of invisible zipper head kludge according to claim 2, it is characterized in that: between described first plate and the Second Board, be additionally provided with a connecting rod, one end of described connecting rod is fixedly arranged on the first plate, and the other end is slidably arranged in the Second Board.
5. the copper pin bank mounting mechanism of a kind of invisible zipper head kludge according to claim 2, it is characterized in that: described driving assembly includes fixing seat, portable plate, eccentric and the motor driving eccentric to rotate, the upper surface of described fixing seat is provided with a chute, a through hole it is provided with bottom this chute, described portable plate and the first plate are connected and are slidably arranged in chute, the lower end of portable plate is provided with recess, described eccentric is rotating to be installed in through hole, and eccentric eccentric shaft extends in the recess of portable plate.
6. the copper pin bank mounting mechanism of a kind of invisible zipper head kludge according to claim 1, it is characterized in that: described feed mechanism also includes body, support and interval clearance device, described copper pin rail road is provided with arc pore, one end of this arc pore is docked with body, the other end is described discharge end, described interval clearance device includes the left plate block and the right panel block that are connected with each other and lay respectively at the left and right sides, copper pin rail road, described left plate block is provided with left thimble, the other end of this left thimble is laterally arranged in arc pore movably, described right panel block is provided with right thimble, the other end of this right thimble is laterally arranged in arc pore movably, and mutually stagger with the bearing of trend of left thimble arcuately pore;Described interval clearance device also includes making the cylinder that right panel block moves back and forth along the length direction of right thimble.
7. the copper pin bank mounting mechanism of a kind of invisible zipper head kludge according to claim 6, it is characterized in that: described feed mechanism also includes Crashworthy plate, described copper pin rail road is provided with a breach at the discharge end of arc pore, described Crashworthy plate is provided with the extension suitable with breach, and Crashworthy plate can be articulated in copper pin rail road what indentation, there swung with extension.
8. the copper pin bank mounting mechanism of a kind of invisible zipper head kludge according to claim 6, it is characterised in that: described right thimble can elastic telescopic be arranged at right panel block.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610219612.9A CN105710230B (en) | 2016-04-11 | 2016-04-11 | A kind of copper pin bank mounting mechanism of invisible zipper head kludge |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610219612.9A CN105710230B (en) | 2016-04-11 | 2016-04-11 | A kind of copper pin bank mounting mechanism of invisible zipper head kludge |
Publications (2)
Publication Number | Publication Date |
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CN105710230A true CN105710230A (en) | 2016-06-29 |
CN105710230B CN105710230B (en) | 2017-07-14 |
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CN201610219612.9A Active CN105710230B (en) | 2016-04-11 | 2016-04-11 | A kind of copper pin bank mounting mechanism of invisible zipper head kludge |
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Cited By (1)
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CN109731996A (en) * | 2019-01-31 | 2019-05-10 | 深圳市金玲珑珠宝首饰有限公司 | A kind of full-automatic split-mounting type necklace mold |
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CN205414176U (en) * | 2016-04-11 | 2016-08-03 | 泉州市旭麟机械制造有限公司 | Stealthy zipper assembly machine's copper round pin equipment mechanism |
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KR20040013168A (en) * | 2002-08-01 | 2004-02-14 | 박규봉 | Consecutive assembling apparatus for slider of fastener |
CN102525044A (en) * | 2011-12-31 | 2012-07-04 | 唐正彪 | Six-part full-automatic assembly machine for invisible zipper puller |
CN202377410U (en) * | 2011-12-31 | 2012-08-15 | 唐正彪 | Cap type copper pin mechanism for six-piece type invisible zipper puller full-automatic assembly machine |
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CN109731996A (en) * | 2019-01-31 | 2019-05-10 | 深圳市金玲珑珠宝首饰有限公司 | A kind of full-automatic split-mounting type necklace mold |
CN109731996B (en) * | 2019-01-31 | 2024-04-16 | 深圳市金玲珑珠宝首饰有限公司 | Full-automatic assembled combined necklace die |
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