CN217390126U - Zipper head hanging machine - Google Patents

Abstract

The utility model relates to a zipper head hanging machine, which comprises a vibrating disk, a frame, a hanging tool, a conveying device, a hanging device and a conveying rail device arranged on the frame, wherein the conveying rail device comprises a first sub-guide rail piece, a second sub-guide rail piece and a spacing adjusting mechanism crossing the first sub-guide rail piece and the second sub-guide rail piece, the first sub-guide rail piece and the second sub-guide rail piece are arranged on the frame in parallel alignment, the first sub-guide rail piece and the second sub-guide rail piece form a conveying groove, a zipper head slides along the conveying groove, one end of the conveying groove is connected with the output end of the vibrating disk, the other end of the conveying groove points to the hanging tool, the conveying device is arranged on the first sub-guide rail piece and the second sub-guide rail piece, the conveying device is arranged above the conveying groove and the conveying direction of the conveying device points to the hanging device, the hanging device is arranged on the frame and the hanging device reciprocates between the tail end of the conveying groove and the hanging tool, each spacing adjusting mechanism is used for adjusting the spacing between the first sub-guide rail piece and the second sub-guide rail piece, can adapt to zipper heads with different sizes.

Description

Zipper head hanging machine

Technical Field

The utility model relates to an on-hook technical field especially relates to a zipper head on-hook.

Background

In order to achieve attractive appearance and convenient use, zippers are arranged on a plurality of clothes and the like. The zipper head is an important part of the zipper, in order to improve the grade, a plurality of zipper heads are subjected to a series of treatments such as electroplating, and because the zipper heads are small, the zipper heads need to be hung on a hanging rack before electroplating and then electroplated. At present general electroplating all is electroplated with the binode, and used stores pylon is the birdcage stores pylon, by last the on-hook machine hang the zipper head to the stores pylon one by one before electroplating on, but the on-hook machine can not adapt to not unidimensional zip fastener now, often is the zip fastener of a model and just needs the special zipper head on-hook machine to hang, needs a zipper head on-hook machine that adaptability is strong urgently.

SUMMERY OF THE UTILITY MODEL

For overcoming the technical defect that prior art exists, the utility model provides a zipper head goes up hanging machine can adapt to not unidimensional zipper head.

The utility model discloses a technical solution be:

the zipper head hanging machine is used for hanging zipper heads and comprises a vibrating disc, a rack, a hanging tool, a conveying device, a hanging device and a conveying rail device arranged on the rack, wherein the conveying rail device comprises a first sub-guide rail piece, a second sub-guide rail piece and a distance adjusting mechanism crossing the first sub-guide rail piece and the second sub-guide rail piece, the first sub-guide rail piece and the second sub-guide rail piece are arranged on the rack in parallel alignment, the inner edges of the first sub-guide rail piece and the second sub-guide rail piece form a conveying groove, the zipper heads slide along the conveying groove, one end of the conveying groove is connected with the output end of the vibrating disc, the other end of the conveying groove points to the hanging tool, the conveying device is arranged on the first sub-guide rail piece and the second sub-guide rail piece, the conveying device is positioned above the conveying groove and the conveying direction of the conveying device points to the hanging device, the hanging device is arranged on the rack, and the hanging device reciprocates between the tail end of the conveying groove and the hanging tool, each distance adjusting mechanism is used for adjusting the distance between the first sub-guide rail piece and the second sub-guide rail piece.

As a further improvement of the utility model, the conveying rail device still includes high guiding mechanism, high guiding mechanism includes support post, elevator, connecting plate, lift nail, pushes down spring and horizontal guide post, the support post is vertical adorns in the frame admittedly, the elevator goes up and down along the support post and the elevator is adorned admittedly on the sub-rail piece of second, the connecting plate is adorned admittedly on the support post top, the lift nail pass the connecting plate and with elevator threaded connection, the trend perpendicular to conveyer trough that horizontal guide post level passed elevator and horizontal guide post, horizontal guide post slides along the elevator, it installs between connecting plate and elevator to push down the spring.

As the utility model discloses a further improvement, interval guiding mechanism is including pushing away screw, connecting screw, fixed block and movable block are adorned admittedly respectively on first sub-guide piece and the sub-guide piece of second, the fixed block is equipped with the guiding hole that link up, an organic whole is equipped with the guide bar on the movable block, the guide bar slides along the guiding hole, connecting screw pass the fixed block and with movable block threaded connection, push away screw and fixed block threaded connection and push away the movable block.

As a further improvement, conveyor is including carrying power unit, come and go conveying mechanism and direction subassembly, come and go conveying mechanism including coming and going the rail and installing the push rod subassembly of coming and going the rail downside, carry power unit and install on first sub-guide piece and the sub-guide piece of second and the transmission is connected and is come and go the rail, it slides along the direction subassembly to come and go the rail, push rod subassembly is at conveying tank upside back and forth movement, push rod subassembly is in the pushing state when upwards hanging the device direction motion, push rod subassembly is in the state of dodging when returning the conveying mechanism direction motion, the push rod subassembly is less than each when pushing state and the push rod subassembly is higher than each when dodging the state and draws zipper head.

As a further improvement, the reciprocating conveying mechanism further comprises a reset spring, one end of the reset spring is fixedly arranged on the push rod assembly, the other end of the reset spring is fixedly arranged on the conveying power mechanism, and the action direction of the reset spring enables the push rod assembly to be far away from the hanging device.

As a further improvement, the push rod assembly includes catch bar, upset spring and upset piece, the upset piece is rotatable installs at the catch bar end, the catch bar drives the upset piece and is in the promotion state when upwards hanging device direction motion, the catch bar drives the upset piece and is in the state of dodging to keeping away from when hanging device direction motion, the catch bar is less than respectively when being in the promotion state and draws zipper head and the catch bar is higher than respectively when dodging the state and draws zipper head, upset spring one end is installed on the catch bar and the other end is installed on the upset piece, the direction of action of upset spring makes the upset piece be in the promotion state.

As a further improvement of the utility model, the turning block comprises a distributing angle.

As a further improvement of the utility model, it includes the bottom plate, goes up string track, buffer gear, goes up string pushing mechanism and last string clamping mechanism to hang the device, the bottom plate is adorned in the frame admittedly, it is fixed to set up on the bottom plate and goes up string track finger to the hanger to go up to hang the track, it installs on last string track to go up string pushing mechanism slidable, buffer gear installs on the bottom plate and connects and hang pushing mechanism, it installs on last string pushing mechanism to go up string clamping mechanism, it is used for driving to hang clamping mechanism and removes to the hanger direction to go up string clamping mechanism, it draws zipper head for the centre gripping to go up string clamping mechanism.

As a further improvement, buffer gear includes that horizontal opposition installs two buffering subassemblies on the bottom plate, each buffer subassembly all includes the buffering riser of adorning on the bottom plate admittedly, each the buffering riser is located respectively and hangs pushing mechanism's edge promotion direction both sides, each buffer riser be close to hang pushing mechanism one side and all be equipped with a plurality of buffer springs of hanging pushing mechanism on withstanding admittedly.

As a further improvement of the utility model, the buffer is further away from the hanger and is fixedly arranged on the buffer vertical plate, and the buffer indicates the upward hanging pushing mechanism.

The utility model has the advantages that:

the conveying rail device comprises a first sub-guide rail piece, a second sub-guide rail piece and a distance adjusting mechanism crossing the first sub-guide rail piece and the second sub-guide rail piece, the first sub-guide rail piece and the second sub-guide rail piece are arranged on the rack in parallel alignment, the distance adjusting mechanism is used for adjusting the distance between the first sub-guide rail piece and the second sub-guide rail piece so as to be suitable for zipper heads with different specifications, the inner edges of the first sub-guide rail piece and the second sub-guide rail piece form a conveying groove, the zipper heads slide along the conveying groove, one end of the conveying groove is connected with the output end of the vibrating disc, the other end of the conveying groove points to the hanger, the zipper heads output by the vibrating disc are conveyed to the hanger direction through the conveying groove, the conveying device is arranged on the first sub-guide rail piece and the second sub-guide rail piece, the conveying device is positioned above the conveying groove, the conveying direction of the conveying device points to the hanger, the conveying device sequentially conveys the zipper heads in the conveying groove to the hanger, the upper hanging device is arranged on the rack and reciprocates between the tail end of the conveying groove and the hanging tool, the upper hanging device clamps the zipper head in the conveying groove and conveys the zipper head to the hanging tool, and each distance adjusting mechanism is used for adjusting the distance between the first sub-guide rail piece and the second sub-guide rail piece.

Drawings

Fig. 1 is the overall structure diagram of the present invention.

Fig. 2 is a schematic view of the installation relationship of the conveying device, the conveying rail device and the hanging device.

Fig. 3 is a schematic structural diagram of a conveying rail device.

Fig. 4 is a schematic diagram of a moving block structure.

Fig. 5 is another view-angle structure diagram of the conveying rail device.

Fig. 6 is an enlarged schematic view of a portion a in fig. 2.

Fig. 7 is a schematic structural view of the shuttle mechanism.

Fig. 8 is a schematic view of the shuttle mechanism in an avoidance state.

Fig. 9 is a schematic view of the reciprocating conveying mechanism in a pushing state.

Fig. 10 is an enlarged view of B in fig. 2.

Fig. 11 is a schematic structural view of the hanging clamping mechanism.

Description of reference numerals:

1. a vibrating pan;

2. a frame;

3. a hanger;

4. a conveying device; 41. a conveying power mechanism; 42. a reciprocating conveying mechanism; 421. a back-and-forth rail; 422. a push rod assembly; 4221. a push rod; 4222. a flip spring; 4223. turning over the block; 42231. dividing and distributing angles; 423. a reset spring; 43. a guide assembly; 431. a guide block; 432. a guide mounting plate; 4321. vertically adjusting the long hole; 4322. horizontally adjusting the long hole;

5. an upper hanging device; 51. a base plate; 52. hanging a track; 53. a buffer mechanism; 531. a buffer assembly; 5311. a buffer vertical plate; 5312. a buffer spring; 5313. a buffer; 54. an upper hanging pushing mechanism; 55. an upper hanging clamping mechanism; 551. a clamping drive mechanism; 552. a first clamp arm; 553. a second clamp arm; 554. a clamping portion;

6. a conveying rail device; 61. a first sub-rail piece; 611. a transition plate; 6111. a transition rail; 6112. a regulating block; 62. a second sub-rail piece; 63. a spacing adjustment mechanism; 631. pushing the screw; 632. a connecting screw; 633. a fixed block; 634. a moving block; 6341. a guide bar; 64. a conveying trough; 65. a height adjustment mechanism; 651. supporting the upright post; 652. a lifting block; 653. a connecting plate; 654. lifting nails; 655. pressing down the spring; 656. a horizontal guide post; 66. a support bar;

7. provided is a zipper head.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1 to 11, the present embodiment provides a zipper head attaching machine for attaching a zipper head 7, comprising a vibration plate 1, a frame 2, a hanger 3, a conveying device 4, an attaching device 5 and a conveying rail device 6 mounted on the frame 2, wherein the conveying rail device 6 comprises a first sub-rail piece 61, a second sub-rail piece 62 and a space adjusting mechanism 63 spanning the first sub-rail piece 61 and the second sub-rail piece 62, the first sub-rail piece 61 and the second sub-rail piece 62 are mounted on the frame 2 in parallel alignment, the space adjusting mechanism 63 is used for adjusting the distance between the first sub-rail piece 61 and the second sub-rail piece 62 to adapt to zipper heads 7 of different specifications, inner edges of the first sub-rail piece 61 and the second sub-rail piece 62 form a conveying groove 64, the zipper head 7 slides along the conveying groove 64, one end of the conveying groove 64 is connected to an output end of the vibration plate 1 and the other end of the conveying groove 64 is directed to the hanger 3, the zipper head 7 output by the vibrating disk 1 is conveyed towards the direction of the hanger 3 through the conveying groove 64, the conveying device 4 is installed on the first sub-guide rail piece 61 and the second sub-guide rail piece 62, the conveying device 4 is located above the conveying groove 64, the conveying direction of the conveying device 4 points to the hanging device 5, the conveying device 4 sequentially conveys the zipper heads 7 in the conveying groove 64 to the hanging device 5, the hanging device 5 is installed on the rack 2, the hanging device 5 reciprocates between the tail end of the conveying groove 64 and the hanger 3, the hanging device 5 clamps the zipper heads 7 in the conveying groove 64 and conveys the zipper heads 7 to the hanger 3, and each distance adjusting mechanism 63 is used for adjusting the distance between the first sub-guide rail piece 61 and the second sub-guide rail piece 62.

The first sub-rail piece 61 is provided with a transition plate 611, the transition plate 611 is provided with a transition guide rail 6111, one end of the transition guide rail 6111 is connected with the output end of the vibration disc 1, the other end of the transition guide rail 6111 is connected with the conveying groove 64, the zipper head 7 output by the vibration disc 1 slides into the conveying groove 64 through the transition guide rail 6111, the first sub-rail piece 61 and the second sub-rail piece 62 are both arc-shaped, the conveying groove 64 gradually transitions from a vertical state close to one side of the transition guide rail 6111 to a horizontal state close to the conveying device 4, because the conveying groove 64 is steeper close to one side of the transition guide rail 6111, the adjacent zipper heads 7 in the conveying groove 64 are closely arranged, the zipper heads 7 are stably supplied and cannot be interrupted, the transition plate 611 is provided with an adjusting block 6112, the stand 2 is fixedly provided with a support rod 66, the support rod 66 penetrates through the adjusting block 6112, the adjusting block 6112 slides up and down along the support rod 66, the adjusting block 6112 is fixedly arranged on the first sub-rail piece 61, the adjusting block 6112 is provided with a screw for fixing the adjusting block 6112 on the support rod 66, the adjusting block 6112 can lift along the support rod 66 to drive the first sub-guide rail piece 61 and the transition guide rail 6111 on the first sub-guide rail piece 61 to adapt to the height of the output end of the vibrating disk 1, one side of the transition guide rail 6111 close to the first sub-guide rail piece 61 is lower, and the transition guide rail 6111 is connected with the vibrating disk 1, so that the zipper head 7 slides into the conveying groove 64 along the transition guide rail 6111 under the dual effects of vibration of the vibrating disk 1 and inclination of the transition guide rail 6111;

the conveying rail device 6 further comprises a height adjusting mechanism 65, because the hanger 3 has a plurality of layers of hanging pins for fixing the zipper head 7, the height adjusting mechanism 65 is used for adjusting the conveying groove 64 to align with the hanging pins on the hanger 3, the height adjusting mechanism 65 comprises a supporting upright post 651, a lifting block 652, a connecting plate 653, a lifting nail 654, a down spring 655 and a horizontal guide post 656, the supporting upright post 651 is vertically and fixedly arranged on the frame 2, the lifting block 652 is lifted along the supporting upright post 651, the lifting block 652 is fixedly arranged on the second sub-guide rail piece 62, the connecting plate 653 is fixedly arranged at the top end of the supporting upright post 651, the lifting nail 654 penetrates through the connecting plate 653 to be in threaded connection with the lifting block 652, the horizontal guide post 656 horizontally penetrates through the lifting block 652 and the trend of the horizontal guide post 656 is perpendicular to the conveying groove 64, the lifting block 652 slides along the horizontal guide post 656, the down spring 655 is arranged between the connecting plate 653 and the lifting block 652, when the lifting nail rotates, the lifting block 652 is pulled to lift along the supporting upright post 651, the downward pressing spring 655 is used for applying pressure to the lifting block 652, so that the lifting nail 654 can still firmly press the connecting plate 653 under the influence of vibration of the vibration disk 1, the lifting block 652 is prevented from descending due to self-rotation of the lifting nail 654, the horizontal guide column 656 penetrates through the lifting block 652, and the lifting block 652 moves horizontally along the horizontal guide column 656, so that the horizontal position of the conveying groove 64 can be adjusted, and the conveying groove 64 is aligned with a hanging needle on the hanging tool 3.

The distance adjusting mechanism 63 comprises a pushing screw 631, a connecting screw 632, a fixing block 633 and a moving block 634, the fixing block 633 and the moving block 634 are respectively and fixedly mounted on the first sub-guide rail piece 61 and the second sub-guide rail piece 62, a through guide hole is formed in the fixing block 633, a guide rod 6341 is integrally arranged on the moving block 634, the guide rod 6341 slides along the guide hole, the connecting screw 632 penetrates through the fixing block 633 and is in threaded connection with the moving block 634, the pushing screw 631 is in threaded connection with the fixing block 633 and pushes the moving block 634, if the distance between the conveying grooves 64 is adjusted to be low, the pushing screw 631 is loosened firstly, then the connecting screw 632 is rotated, the guide rod 6341 slides along the guide hole under the pulling action of the connecting screw 632, the first sub-guide rail piece 61 and the second sub-guide rail piece 62 are further drawn close, and after the distance is adjusted to a proper width, the pushing screw 631 is rotated to push the moving block 634; if the distance between the conveying grooves 64 is to be adjusted to be larger, the connecting screw 632 is rotated, the guide rod 6341 slides along the guide hole, the first sub-rail piece 61 is separated from the second sub-rail piece 62, and after the distance is adjusted to be a proper width, the pushing screw 631 is rotated to push the pushing screw 631 against the moving block 634.

The conveying device 4 comprises a conveying power mechanism 41, a reciprocating conveying mechanism 42 and a guide assembly 43, the reciprocating conveying mechanism 42 comprises a return spring 423, a reciprocating rail 421 and a push rod assembly 422 arranged on the lower side of the reciprocating rail 421, the conveying power mechanism 41 is arranged on a first sub-guide rail piece 61 and a second sub-guide rail piece 62, the conveying power mechanism 41 is a double-acting cylinder, the conveying power mechanism 41 pushes the reciprocating rail 421 to enable the reciprocating rail 421 to slide along the guide assembly 43, one end of the return spring 423 is fixedly arranged on the push rod assembly 422, the other end of the return spring 423 is fixedly arranged on the conveying power mechanism 41, the action direction of the return spring 423 enables the push rod assembly 422 to be far away from the hanging device 5, the conveying power mechanism 41 pushes the push rod assembly 422 towards the hanging device 5, the return spring 423 pulls the push rod assembly 422 back to realize the reciprocating movement of the push rod assembly 422 on the upper side of the conveying groove 64, and the push rod assembly 422 is in a pushing state when moving towards the hanging device 5, the push rod assembly 422 is in an avoiding state when moving towards the direction of the backward conveying mechanism 42, the push rod assembly 422 is lower than each zipper head 7 when in a pushing state, the push rod assembly 422 is higher than each zipper head 7 when in the avoiding state, the push rod assembly 422 is lower than each zipper head 7 when moving towards the direction of the upward hanging device 5 to push each zipper head 7, the push rod assembly 422 is higher than each zipper head 7 when moving away from the direction of the upward hanging device 5 to slide away from the upper side of each zipper head 7, and the push rod assembly 422 realizes that each zipper head 7 is pushed towards the upward hanging device 5 in a single direction.

The guide assembly 43 comprises a guide block 431 and a plurality of guide mounting plates 432, each guide mounting plate 432 is provided with two mounting surfaces which are perpendicular to each other, the two mounting surfaces are respectively provided with a plurality of vertical adjusting long holes 4321 and a plurality of horizontal adjusting long holes 4322, the guide block 431 is fixedly arranged on the mounting plates through each vertical adjusting long hole 4321, each guide mounting plate 432 is fixedly arranged on the first sub-guide rail sheet 61 and/or the second sub-guide rail sheet 62 through each horizontal adjusting long hole 4322, the vertical adjusting long holes 4321 on the guide mounting plates 432 can adjust the height of the guide block 431 and further adjust the up-down position of the push rod assembly 422, the horizontal adjusting long holes 4322 on the guide mounting plates 432 can adjust the horizontal position of the guide block 431 and further adjust the horizontal position of the push rod assembly 422, and the positions of the guide block 431 on the vertical adjusting long holes 4321 and the horizontal adjusting long holes 4322 are adjusted, so that the pusher member 422 pushes the slider 7 in the conveying groove 64.

The push rod assembly 422 comprises a push rod 4221, a turnover spring 4222 and a turnover block 4223, the turnover block 4223 is rotatably arranged at the tail end of the push rod 4221, the turnover block 4223 comprises a poking angle 42231, the push rod 4221 drives the turnover block 4223 to move towards the upward hanging device 5, the turnover block 4223 is in an avoiding state when the push rod 4221 drives the turnover block 4223 to move towards the direction far away from the upward hanging device 5, the push rod 4221 is lower than each zipper head 7 when in a pushing state and is higher than each zipper head 7 when in the avoiding state, one end of the turnover spring 4222 is arranged on the push rod 4221, the other end of the turnover spring 4223 is arranged on the turnover block 4223, the action direction of the turnover spring 4222 enables the turnover block 4223 to be in a pushing state, the push rod 4221 slides along the upper side of the zipper heads 7 in sequence when the reset spring 423 pulls to move towards the direction far away from the upward hanging device 5, the push rod 4221 pushes back to move back, the push rod 4221 pushes back to be separated from the length of one zipper head 7 to the length of two zipper heads 7 to be between the length of two zipper heads 7, after the pushing rod 4221 is pushed back to the position, the conveying power mechanism 41 pushes the pushing rod 4221 to move towards the upward hanging device 5, when the distribution angle 42231 reaches the gap between the two zipper sliders 7, the distribution angle 42231 is embedded between the two zipper sliders 7 under the driving of the turnover spring 4222, and then the zipper sliders 7 are pushed out to the upward hanging device 5 under the driving of the conveying power mechanism 41.

The hanging device 5 comprises a bottom plate 51, a hanging rail 52, a buffer mechanism 53, a hanging pushing mechanism 54 and a hanging clamping mechanism 55, wherein the bottom plate 51 is fixedly arranged on the rack 2, the hanging rail 52 is fixedly arranged on the bottom plate 51, the hanging rail 52 points to the hanger 3, the hanging pushing mechanism 54 is slidably arranged on the hanging rail 52, the buffer mechanism 53 is arranged on the bottom plate 51 and is connected with the hanging pushing mechanism 54, the hanging pushing mechanism 54 is a sliding table cylinder which is provided with a sliding platform, the hanging clamping mechanism 55 is arranged on the sliding platform, the hanging pushing mechanism 54 is used for driving the hanging clamping mechanism 55 to move towards the hanger 3, the hanging clamping mechanism 55 is used for clamping the zipper head 7, the hanging clamping mechanism 55 clamps the zipper head 7 at the tail end of the conveying groove 64, the hanging pushing mechanism 54 pushes the hanging clamping mechanism 55 to install the zipper head 7 on a hanging needle of the hanger 3, if the zipper slider 7 cannot be loaded with the hanging needle due to the deformation of the hanging needle and the like, the hanging pushing mechanism 54 slides along the hanging rail 52 under the resistance, and the buffer mechanism 53 is connected with the hanging pushing mechanism 54 to flexibly support the hanging pushing mechanism 54, so that the damage caused by collision is avoided.

The hanging clamping mechanism 55 comprises a clamping driving mechanism 551, a first clamping arm 552 and a second clamping arm 553, the first clamping arm 552 and the second clamping arm 553 are both mounted on the clamping driving mechanism 551, the clamping driving mechanism 551 is a pneumatic clamping finger, the first clamping arm 552 and the second clamping arm 553 are both provided with clamping parts 554, and the clamping driving mechanism 551 can drive the clamping parts 554 of the first clamping arm 552 and the second clamping arm 553 to move close to or away from each other so as to cooperate with the extrusion or the release of the zipper head 7.

The buffer mechanism 53 includes two buffer assemblies 531 horizontally installed on the bottom plate 51 in an opposite manner, each buffer assembly 531 includes a buffer vertical plate 5311 fixedly installed on the bottom plate 51, each buffer vertical plate 5311 is respectively located at two sides of the upper hanging pushing mechanism 54 along the pushing direction, one side of each buffer vertical plate 5311 close to the upper hanging pushing mechanism 54 is fixedly provided with a plurality of buffer springs 5312 for supporting the upper hanging pushing mechanism 54, each buffer spring 5312 generates elastic deformation when the upper hanging pushing mechanism 54 is subjected to resistance, each buffer spring 5312 flexibly supports the upper hanging pushing mechanism 54 to avoid collision and damage, a buffer 5313 is further fixedly installed on the buffer vertical plate 5311 far away from the hanger 3, the buffer 5313 indicates the upper hanging pushing mechanism 54, and the buffer 5313 is used for limiting the sliding area of the upper hanging pushing mechanism 54 on the upper hanging rail 52 to avoid the buffer springs 5312 from being subjected to overlarge force and failing.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (10)

1. The zipper head hanging machine is used for hanging zipper heads and is characterized by comprising a vibrating disk, a rack, a hanging tool, a conveying device, a hanging device and a conveying rail device arranged on the rack, wherein the conveying rail device comprises a first sub-guide rail piece, a second sub-guide rail piece and a distance adjusting mechanism crossing the first sub-guide rail piece and the second sub-guide rail piece, the first sub-guide rail piece and the second sub-guide rail piece are arranged on the rack in parallel alignment, the inner edges of the first sub-guide rail piece and the second sub-guide rail piece form a conveying groove, the zipper heads slide along the conveying groove, one end of the conveying groove is connected with the output end of the vibrating disk, the other end of the conveying groove points to the hanging tool, the conveying device is arranged on the first sub-guide rail piece and the second sub-guide rail piece, the conveying device is positioned above the conveying groove, the conveying direction of the conveying device points to the hanging device, the hanging device is arranged on the rack, and the hanging device reciprocates between the tail end of the conveying groove and the hanging tool, each distance adjusting mechanism is used for adjusting the distance between the first sub-guide rail piece and the second sub-guide rail piece.

2. The zipper head hanging machine according to claim 1, wherein the conveying rail device further comprises a height adjusting mechanism, the height adjusting mechanism comprises a supporting column, a lifting block, a connecting plate, a lifting nail, a pressing spring and a horizontal guide column, the supporting column is vertically and fixedly arranged on the rack, the lifting block is lifted along the supporting column and fixedly arranged on the second sub-guide rail piece, the connecting plate is fixedly arranged at the top end of the supporting column, the lifting nail penetrates through the connecting plate and is in threaded connection with the lifting block, the horizontal guide column horizontally penetrates through the lifting block and is perpendicular to the conveying groove, the horizontal guide column slides along the lifting block, and the pressing spring is arranged between the connecting plate and the lifting block.

3. The slider up-hook according to claim 1, wherein the distance adjusting mechanism includes a pushing screw, a connecting screw, a fixed block and a moving block, the fixed block and the moving block are respectively and fixedly mounted on the first sub-track piece and the second sub-track piece, the fixed block is provided with a through guide hole, the moving block is integrally provided with a guide rod, the guide rod slides along the guide hole, the connecting screw passes through the fixed block and is in threaded connection with the moving block, and the pushing screw is in threaded connection with the fixed block and pushes the moving block.

4. The slider mounting apparatus according to claim 1, wherein the conveying device includes a conveying power mechanism, a reciprocating conveying mechanism, and a guiding assembly, the reciprocating conveying mechanism includes a reciprocating rail and a push rod assembly mounted on a lower side of the reciprocating rail, the conveying power mechanism is mounted on the first sub-rail piece and the second sub-rail piece and is in transmission connection with the reciprocating rail, the reciprocating rail slides along the guiding assembly, the push rod assembly reciprocates on an upper side of the conveying groove, the push rod assembly is in a pushing state when moving in a direction of the mounting apparatus, the push rod assembly is in an avoiding state when moving in a direction of the reciprocating conveying mechanism, and the push rod assembly is lower than the respective sliders when in the pushing state and higher than the respective sliders when in the avoiding state.

5. The zipper head mounting and hanging machine according to claim 4, wherein the reciprocating conveying mechanism further comprises a return spring, one end of the return spring is fixedly mounted on the push rod assembly, the other end of the return spring is fixedly mounted on the conveying power mechanism, and the action direction of the return spring enables the push rod assembly to be far away from the mounting and hanging device.

6. The zipper head hanging machine according to claim 4, wherein the push rod assembly comprises a push rod, a turnover spring and a turnover block, the turnover block is rotatably mounted at the end of the push rod, the push rod drives the turnover block to move towards the hanging device, the turnover block is in a pushing state, the push rod drives the turnover block to move towards a direction away from the hanging device, the turnover block is in an avoiding state, the push rod is lower than each zipper head when in the pushing state and higher than each zipper head when in the avoiding state, one end of the turnover spring is mounted on the push rod, the other end of the turnover spring is mounted on the turnover block, and the turnover block is in the pushing state due to the action direction of the turnover spring.

7. The zipper pull head threading machine of claim 6, wherein the flipping block comprises a tapered angle.

8. The slider on-hook according to claim 1, wherein the on-hook device comprises a bottom plate, an on-hook rail, a buffer mechanism, an on-hook pushing mechanism and an on-hook clamping mechanism, the bottom plate is fixed on the frame, the on-hook rail is fixed on the bottom plate and points to the hanger, the on-hook pushing mechanism is slidably mounted on the on-hook rail, the buffer mechanism is mounted on the bottom plate and connected with the on-hook pushing mechanism, the on-hook clamping mechanism is mounted on the on-hook pushing mechanism, the on-hook pushing mechanism is used for driving the on-hook clamping mechanism to move towards the direction of the hanger, and the on-hook clamping mechanism is used for clamping the slider.

9. The zipper head hanging machine according to claim 8, wherein the buffer mechanism comprises two buffer assemblies horizontally installed on the bottom plate in an opposite manner, each buffer assembly comprises a buffer vertical plate fixedly installed on the bottom plate, each buffer vertical plate is respectively located on two sides of the hanging pushing mechanism in the pushing direction, and a plurality of buffer springs for propping against the hanging pushing mechanism are fixedly installed on one side of each buffer vertical plate close to the hanging pushing mechanism.

10. The slider of claim 9, wherein a buffer is further mounted on the vertical buffer plate farther from the hanger, said buffer pointing to the upward-hanging pushing mechanism.

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