CN104273806A - Metal zipper granulator - Google Patents

Abstract

A metal zipper granulator comprises a feed component. The feed component comprises a feed plate, two push air cylinders and two push rods. The feed plate is used for supplying particles for manufacturing metal zippers, the push air cylinders are arranged on two sides of the feed plate relatively, the telescopic directions of the push air cylinders are perpendicular to the moving direction of the feed plate, one ends of the push rods are connected with the push air cylinders, the push air cylinders drive the push rods to be telescopic, and the push rods are used for being combined with the particles on the feed plate and driving the particles to move to a preset machining position. In the metal zipper granulator, the push rods push the particles to the preset position, motion tracks of the particles can be guaranteed, the problem that the particles cannot reach the preset position is avoided, and high production yield is achieved.

Description

Metal zipper granule machine

Technical field

The present invention relates to a kind of zipper granule machine, particularly relate to metal zipper granule machine.

Background technology

Along with the development of clothing decoration technique, on the clothing that slide fastener has been widely applied to people and ornament.Conventional slide fastener has metal zip fastener, nylon zipper and glue tooth slide fastener according to the material of zipper sprocket.In traditional metal zip fastener manufacturing process, metal zipper granule freely drops the space entered between push type broach from loading plate, and the profile due to particle such as to change at the factor, easily causes particle to be stuck in inside loading plate and does not enter between push type broach.When push type broach presses down particle time, owing to there is no particle herein, then can produce a breach on chain band, cause the off quality of slide fastener, affect the production quality of slide fastener.

Summary of the invention

Based on this, be necessary to provide a kind of metal zipper granule machine that can improve slide fastener production qualification rate.

A kind of metal zipper granule machine, comprise feeding material component, described feeding material component comprises loading plate, two pusher cylinders and two push rods;

Described loading plate manufactures the particle of metal zip fastener for supplying;

Described two pusher cylinders are located at the both sides of described loading plate relatively, and the telescopic direction of described two pusher cylinders is vertical with the direction of motion of described particle on loading plate;

One end of described push rod is connected with described pusher cylinder, and described pusher cylinder drives described push rod to stretch, and described push rod is combined for the particle on loading plate and drives described movement of particles to arrive predetermined Working position.

Wherein in an embodiment, described feeding material component also comprises two displacement transducers and two alarms, institute's displacement sensors is located on described pusher cylinder, institute's displacement sensors is for measuring the forward travel distance of described push rod, alarm is connected by controller communication with institute displacement sensors, described alarm receives the forward travel distance of the described push rod of described displacement sensor, and the forward travel distance of described push rod is greater than alarm value, described alarm equipment alarm.

Wherein in an embodiment, also comprise die module, described die module is located at the top of described feeding material component, and described die module comprises pressing mold cylinder, pressing mold slide block, dip mold, top die;

The telescopic direction of described pressing mold cylinder is vertical with the telescopic direction of described push rod; described pressing mold slide block is connected with described pressing mold cylinder; described pressing mold slide block is connected with described top die and dip mold; to make described top die and dip mold motion; described dip mold is provided with slide rail; described slide rail and described push rod are positioned at same plane, and described particle is shifted onto on described slide rail by described push rod.

Wherein in an embodiment, described top die comprises shaft-like body and is located at the briquetting of described body one end, and described briquetting is provided with cambered surface, and described cambered surface is used for and described Particle Phase pressure holding.

Wherein in an embodiment, described dip mold is provided with projection in the side of slide rail, and the top of described projection is provided with wedge angle, and described wedge angle and described strap abut against, described wedge angle is used for described strap to be divided into two, and described two straps slide into the bottom of described projection from the both sides of described wedge angle.

Wherein in an embodiment, described die module also comprises pressing mold limiting cylinder, position limiting slide block, the telescopic direction of described pressing mold limiting cylinder is parallel with the telescopic direction of described pusher cylinder, the telescopic direction of described pressing mold limiting cylinder is vertical with the telescopic direction of described pressing mold cylinder, described pressing mold limiting cylinder drives described position limiting slide block to slide, described position limiting slide block translation, described position limiting slide block and described dip mold abut against to stop that described dip mold moves down, and described top die continues to move down to press down described particle.

Wherein in an embodiment, also comprise and press only assembly, described in press only assembly comprise pressure upper lever stopper, press only seat, press only cylinder, press stopping bar and press only head;

Described pressure upper lever stopper is thin-and-long, the described only cylinder that presses is located at the lower surface of one end of described pressure upper lever stopper, the described only seat that presses is located at the upper surface of the other end of described pressure upper lever stopper, the described upper surface of telescopic end through described pressure upper lever stopper pressing only cylinder, described press stopping bar middle part and the described only seat that presses be rotatably connected, described in press stopping bar one end be connected with described telescopic end;

The described only head that presses is arranged in described pressure upper lever stopper away from described one end pressing only cylinder, and described in press only that head is relative to described pressure upper lever stopper slidably, described press stopping bar the other end and the described only head that presses be rotatably connected, described pressing stops Telescopic-cylinder, press described in making stopping bar with described press only seat for rotating in the center of circle, described in press stopping bar drive described in press only head lifting; The described only head that presses is connected with described top die described top die is moved.

Wherein in an embodiment, described loading plate is rectangle, and the both sides of described loading plate are respectively equipped with material road, and two described material roads are parallel to each other, and the bearing of trend in described material road moves along described material road with the axial vertical of described push rod, described particle.

Wherein in an embodiment, described feeding material component comprises base plate, pusher slide, and described pusher slide is located on described base plate, and described pusher slide is provided with chute, and described push rod is along described runner movement.

Wherein in an embodiment, also comprise binder assembly, described binder assembly comprises holder, binder head, described holder is fixed at described pusher slide one end away from described pusher cylinder, described binder head is rotatably located on described holder, and described holder and described material road are oppositely arranged, and described particle moves to described holder place along described material road, particle described in the pressure holding of described binder head, docks with described particle to make described push rod.

In above-mentioned metal zipper granule machine, by push rod, particle is pushed to precalculated position, the movement locus of particle can be ensured, prevent particle from accurately can not arrive precalculated position.Compared with traditional Particle free falling bodies to precalculated position; avoid particle freely falling body in material road; cause particle to be easily stuck in the problem in material road, above-mentioned metal zipper granule machine can ensure that particle accurately can arrive precalculated position, has higher production qualification rate.

Further, the displacement of being advanced by displacement sensor push rod, can detect whether particle is positioned at the top of push rod.As fruit granule is not positioned at the top of push rod, when push rod arrive regulation advance displacement time, owing to not having particle spacing on the top of push rod, then push rod can move on, then the displacement of advancing of push rod can be greater than particle and be present in displacement of advancing on push rod.By alarm equipment alarm, prompting staff checks, can prevent slide fastener from producing breach, affect the production qualification rate of slide fastener.

Accompanying drawing explanation

Fig. 1 is the three-dimensional structure diagram of the metal zipper granule machine of an embodiment;

The three-dimensional assembly diagram that Fig. 2 is the feeding material component shown in Fig. 1 and binder assembly;

The explosive view that Fig. 3 is the feeding material component shown in Fig. 1 and binder assembly;

The partial enlarged drawing of the explosive view that Fig. 4 is the feeding material component shown in Fig. 3 and binder assembly;

Fig. 5 is the three-dimensional structure diagram of the die module of the metal zipper granule machine shown in Fig. 1;

Fig. 6 is the explosive view of the die module shown in Fig. 5;

The top die of Fig. 7 for the die module shown in Fig. 6 and the three-dimensional structure diagram of dip mold;

What Fig. 8 was the metal zipper granule machine shown in Fig. 1 presses the three-dimensional structure diagram stopping assembly;

Fig. 9 is the explosive view pressing only assembly shown in Fig. 8.

Detailed description of the invention

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully.Better embodiment of the present invention is given in accompanying drawing.But the present invention can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make to disclosure of the present invention understand more thorough comprehensively.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement just for illustrative purposes, do not represent it is unique embodiment.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present invention understand usually.The object of term used in the description of the invention herein just in order to describe concrete embodiment, is not intended to be restriction the present invention.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

Refer to Fig. 1 and Fig. 2, the metal zipper granule machine 10 of present embodiment comprises feeding material component 100, binder assembly 200, die module 300 and presses only assembly 400.Feeding material component 100 for particle is accurately delivered to precalculated position, binder assembly 200 for particle contacts, particle is accurately docked with the push rod of feeding material component 100.Die module 300, for pressing down the particle being positioned at precalculated position, makes particle be fixed on the strap of slide fastener, forms slide fastener.Pressing only assembly 400, for providing power for die module 300, drives die module 300 to press down particle.

Refer to Fig. 2 and Fig. 3, feeding material component 100 comprises loading plate 110, two pusher cylinders 120, two push rods 130, two displacement transducer (not shown), alarm (not shown) and controller (not shown).Pusher cylinder 120 drives push rod 130 to stretch.Displacement sensor is for measuring the displacement size of push rod 130.Alarm judges to report to the police according to displacement size.Controller is used for the side measurement data according to displacement transducer, alarm is sent to the signal of warning.

Particle first puts into vibrating disk 140.Vibrating disk 140 is the auxiliary feeding equipment of a kind of automatic Composition or automatic processing machine, and particle moves on feeding material component 100 from vibrating disk 140.Vibrating disk 140 can arrange out particle in an orderly manner.Feeding material component 100 is located at the side of vibrating disk 140, and loading plate 110 is located at the discharge end of vibrating disk 140.Loading plate 110 connects with the discharge end of vibrating disk 140.Particle (not shown) moves on loading plate 110 from vibrating disk 140.Particle automatically carries out ordered arrangement and moves to loading plate with linear array in vibrating disk after vibration, and produce the thrust moved forward to the particle entering loading plate 110, particle moves to the other end from loading plate 110 near one end of vibrating disk 140.Concrete loading plate 110 is rectangle in the present embodiment, and the both sides of loading plate 110 are respectively equipped with material road 111, Liang Geliao road 111 is parallel to each other, the material bearing of trend in road 111 and the axial vertical of push rod 130, particle arranges in an orderly manner along material road 111, and Bing Yanliao road 111 moves.

Two pusher cylinders 120 are located at loading plate 110 one end away from vibrating disk 140, and two pusher cylinders 120 are located at the both sides of loading plate 110 relatively, and the telescopic direction of two pusher cylinders 120 is vertical with the direction of motion of particle on loading plate 110.Namely the telescopic direction of pusher cylinder 120 is vertical with the bearing of trend in material road 111.

One end of push rod 130 is connected with pusher cylinder 120, and pusher cylinder 120 drives push rod 130 to stretch.The telescopic direction of push rod 130 is vertical with the bearing of trend in material road 111.Two pusher cylinders 120 stretch, drive two push rods 130 towards or dorsad loading plate 110 move.The other end of push rod 130 is positioned at the end in material road 111.When movement of particles is to the end position corresponding with push rod 130 in material road 111, push rod 130 advances and is combined with particle, to change the original movement locus of particle and to drive movement of particles to precalculated position.Therefore above-mentioned metal zipper granule machine 10 promotes movement of particles to precalculated position by push rod 130; compared with traditional Particle free falling bodies to precalculated position; avoid particle freely falling body in material road; cause particle to be easily stuck in the problem in material road, above-mentioned metal zipper granule machine 10 can ensure that particle accurately can arrive precalculated position.

Displacement transducer is located on pusher cylinder 120.Displacement transducer is also called linear transducer, and be a kind of linear unit belonging to metal induction, the effect of sensor is that various measurand is converted to electricity.Conventional displacement transducer is in the majority with analog structure type, comprises potentiometric displacement transducer, inductive displacement transducer, capacitive displacement transducer, electric vortex type displacement sensor, Hall displacement transducer etc.Displacement transducer is for measuring the forward travel distance of push rod 130.Push rod 130 promotes particle and advances, and as fruit granule exists, then particle arrives precalculated position, and particle then can be located.As fruit granule does not exist, then push rod 130 can be crossed the precalculated position of particle and move on, and therefore, the distance that time particle is non-existent, push rod 130 advances can be greater than the distance that time particle exists, push rod 130 advances.

Alarm is connected with displacement transducer communication.Alarm receives the forward travel distance of the push rod 130 of displacement sensor.Because particle has certain thickness, have the forward travel distance of push rod during particle to be less than the forward travel distance of push rod when not having particle, displacement transducer can detect the difference of this distance, feeds back to the signal that controller is different.When the forward travel distance of push rod 130 be greater than have particle time the push rod distance of advancing, controller receives push rod forward travel distance and greatly namely represents agranular signal, illustrate now push rod 130 does not exist particle, controller sends to the signal of alarm equipment alarm, alarm equipment alarm, alert, stops board action.Therefore above-mentioned metal zipper granule machine 10 can check whether particle exists, and prevents slide fastener from producing breach due to particle disappearance.

Please refer to Fig. 3, specifically in the present embodiment, push rod 130 is provided with stage portion 131 away from one end of pusher cylinder 120, stage portion 131 for particle clamping.Particle roughly takes the shape of the letter U.Therefore stage portion 131 can be contained in particle, and push rod 130 is comparatively firmly connected with particle.

Feeding material component 100 also comprises base plate 150 and pusher slide 160.Pusher slide 160 is located on base plate 150, and pusher slide 160 is provided with chute 161, and push rod 130 moves along chute 161.

Specifically in the present embodiment, refer to Fig. 4, binder assembly 200 comprises holder 210, binder head 220.Binder head 220 for particle contacts, when movement of particles is to the position corresponding with push rod 130, binder head 220 presses down and makes particle stop vibration, ensure that push rod 130 accurately can dock with particle and make particle be combined on push rod 130, to ensure that the advance of push rod 130 can drive particle to arrive precalculated position.

Holder 210 is fixed at pusher slide 160 one end away from pusher cylinder 120.Holder 210 is fixedly connected with pusher slide 160 by screw.Binder head 220 is rotatably located on holder 210.Push rod 130 stretches, stage portion 131 near or away from binder head 220.Binder Tou220Yu Liao road 111 is oppositely arranged, and particle moves to the end in material road 111 along material road 111, and particle is relative with binder head 220.When push rod 130 docks with particle time, because particle is vibrating with loading plate 110, push rod 130 is not easy dock intact with particle.Binder head 220 and particle contacts, because the space formed between binder head 220 and push rod 130 is close with grain shape, guarantee that particle is in a plateau in this space, and particle stops vibration, docks smoothly with particle to make the stage portion 131 of push rod 130.

Refer to Fig. 4, particularly, holder 210 is provided with waist hole 230.Screw is contained in waist hole 230, is fastenedly connected holder 210 and pusher slide 160.Screw can move in waist hole 230, can regulate the position of the binder head 220 on holder 210, and binder Tou220Yu Liao road 111 is aimed at.

After push rod 130 docks with particle, because binder head 220 is rotatable relative to holder 210, push rod 130 continues motion, and binder head 220 rotates and departs from particle, push rod 130 drives particle to depart from material road 111 and continues motion, until movement of particles is to precalculated position.Precalculated position is the position processed particle.

Refer to Fig. 3, Fig. 5 and Fig. 6, die module 300 is for being pressed to the particle being positioned at precalculated position.Die module 300 is the centres being arranged on two feeding material components 100.Die module 300 comprises pressing mold cylinder 310, pressing mold slide block 320, dip mold 330, top die 340.Pressing mold cylinder 310 drives dip mold 330 and top die 340 to move by pressing mold slide block 320.

The telescopic direction of pressing mold cylinder 310 is vertical with the telescopic direction of push rod 130.Pressing mold slide block 320 is connected with pressing mold cylinder 310, and pressing mold slide block 320 is connected with top die 340 and dip mold 330, moves to make top die 340 and dip mold 330.The top of loading plate 110 is located at by top die 340 and dip mold 330.

Refer to Fig. 7, dip mold 330 is provided with slide rail 331, and slide rail 331 and push rod 130 are positioned at same plane, and particle is shifted onto on slide rail 331 by push rod 130, and particle can abut against with top die 340, then push rod 130 halts, and particle arrives precalculated position.Now push rod 130 return back to initial position.Dip mold 330 is provided with projection 332 in the side of slide rail 331.The top of projection 332 is provided with wedge angle 333, and wedge angle 333 and strap (not shown) abut against, and wedge angle 333 is for being divided into two by the strap of slide fastener, and two straps slide into the bottom of projection 332 from the both sides of wedge angle 333.The both sides of the bottom of projection 332 offer accepting groove 334, and accepting groove 334 is for accommodating strap.Two straps slide into the bottom of projection 332 and are contained in respectively in accepting groove 334.Strap slides into the bottom of projection 332, and bearing of trend and the slide rail 331 of strap are perpendicular, and particle is positioned on slide rail 331, then particle is relative with the position of strap.

Refer to Fig. 2 and Fig. 3, die module 300 also comprises pressing mold limiting cylinder 350, position limiting slide block 360.The telescopic direction of pressing mold limiting cylinder 350 is parallel with the telescopic direction of pusher cylinder 120, and the telescopic direction of pressing mold limiting cylinder 350 is vertical with the telescopic direction of pressing mold cylinder 310.Pressing mold limiting cylinder 350 drives position limiting slide block 360 to slide, position limiting slide block 360 translation.Position limiting slide block 360 and dip mold 330 abut against to stop that dip mold 330 moves down, and top die 340 continues to move down to press down particle.

Refer to Fig. 8 and Fig. 9, specifically in the present embodiment, press and stop assembly 400 for driving top die 340 downward motion.Press only assembly 400 comprise pressure upper lever stopper 410, press only seat 420, press only cylinder 430, press stopping bar 440 and press only 450.Press only cylinder 430 to be connected with the one end pressing stopping bar 440.Press the other end lifting of stopping bar 440 in only cylinder 430 telescopic band dynamic pressure, the other end pressing stopping bar 440 is elevated thus drives and presses only 450 lifting.Press and only 450 to be connected with top die 340, press only 450 motion and drive top dies 340 to continue to move, shaping with compressed granulate.

Pressure upper lever stopper 410 is thin-and-long.Press the lower surface that only cylinder 430 is located at one end of pressure upper lever stopper 410, press the upper surface that only seat 420 is located at the other end of pressure upper lever stopper 410.Press the upper surface of telescopic end through pressure upper lever stopper 410 of only cylinder 430, the middle part pressing stopping bar 440 with press only seat 420 and be rotatably connected.The one end pressing stopping bar 440 is connected with telescopic end.

Press and only 450 be arranged in pressure upper lever stopper 410 away from pressing on one end of only cylinder 430, and press only 450 relative to pressure upper lever stopper 410 slidably, the other end pressing stopping bar 440 only 450 is rotatably connected with pressing.

Concrete press stopping bar 440 and realizes being rotatably connected by rotating shaft 460 with the described only seat 420 that presses in the present embodiment, and press and stop seat 420 and have certain height, can be that the center of circle rotates with rotating shaft to make to press stopping bar 440.Further, press only seat 420 and be located at pressure upper lever stopper 410 near the one end pressing only 450, namely press only cylinder 430 and the distance pressed only between seat 420 and be greater than and press only 450 and the distance that presses only between seat 420.Therefore, press and only 450 can use less power that top die 340 just can be made to press down particle successfully.

Press only cylinder 430 to stretch, make to press stopping bar 440 and rotate for the center of circle to press only seat 420, be then positioned at and press pressing of stopping bar 440 one end and stop 450 and move up and down.Press stopping bar 440 drive and press only 450 lifting.Press and only 450 to be connected with top die 340 top die 340 is moved.

Refer to Fig. 7, top die 340 comprises shaft-like body 341 and is located at the briquetting 342 of body 341 one end.Briquetting 342 is provided with cambered surface 343, cambered surface 343 for Particle Phase pressure holding, so the surface of particle forms the shape corresponding with cambered surface 343, therefore make the shape of the profile design cambered surface 343 of slide fastener required for basis, to meet the designing requirement of various slide fastener.

In above-mentioned metal zipper granule machine 10, by push rod 130, particle is pushed to precalculated position, the movement locus of particle can be ensured, prevent particle from accurately can not arrive precalculated position.Further, the displacement of being advanced by displacement sensor push rod 130, can detect whether particle is positioned at the top of push rod 130.As fruit granule is not positioned at the top of push rod 130, when push rod 130 arrive regulation advance displacement time, owing to not having particle spacing on the top of push rod 130, then push rod 130 can move on, then the displacement of advancing of push rod 130 can be greater than particle and be present in displacement of advancing on push rod 130.By alarm equipment alarm, prompting staff checks, can prevent slide fastener from producing breach, affect the production qualification rate of slide fastener.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, do not departing from putting of the present invention's design, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a metal zipper granule machine, is characterized in that, comprises feeding material component, and described feeding material component comprises loading plate, two pusher cylinders and two push rods;

Described loading plate manufactures the particle of metal zip fastener for supplying; Described two pusher cylinders are located at the both sides of described loading plate relatively, and the telescopic direction of described two pusher cylinders is vertical with the direction of motion of described particle on loading plate;

One end of described push rod is connected with described pusher cylinder, and described pusher cylinder drives described push rod to stretch, and described push rod is combined for the particle on described loading plate and drives described movement of particles to arrive predetermined Working position.

2. metal zipper granule machine according to claim 1; it is characterized in that; described feeding material component also comprises two displacement transducers, alarm and controllers; institute's displacement sensors is located on described pusher cylinder; institute's displacement sensors is for detecting the forward travel distance of described push rod; described controller receives the forward travel distance of the described push rod of described displacement sensor; the forward travel distance of described push rod is greater than the distance that when having described particle, described push rod advances; described controller sends to the signal of described alarm equipment alarm, described alarm equipment alarm.

3. metal zipper granule machine according to claim 1, is characterized in that, also comprise die module, and described die module is located at the centre of described two groups of feeding material components, and described die module comprises pressing mold cylinder, pressing mold slide block, dip mold, top die;

The telescopic direction of described pressing mold cylinder is vertical with the telescopic direction of described push rod; described pressing mold slide block is connected with described pressing mold cylinder; described pressing mold slide block is connected with described top die and dip mold; to make described top die and dip mold motion; described dip mold is provided with slide rail; described slide rail and described push rod are positioned at same plane, and described particle is shifted onto on described slide rail by described push rod.

4. metal zipper granule machine according to claim 3, is characterized in that, described top die comprises shaft-like body and is located at the briquetting of described body one end, and described briquetting is provided with cambered surface, and described cambered surface is used for and described Particle Phase pressure holding.

5. metal zipper granule machine according to claim 3; it is characterized in that; described dip mold is provided with projection in the side of slide rail; the top of described projection is provided with wedge angle; described wedge angle and described strap abut against; described wedge angle is used for described strap to be divided into two, and described two straps slide into the bottom of described projection from the both sides of described wedge angle.

6. metal zipper granule machine according to claim 3; it is characterized in that; described die module also comprises pressing mold limiting cylinder, position limiting slide block; the telescopic direction of described pressing mold limiting cylinder is parallel with the telescopic direction of described pusher cylinder; the telescopic direction of described pressing mold limiting cylinder is vertical with the telescopic direction of described pressing mold cylinder; described pressing mold limiting cylinder drives described position limiting slide block to slide; described position limiting slide block translation; described position limiting slide block and described dip mold abut against to stop that described dip mold moves down, and described top die continues to move down to press down described particle.

7. metal zipper granule machine according to claim 3, is characterized in that, also comprises and presses only assembly, described in press only assembly comprise pressure upper lever stopper, press only seat, press only cylinder, press stopping bar and press only head;

Described pressure upper lever stopper is thin-and-long, the described only cylinder that presses is located at the lower surface of one end of described pressure upper lever stopper, the described only seat that presses is located at the upper surface of the other end of described pressure upper lever stopper, the described upper surface of telescopic end through described pressure upper lever stopper pressing only cylinder, described press stopping bar middle part and the described only seat that presses be rotatably connected, described in press stopping bar one end be connected with described telescopic end;

The described only head that presses is arranged in described pressure upper lever stopper away from described one end pressing only cylinder, and described in press only that head is relative to described pressure upper lever stopper slidably, described press stopping bar the other end and the described only head that presses be rotatably connected, described pressing stops Telescopic-cylinder, press described in making stopping bar with described press only seat for rotating in the center of circle, described in press stopping bar drive described in press only head lifting; The described only head that presses is connected with described top die described top die is moved.

8. metal zipper granule machine according to claim 1, is characterized in that, described loading plate is rectangle; the both sides of described loading plate are respectively equipped with material road; two described material roads are parallel to each other, and the bearing of trend in described material road moves along described material road with the axial vertical of described push rod, described particle.

9. metal zipper granule machine according to claim 8, is characterized in that, described feeding material component comprises base plate, pusher slide, and described pusher slide is located on described base plate, and described pusher slide is provided with chute, and described push rod is along described runner movement.

10. metal zipper granule machine according to claim 9; it is characterized in that; also comprise binder assembly; described binder assembly comprises holder, binder head, and described holder is fixed at described pusher slide one end away from described pusher cylinder, and described binder head is rotatably located on described holder; described holder and described material road are oppositely arranged; described particle moves to described holder place along described material road, particle described in the pressure holding of described binder head, docks with described particle to make described push rod.