CN105014955A - Surface button riveting machine - Google Patents

Abstract

The invention discloses a surface button riveting machine and relates to the field of manufacturing machines for metal buttons. The surface button riveting machine comprises a machine frame, blanking cylinders containing different parts respectively, a riveting mechanism with a riveting cutter bit capable of vertically sliding, a driving mechanism arranged on the machine frame and a blanking groove. The blanking cylinders are all connected with the blanking groove. The upper end of the blanking groove is provided with a blanking port which is connected with the material outlet ends of the blanking cylinders, and the lower end of the blanking groove is a material outlet port extending to the riveting mechanism. The surface button riveting machine further comprises a material belt blanking mechanism. The material belt blanking mechanism comprises a die cutting cutter bit, a material inlet structure and a transmission structure. The die cutting cutter bit is arranged on the blanking groove or the riveting mechanism. The material inlet structure is arranged on the machine frame. The transmission structure is connected with the driving mechanism. According to the surface button riveting machine of the structure, because the material belt blanking mechanism is additionally arranged and used for coiling-in feeding and die cutting of material belts and assembling, one blanking manner is added to the machine, and the surface button riveting machine can be suitable for products assembled by multiple parts.

Description

A kind of face button lock seaming machine

Technical field

The present invention relates to the manufacturing machine field of metal button, particularly relate to a kind of face button lock seaming machine.

Background technology

Face in metal button is detained its structure and is usually made up of multiple accessory riveted, common are two, three, four accessory compositions, shell and button pin are detained in the face that has as two kinds, three kinds is comprise face button shell, at the bottom of alloy sheet and through hole, alloy sheet is between face is detained at the bottom of shell through hole, also promising preventing, when riveted, button shell in face there will be impression, pad can be increased between the fittings, so also can increase the thickness of face button, as being also provided with pad between above-mentioned button shell and button pin, three kinds are increased to by two kinds of accessories, also pad is provided with between face button shell and alloy sheet, four kinds are increased to by three kinds of accessories.

Now for lock seaming machine that riveted is detained as the face of said structure, comprise frame, be erected at the blanking barrel of the difference splendid attire different accessories in frame, be arranged on the riveting mechanism that having in frame can slide up and down the riveted cutter head carrying out riveted work, be arranged on the driving mechanism for driving riveting mechanism to carry out riveted work in frame, and blanking groove, described each blanking barrel connects blanking groove respectively, the direction of described blanking groove in blanking is from top to bottom arranged, its upper end is that charging port is connected with the discharge end of blanking barrel, its lower end is that discharging port extends to blanking assembling in riveting mechanism, face as above-mentioned four kinds of structures is detained, its installation step is the first blanking of face button shell, then pad blanking embedded surface is buckled in shell, then on alloy sheet blanking embedded surface button shell Intermediate gasket, then under through hole in material embedded surface button shell on alloy sheet, finally carry out riveted, complete discharge, the position relationship of the discharging port of each blanking groove arranges according to the sequencing of assembling blanking and is connected with riveting mechanism.

The pad that the face of the lock seaming machine manufacturing of said structure is smashed is all adopt metallic gasket, be the production cost of saving face button now, during the manufacturing, the pad smashed in face adds plastic spacer or have employed plastic spacer and replaces, but plastic spacer is lighter, if the lock seaming machine of said structure carries out manufacturing, plastic spacer does not glide in blanking barrel and blanking groove by deadweight, also just can not normally blanking assemble.Now for employing plastic spacer is adopt manually first to be assembled by plastic spacer in embedded surface button shell, plastic spacer first will be cut out pad from the former material patrix of plastics by this mode, by manual assembly, this does not save the production cost of face button in fact, and for the many in a small amount product of this volume of metal button, artificial workload is large, efficiency is difficult to promote, and final can be reduced production efficiency, therefore, now need badly and existing lock seaming machine is improved, to be suitable for the production of more multi-configuration item metal button.

Summary of the invention

The object of the present invention is to provide one to have multiple cutting mode, for the accessory blanking of unlike material, and can be suitable for a kind of face button lock seaming machine of the product use of multiple fitment combination assembling.

For solving this technical problem, technical scheme of the present invention is: a kind of face button lock seaming machine, comprise frame, be erected at the blanking barrel of the difference splendid attire different accessories in frame, be arranged on having in frame to can slide up and down the riveting mechanism of riveted cutter head, be arranged on the driving mechanism in frame, and blanking groove, described each blanking barrel connects blanking groove respectively, the direction of described blanking groove in blanking is from top to bottom arranged, its upper end is that charging port is connected with the discharge end of blanking barrel, its lower end is that discharging port extends to riveting mechanism, also comprise material strip cutting agency, described material strip cutting agency comprises the cross cutting cutter head also simultaneously carrying out blanking assembling for cutting out required pad at material strip patrix, for web feed being entered the feeding structure in cross cutting cutter head and being used for the drive mechanism of transmission cross cutting cutter head and feeding structure work, described cross cutting cutter head is arranged on blanking groove or riveting mechanism, described feeding structure is arranged in frame, described drive mechanism connects driving mechanism.

Described feeding structure comprises the mount pad be fixedly installed in frame, is made up of and the rotating feed roller group be arranged on mount pad, the axostylus axostyle being connected roll shaft or lower roller shaft one end and the unilateral bearing be arranged on axostylus axostyle with lower roller shaft upper roll shaft, one end of described upper roll shaft and lower roller shaft is provided with the gear engaging each other transmission, and described feed roller group is corresponding with cross cutting cutter head; Described drive mechanism comprises drive shaft, the cam be fixedly installed on drive shaft, the rotating drive link be arranged in frame, be fixedly installed on drive on drive shaft end and connecting rod, described drive shaft connects driving mechanism, one end of described drive link is provided with moving runner walking on the side face of cam, the other end connection mode cutting knife head of described drive link, the end face of described drive is provided with the projection of disalignment, one end of described connecting rod is rotating to be set on projection, and the other end of described connecting rod is rotating to be connected with unilateral bearing.

Described blanking barrel comprises the first blanking barrel, second blanking barrel and the 3rd blanking barrel, described blanking groove comprises first blanking groove of connection first blanking barrel to riveting mechanism, connect the second blanking groove of the second blanking barrel and be connected the 3rd blanking groove of the 3rd blanking barrel, described second blanking barrel is connected driving mechanism with the 3rd blanking barrel by driving-belt drive mechanism, described first blanking groove is provided with opening, the discharging port connection opening of described second blanking groove, described second blanking groove is provided with material ejecting structure by driving mechanism transmission for by the accessory ejection blanking on the second blanking groove, the discharging port of described 3rd blanking groove is corresponding below riveted cutter head, described 3rd blanking groove is provided with by its location blanking device swung of driving mechanism transmission, described location blanking device comprises the swing gearing structure that transmission the 3rd blanking groove swings and the putty structure be arranged on the 3rd blanking groove discharging port.

Described second blanking groove is provided with bending segment, the ejection parts that described material ejecting structure comprises the second cam be fixedly installed on drive shaft, the second drive link and is slidably arranged on bending segment, described second drive link is rotating to be erected in frame, one end of described second drive link is provided with the second moving runner walking on the side face of the second cam, and described ejection parts are connected with the other end of the second drive link.

Described swing gearing structure comprises the second drive, swing component and the second connecting rod that are fixedly installed on drive shaft, one side of described second drive offers groove, the linking arm that the two ends of couple axle and couple axle that the structure of described swing component comprises the rotating setting of level are fixed with respectively, the two ends of described second connecting rod are rotating to be respectively connected on the 3rd blanking groove and a linking arm, and another linking arm described is provided with the 3rd moving runner walking and establishes on a reeded side at the second drive.

Described 3rd blanking groove is provided with restoring spring and is connected with frame, for being pulled back below riveted cutter head by the 3rd blanking groove.

Described putty structure comprises L-type snap arm and spring, one arm of described L-type snap arm is for getting lodged in the discharging port of the second blanking groove, another arm of described L-type snap arm is rotatably arranged on the second blanking groove, the discharging port of described spring for impelling an arm elasticity of L-type snap arm to block the 3rd blanking groove, its one end is connected on another arm end of L-type snap arm, and the other end of described spring is connected on the 3rd blanking groove.

Described riveting mechanism has cutter head transmission mechanism, the crankshaft rod structure that described cutter head transmission mechanism comprises connection for transmission rotating shaft and the 3rd drive link be rotatably erected in frame, the rotating connection crankshaft rod structure in one end of described 3rd drive link, the other end of described 3rd drive link is rotating to be connected with the upper end of riveted cutter head.

Described riveting mechanism is provided with the push structure for the accessory entered in riveting mechanism being pushed subsequent processing, described push structure comprises the 3rd cam be fixedly installed on drive shaft, rotating the 4th drive link be arranged in frame, 5th drive link, third connecting rod, rotating the 6th drive link and the forward block be arranged in frame, the upper end of described 4th drive link is provided with the 4th moving runner walking on the side face of the 3rd cam, the upper end of described 5th drive link is rotating to be connected with the lower end of the 4th drive link, the upper end of described 6th drive link connects forward block, the lower end of described 6th drive link offers sliding tray, one end of described third connecting rod is rotating to be connected with the lower end of the 5th drive link, the other end of described third connecting rod is provided with the traveller being embedded and sliding in sliding tray.

By adopting technique scheme, the invention has the beneficial effects as follows: the structure comparing existing lock seaming machine has set up material strip cutting agency, the cross cutting cutter head of described material strip cutting agency is arranged on blanking groove, feeding structure is responsible for carrying material strip, drive mechanism is transmission cross cutting cutter head and feeding structure simultaneously, material strip former material charging cross cutting directly can be carried to go out required pad and assemble when assembling, so just without the need to first another mechanically cross cutting go out pad and deliver to again on lock seaming machine and assemble, also a kind of feeding manner is just increased, this also just can solve plastic spacer in prior art and the cutting mode of existing lock seaming machine gently cannot be adopted to carry out the problem of blanking, lock seaming machine of the present invention is also had to can be used in producing multiple different number fitment combination, the product of unlike material fitment combination, by selecting the blanking of required work, the part of charging is carried out work and just can be realized, and the power arranging the driving mechanism well utilized of the drive mechanism of each several part carrys out steady transmission each several part in the present invention, make the job step time of each several part transmission can be accurately corresponding, the generation of maloperation can be avoided very well.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of a kind of the button lock seaming machine that the present invention relates to.

Fig. 2 is the side-looking structural representation of a kind of the button lock seaming machine that the present invention relates to.

Fig. 3 is the structural representation of material strip cutting agency in a kind of the button lock seaming machine that the present invention relates to.

Fig. 4 is the structural representation of material ejecting structure in a kind of the button lock seaming machine that the present invention relates to.

Fig. 5 is the structural representation of swing gearing structure in a kind of the button lock seaming machine that the present invention relates to.

Fig. 6 is the structural representation of putty structure in a kind of the button lock seaming machine that the present invention relates to.

Fig. 7 is the structural representation of cutter head transmission mechanism in a kind of the button lock seaming machine that the present invention relates to.

Fig. 8 is the structural representation of push structure in a kind of the button lock seaming machine that the present invention relates to.

In figure:

Frame-1; Blanking barrel-2; First blanking barrel-21; Second blanking barrel-22; 3rd blanking barrel-23;

Blanking groove-20; First blanking groove-201; Opening-2011; Bending segment-2021;

Second blanking groove-202; 3rd blanking groove-203; Restoring spring-2031;

Riveting mechanism-3; Riveted cutter head-31; 3rd drive link-32;

Driving mechanism-4; Material strip cutting agency-6; Cross cutting cutter head-61;

Feeding structure-62; Mount pad-621; Feed roller group-622; Upper roll shaft-6221; Lower roller shaft-6222;

Axostylus axostyle-623; Unilateral bearing-624; Gear-625;

Drive mechanism-63; Drive shaft-631; Cam-632; Drive link-633; Moving runner-6331;

Drive-634; Projection-6341; Connecting rod-635;

Cutter head transmission mechanism-71; Crankshaft rod structure-711; Driving-belt drive mechanism-72; Material ejecting structure-73;

Second cam-731; Second drive link-732; Second moving runner-7321; Ejection parts-733;

Location blanking device-74; Swing gearing structure-741; Second drive-7411; Groove-74111;

Swing component-7412; Couple axle-74121; Linking arm-74122; 3rd moving runner-74123;

Second connecting rod-7413; Putty structure-742; L-type snap arm-7421; Spring-7422;

Push structure-76; 3rd cam-761; 4th drive link-762; 4th moving runner-7621;

5th drive link-763; Third connecting rod-764; Traveller-7641;

6th drive link-765; Sliding tray-7651; Forward block-766.

Detailed description of the invention

In order to explain technical scheme of the present invention further, below by specific embodiment, the present invention will be described in detail.

A kind of face button lock seaming machine, as depicted in figs. 1 and 2, comprise frame 1, be erected at the blanking barrel 2 of the difference splendid attire different accessories in frame 1, be arranged on having in frame 1 to can slide up and down the riveting mechanism 3 of riveted cutter head 31, be arranged on the driving mechanism 4 in frame 1, blanking groove 20 and material strip cutting agency 6, described each blanking barrel 2 connects blanking groove 20 respectively, the direction of described blanking groove 20 in blanking is from top to bottom arranged, its upper end is that charging port is connected with the discharge end of blanking barrel 2, its lower end is that discharging port extends to riveting mechanism 3 blanking assembling, described material strip cutting agency 6, as shown in figures 1 and 3, comprise the cross cutting cutter head 61 also simultaneously carrying out blanking assembling for cutting out required pad at material strip patrix, for the feeding structure 62 that web feed entered in cross cutting cutter head 61 and be used for the drive mechanism 63 that transmission cross cutting cutter head 61 and feeding structure 62 work, described cross cutting cutter head 61 is arranged on blanking groove 20 or riveting mechanism 3, described feeding structure 62 is arranged in frame 1, described drive mechanism 63 connects driving mechanism 4.As can be seen from shown in foregoing and accompanying drawing, the cutting mode that the material strip cutting agency 6 set up compared to existing technology realizes from existing in cutting mode completely different, directly can input rectangular material strip and carry out cross cutting and assembling, add a kind of feeding manner, a kind of selection that the use of lock seaming machine is just many, also just can be suitable for the product choice for use of multiple different number fitment combination, unlike material fitment combination.

Further below, describe the concrete structure of described material strip cutting agency 6 in detail, as shown in figures 1 and 3, described feeding structure 62 comprises the mount pad 621 be fixedly installed in frame 1, is made up of and the rotating feed roller group 622 be arranged on mount pad 621, the axostylus axostyle 623 being connected roll shaft 6221 or lower roller shaft 6222 one end and the unilateral bearing 624 be arranged on axostylus axostyle 623 with lower roller shaft 6222 upper roll shaft 6221, one end of described upper roll shaft 6221 and lower roller shaft 6222 is provided with the gear 625 engaging each other transmission, and described feed roller group 622 is corresponding with cross cutting cutter head 61, described drive mechanism 63 comprises drive shaft 631, be fixedly installed on the cam 632 on drive shaft 631, the rotating drive link 633 be arranged in frame 1, be fixedly installed on the drive 634 on drive shaft 631 end and connecting rod 635, described drive shaft 631 connects driving mechanism 4, one end of described drive link 633 is provided with moving runner 6331 and walks on the side face of cam 632, the other end connection mode cutting knife head 61 of described drive link 633, the end face of described drive 634 is provided with the projection 6341 of disalignment, one end of described connecting rod 635 is rotating to be set on projection 6341, the other end of described connecting rod 634 is rotating to be connected with unilateral bearing 624.In this structure, drive shaft 631 is by driving mechanism 4 transmission, when drive shaft 631 rotates, pitch of the laps motion is done in one end of drive 634 drivening rod 635, and the other end connection unilateral bearing 624 of dynamic connecting rod 635 does reciprocal motion of retreating, according to the operation principle of unilateral bearing 624, reciprocal motion also just can drive the rotation of axostylus axostyle 623, by gear 625 transmission, upper roll shaft 6221 and lower roller shaft 6222 rightabout are rotated, thus reach the material strip be clipped between upper roll shaft 6221 and lower roller shaft 6222 is fed forward in cross cutting cutter head 61, when drive shaft 631 rotates, the simultaneously rotation of cam 623 can make the two ends of drive link 633 be that the mode of seesaw-type pumps, also cross cutting cutter head 61 just can be driven when web feed enters to carry out cross cutting press-in work, because cross cutting cutter head 61 is set directly on blanking groove 20 or riveting mechanism 3, so can directly the accessory cut out from material strip patrix be directly pressed into when cross cutting on the accessory that is assemblied in and will assembles.

Described blanking barrel 2 is that one drives its internal structure to rotate by power source, play and in good order for the material in it is transported on discharge end, it is a kind of known technical pattern principle, it is the blanking barrel of more common use in slider of zipper fastener is manufactured or in the manufacturing of some other industry smaller parts, this is not the improvement of this case, does not just add here to describe.

Further, as depicted in figs. 1 and 2, described blanking barrel 2 comprises the first blanking barrel 21, second blanking barrel 22 and the 3rd blanking barrel 23, described blanking groove 20 comprises the first blanking groove 201 of connection first blanking barrel 20 to riveting mechanism 3, connect the second blanking groove 202 of the second blanking barrel 21 and be connected the 3rd blanking groove 203 of the 3rd blanking barrel 23, described second blanking barrel 22 is connected driving mechanism 4 with the 3rd blanking barrel 23 by driving-belt drive mechanism 72, described first blanking groove 201 is provided with opening 2011, the discharging port connection opening 2011 of described second blanking groove 202, described second blanking groove 202 is provided with material ejecting structure 73 by driving mechanism 4 transmission for by the accessory ejection blanking on the second blanking groove 202, the discharging port of described 3rd blanking groove 203 is corresponding below riveted cutter head 31, described 3rd blanking groove 203 is provided with by its location blanking device 74 swung of driving mechanism 4 transmission, described location blanking device 74 comprises the swing gearing structure 741 that transmission the 3rd blanking groove 203 swings and the putty structure 742 be arranged on the 3rd blanking groove 203 discharging port.In this structure, the second blanking groove 202 is connected to the first blanking groove 201, and the second blanking barrel 22 and the 3rd blanking barrel 23 are by driving-belt drive mechanism 72 transmission, and material ejecting structure 73, location blanking device 74, the transmission of these structures is all connect driving mechanism 4, the power arranging the driving mechanism 4 well utilized of drive mechanism carrys out steady transmission each several part, make the job step time of each several part transmission can be accurately corresponding, can avoid the generation of maloperation very well, concrete drive mechanism describes as follows.

As shown in Figure 4, described second blanking groove 202 is provided with bending segment 2021, described material ejecting structure 73 comprises the second cam 731, second drive link 732 be fixedly installed on drive shaft 631 and the ejection parts 733 be slidably arranged on bending segment 221, described second drive link 732 is rotating to be erected in frame 1, one end of described second drive link 732 is provided with the second moving runner 7321 and walks on the side face of the second cam 731, and described ejection parts 733 are connected with the other end of the second drive link 732.The work of this structure is that accessory is by the rotation of the second blanking barrel 22 and the deadweight by accessory, blanking is to bending segment 2021 place, when drive shaft 631 rotates, drive the second drive link 732 reciprocally swinging, often swing with regard to the accessory blanking at ejection bending segment 2021 place.

Described swing gearing structure 741, as shown in Figure 5, comprise the second drive 7411 be fixedly installed on drive shaft 631, swing component 7412 and second connecting rod 7413, one side of described second drive 7411 offers groove 74111, the linking arm 74122 that the two ends of couple axle 74121 and couple axle 74121 that the structure of described swing component 7412 comprises the rotating setting of level are fixed with respectively, the two ends of described second connecting rod 7413 are rotating to be respectively connected on the 3rd blanking groove 203 and a linking arm 74122, another linking arm 74122 described is provided with the 3rd moving runner 74123 and walks and to be provided with on a side of groove 74111 at the second drive 7411.By this drive mechanism, the 3rd blanking groove 203 is produced to swing, and the vibrational power flow of the groove 74111 of the second drive 7411 produces the main cause swung when being transmissions, and it is corresponding with the required time difference between the time that riveted cutter head 31 works that the second blanking groove 203 can be enable to be rocked to the time of corresponding blanking position, thus precise positioning can be realized.Described 3rd blanking groove 203 is provided with restoring spring 2031 and is connected with frame 1, for being pulled back below riveted cutter head 31 by the 3rd blanking groove 203.

Described putty structure 742, as shown in Figure 6, arbitrarily drop out for preventing the accessory on the 3rd blanking groove 203, comprise L-type snap arm 7421 and spring 7422, one arm of described L-type snap arm 7421 is for getting lodged in the discharging port of the 3rd blanking groove 203, another arm of described L-type snap arm 7421 is rotatably arranged on the 3rd blanking groove 203, the discharging port of described spring 7422 for impelling an arm elasticity of L-type snap arm 7421 to block the 3rd blanking groove 203, its one end is connected on another arm end of L-type snap arm 7421, the other end of described spring 7422 is connected on the 3rd blanking groove 203.The discharging port of the second blanking groove 203 can be blocked under the screen resilience effect of structure L-type snap arm 7421 at spring 7422 by this, and block the 3rd blanking groove 203 discharging port L-type snap arm 7421 an arm be subject to external force promote time, again can be softened, namely the accessory on the 3rd blanking groove 203 discharging port is extruded when riveted cutter head 31 presses down, when therefore extruding, the 3rd blanking groove 203 needs to be swung by above-mentioned swing gearing structure 741 to drift out, and avoids affecting normal blanking.

Further, as shown in Figure 7, described riveting mechanism 3 has cutter head transmission mechanism 71, the crankshaft rod structure 711 that described cutter head transmission mechanism 71 comprises connection for transmission rotating shaft 631 and the 3rd drive link 32 be rotatably erected in frame 1, the rotating connection crankshaft rod structure 711 in one end of described 3rd drive link 32, the other end of described 3rd drive link 32 is rotating to be connected with the upper end of riveted cutter head 1.

Further, as shown in Figure 8, described riveting mechanism 3 is provided with the push structure 76 for the accessory entered in riveting mechanism 3 being pushed subsequent processing, described push structure 76 comprises the 3rd cam 761 be fixedly installed on drive shaft 631, rotating the 4th drive link 762 be arranged in frame 1, 5th drive link 763, third connecting rod 764, rotatingly be arranged on the 6th drive link 765 in frame 1 and forward block 766, the upper end of described 4th drive link 762 is provided with the 4th moving runner 7621 and walks on the side face of the 3rd cam 761, the upper end of described 5th drive link 763 is rotating to be connected with the lower end of the 4th drive link 762, the upper end of described 6th drive link 765 connects forward block 766, the lower end of described 6th drive link 765 offers sliding tray 7651, one end of described third connecting rod 764 is rotating to be connected with the lower end of the 5th drive link 763, the other end of described third connecting rod 764 is provided with the traveller 7641 being embedded and sliding in sliding tray 7651.

Pass through said structure, the drive mechanism of machinery can the power of steady transmission driving mechanism, and the transmission rationally being arranged the operation such as blanking, pan feeding, propelling, assembling that can make each several part by each modular construction is at the same driving mechanism of connection, one can also be reached and preferably there will not be operation mistake, accept not corresponding, to be equipped with error assembling riveted process.

Above-described embodiment and graphic and non-limiting product form of the present invention and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present invention.

Claims (9)

1. a face button lock seaming machine, comprise frame, be erected at the blanking barrel of the difference splendid attire different accessories in frame, be arranged on having in frame to can slide up and down the riveting mechanism of riveted cutter head, be arranged on the driving mechanism in frame, and blanking groove, described each blanking barrel connects blanking groove respectively, the direction of described blanking groove in blanking is from top to bottom arranged, its upper end is that charging port is connected with the discharge end of blanking barrel, its lower end is that discharging port extends to riveting mechanism, it is characterized in that: also comprise material strip cutting agency, described material strip cutting agency comprises the cross cutting cutter head also simultaneously carrying out blanking assembling for cutting out required pad at material strip patrix, for web feed being entered the feeding structure in cross cutting cutter head and being used for the drive mechanism of transmission cross cutting cutter head and feeding structure work, described cross cutting cutter head is arranged on blanking groove or riveting mechanism, described feeding structure is arranged in frame, described drive mechanism connects driving mechanism.

2. a kind of face as claimed in claim 1 button lock seaming machine, it is characterized in that: described feeding structure comprises the mount pad be fixedly installed in frame, is made up of and the rotating feed roller group be arranged on mount pad, the axostylus axostyle being connected roll shaft or lower roller shaft one end and the unilateral bearing be arranged on axostylus axostyle with lower roller shaft upper roll shaft, one end of described upper roll shaft and lower roller shaft is provided with the gear engaging each other transmission, and described feed roller group is corresponding with cross cutting cutter head; Described drive mechanism comprises drive shaft, the cam be fixedly installed on drive shaft, the rotating drive link be arranged in frame, be fixedly installed on drive on drive shaft end and connecting rod, described drive shaft connects driving mechanism, one end of described drive link is provided with moving runner walking on the side face of cam, the other end connection mode cutting knife head of described drive link, the end face of described drive is provided with the projection of disalignment, one end of described connecting rod is rotating to be set on projection, and the other end of described connecting rod is rotating to be connected with unilateral bearing.

3. a kind of face as claimed in claim 2 button lock seaming machine, it is characterized in that: described blanking barrel comprises the first blanking barrel, second blanking barrel and the 3rd blanking barrel, described blanking groove comprises first blanking groove of connection first blanking barrel to riveting mechanism, connect the second blanking groove of the second blanking barrel and be connected the 3rd blanking groove of the 3rd blanking barrel, described second blanking barrel is connected driving mechanism with the 3rd blanking barrel by driving-belt drive mechanism, described first blanking groove is provided with opening, the discharging port connection opening of described second blanking groove, described second blanking groove is provided with material ejecting structure by driving mechanism transmission for by the accessory ejection blanking on the second blanking groove, the discharging port of described 3rd blanking groove is corresponding below riveted cutter head, described 3rd blanking groove is provided with by its location blanking device swung of driving mechanism transmission, described location blanking device comprises the swing gearing structure that transmission the 3rd blanking groove swings and the putty structure be arranged on the 3rd blanking groove discharging port.

4. a kind of face as claimed in claim 3 button lock seaming machine, it is characterized in that: described second blanking groove is provided with bending segment, the ejection parts that described material ejecting structure comprises the second cam be fixedly installed on drive shaft, the second drive link and is slidably arranged on bending segment, described second drive link is rotating to be erected in frame, one end of described second drive link is provided with the second moving runner walking on the side face of the second cam, and described ejection parts are connected with the other end of the second drive link.

5. a kind of face as claimed in claim 3 button lock seaming machine, it is characterized in that: described swing gearing structure comprises the second drive be fixedly installed on drive shaft, swing component and second connecting rod, one side of described second drive offers groove, the linking arm that the two ends of couple axle and couple axle that the structure of described swing component comprises the rotating setting of level are fixed with respectively, the two ends of described second connecting rod are rotating to be respectively connected on the 3rd blanking groove and a linking arm, another linking arm described is provided with the 3rd moving runner walking and establishes on a reeded side at the second drive.

6. a kind of face as claimed in claim 5 button lock seaming machine, is characterized in that: described 3rd blanking groove is provided with restoring spring and is connected with frame, for being pulled back below riveted cutter head by the 3rd blanking groove.

7. a kind of face as claimed in claim 3 button lock seaming machine, it is characterized in that: described putty structure comprises L-type snap arm and spring, one arm of described L-type snap arm is for getting lodged in the discharging port of the second blanking groove, another arm of described L-type snap arm is rotatably arranged on the 3rd blanking groove, the discharging port of described spring for impelling an arm elasticity of L-type snap arm to block the 3rd blanking groove, its one end is connected on another arm end of L-type snap arm, and the other end of described spring is connected on the 3rd blanking groove.

8. a kind of face button lock seaming machine as described in claim 3,4,5,6 or 7, it is characterized in that: described riveting mechanism has cutter head transmission mechanism, the crankshaft rod structure that described cutter head transmission mechanism comprises connection for transmission rotating shaft and the 3rd drive link be rotatably erected in frame, the rotating connection crankshaft rod structure in one end of described 3rd drive link, the other end of described 3rd drive link is rotating to be connected with the upper end of riveted cutter head.

9. as claim 3, 4, 5, a kind of face button lock seaming machine described in 6 or 7, it is characterized in that: described riveting mechanism is provided with the push structure for the accessory entered in riveting mechanism being pushed subsequent processing, described push structure comprises the 3rd cam be fixedly installed on drive shaft, rotating the 4th drive link be arranged in frame, 5th drive link, third connecting rod, rotating the 6th drive link and the forward block be arranged in frame, the upper end of described 4th drive link is provided with the 4th moving runner walking on the side face of the 3rd cam, the upper end of described 5th drive link is rotating to be connected with the lower end of the 4th drive link, the upper end of described 6th drive link connects forward block, the lower end of described 6th drive link offers sliding tray, one end of described third connecting rod is rotating to be connected with the lower end of the 5th drive link, the other end of described third connecting rod is provided with the traveller being embedded and sliding in sliding tray.