CN111252508A

CN111252508A - Automatic zipper puller cloth feeding machine for manufacturing luggage

Info

Publication number: CN111252508A
Application number: CN202010044703.XA
Authority: CN
Inventors: 兰明吾
Original assignee: 兰明吾
Current assignee: Guangzhou Shengze luggage Technology Co., Ltd
Priority date: 2020-01-14
Filing date: 2020-01-14
Publication date: 2020-06-09
Anticipated expiration: 2040-01-14
Also published as: CN111252508B

Abstract

The invention discloses an automatic zipper puller cloth feeding machine for manufacturing bags, which comprises a machine table; the first support is vertically arranged on the upper end face of the machine table; the rotating motor is fixed on one side of the first support, and the driving end of the rotating motor penetrates through the first support and extends to the other side of the first support; the second bracket is fixedly connected with the driving end of the rotating motor; the input mechanism is arranged on the machine table, and the output end of the input mechanism faces the second support and is used for inputting the zipper head of the cloth belt to be penetrated; the cloth tape output mechanism is arranged at the upper part of the first support and is used for outputting a cloth tape; the plurality of moving mechanisms are arranged on the second bracket in an array manner and used for clamping the zipper heads input by the moving input mechanism, and the rotating motor drives the second bracket to drive the moving mechanisms to move below the cloth belt output mechanism; the shaping mechanisms correspond to the moving and taking mechanisms one to one and are used for shaping the cloth belts put into the pull rings in a penetrating mode, so that the cloth belts are turned over and restrained and fixed in the pull rings of the zipper heads.

Description

Automatic zipper puller cloth feeding machine for manufacturing luggage

Technical Field

The invention relates to the technical field of case manufacturing and processing, in particular to an automatic cloth tape feeding machine for a zipper head for case manufacturing.

Background

In the technical field of case and bag manufacturing, the zip fastener is as current common connecting piece, the square face in the daily life that its application involves, and in order to facilitate the pulling zip fastener, generally the producer can set up the strap on the zip fastener of zip fastener and assist the pulling zip fastener head, and the process of putting the strap is worn to current zip fastener head often carries out manual operation by the manual work, it is not only difficult to guarantee work efficiency, and long-term so processing, will lead to productivity restriction and human cost high, consequently, it is necessary to design a section can wear the mode of putting the strap automatically and the machine replaces manual operation.

Disclosure of Invention

In view of the circumstances of the prior art, the technical purpose of the present invention is to provide an automatic zipper head tape feeder for manufacturing bags, which has high efficiency, reliable implementation and simple and convenient operation.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a case and bag are made with drawing zipper head automatic cloth tape unit of going up for draw zipper head to wear to put the strap, draw zipper head to have pull ring and guide pillar, it includes:

a machine platform;

the first support is vertically arranged on the upper end face of the machine table;

the rotating motor is fixed on one side of the first support, and the driving end of the rotating motor penetrates through the first support and extends to the other side of the first support;

the second bracket is fixedly connected with the driving end of the rotating motor and is driven to rotate by the rotating motor;

the input mechanism is arranged on the machine table and positioned on one side of the first support, and the output end of the input mechanism faces the second support and is used for inputting a zipper head of a cloth belt to be penetrated;

the cloth tape output mechanism is arranged at the upper part of the first support and is used for outputting a cloth tape;

the plurality of moving and taking mechanisms are arranged on the second support in an annular array and used for clamping the zipper head input by the moving and taking input mechanism, the second support is driven by the rotating motor to drive the moving and taking mechanisms to move to the lower part of the cloth belt output mechanism, and the cloth belt output by the cloth belt output mechanism is inserted into a pull ring of the zipper head clamped on the moving and taking mechanism;

the shaping mechanisms correspond to the moving and taking mechanisms one to one and are arranged on one side of the moving and taking mechanisms and are used for shaping the cloth belts which are penetrated into the pull rings of the zipper puller, so that the cloth belts are folded and restrained and fixed in the pull rings of the zipper puller.

As a possible implementation manner, further, this scheme still includes a holding box, the holding box locate on the board and be located the second support below and be used for accomodating the zip fastener head after processing is accomplished.

As a possible implementation manner, further, the second support is in a cross structure, the center of the second support is fixed at the driving end of the rotating motor and is driven by the rotating motor to rotate, and the number of the removing mechanisms is four, and the removing mechanisms are respectively arranged on the four end parts of the cross structure of the second support in a one-to-one correspondence manner.

As a possible embodiment, preferably, the input mechanism includes:

the transmission frame is fixed on one side of the first support through a fixing piece, a profiling sliding chute matched with the zipper head structure is arranged on the upper end face of the transmission frame along the length direction of the transmission frame, the profiling sliding chute extends to the input end and the output end of the transmission frame, and the zipper head is conveyed to the output end of the transmission frame along the input end of the transmission frame in the profiling sliding chute in a state that the bottom of the zipper head is upward;

the pair of extension rods are oppositely arranged at two sides of the upper part of the output end of the transmission frame, extend along the arrangement direction of the second bracket and are used for bearing the zipper head output by the transmission frame;

the pair of elastic sheets are oppositely fixed between the end parts of the pair of extension rods close to the second support in a splayed shape, the pair of elastic sheets are respectively and fixedly connected with the extension rods close to the elastic sheets, and the splayed small-opening end of each elastic sheet faces the arrangement direction of the second support and is used for restraining the zipper head for fixing the output of the transmission frame.

As a possible embodiment, it is preferable that the removing mechanism includes a first translation cylinder, a first slider, and a first finger cylinder, the first translation cylinder is fixed to an end of the second bracket, the push rod faces the end of the corresponding end of the second bracket and is fixedly connected with the first sliding block, the second bracket is correspondingly provided with a first sliding rail for the sliding connection of the first sliding block, the first translation cylinder drives the first sliding block to move on the first sliding rail along the direction close to or far away from the end corresponding to the second bracket, the first finger claw cylinder is fixed on the first sliding block, the finger claw end of the first finger claw cylinder is provided with a pair of first finger claws which face the tail end of the second bracket and are used for moving and taking the zipper head, the ends of the first fingers extend downwards to form a caliper structure which is matched with the pull ring structure of the zipper puller and is used for moving the zipper puller which is restrained and fixed by the elastic sheets.

As a possible implementation manner, preferably, the shaping mechanism includes a first connecting plate, a second translating cylinder, a second slider, and a second finger cylinder, the first slider of the removing mechanism is a push rod perpendicular to the first translating cylinder and is fixedly connected, the first finger cylinder is fixed on one side of the first slider away from the end surface of the second bracket, and a second slide rail extending along the direction from the first finger cylinder to the other side is arranged on the end surface of the first slider, the second slider is slidably connected to the second slide rail, the cylinder body of the second translating cylinder is fixed on the second slider, the driving end of the second translating cylinder faces one side of the cylinder body of the first finger cylinder, and the end of the push rod is fixedly connected to the cylinder body of the first finger cylinder through the first connecting plate, one end of the second connecting plate is fixed to one end of the second translating cylinder away from the push rod, the other end of the second connecting plate horizontally extends along the direction far away from the first translation cylinder and is fixedly connected with a cylinder body of the second finger cylinder, the finger end of the second finger cylinder faces the first finger of the first finger cylinder, a pair of second fingers are arranged on the finger end of the second finger cylinder, one end of each pair of second fingers is fixedly connected with the driving end of the second finger cylinder, the other end of each pair of second fingers crosses the first finger of the first finger cylinder and extends along the mutually approaching direction to form a matching structure with an annular projection, a caliper structure formed by the first finger cylinder is positioned between the ends of the pair of second fingers, a push rod of the second translation cylinder stretches out and draws back to reversely transmit thrust to the cylinder body of the second translation cylinder and a second sliding block connected with the second translation cylinder, the second sliding block slides on a second sliding rail, and the second connecting plate connected with the second translation cylinder drives the pair of second fingers of the second finger cylinder to respectively position the pair of second fingers of the first finger cylinder A finger forms a caliper structure that moves horizontally from top to bottom.

As a possible implementation manner, preferably, the cloth tape output mechanism includes a third sliding block, a third translation cylinder, a third bracket, a third connecting plate, a pair of guide rollers, a fixing rod, a cloth tape reel, a guide rod and a cutting mechanism, the upper end surface of the first bracket is provided with a third sliding rail extending along a direction close to the arrangement direction of the second bracket, the third sliding block is slidably connected to the third sliding rail, the third translation cylinder is fixed on one side of the third sliding rail, the tail end of a push rod of the third translation cylinder is fixedly connected with one side of the third sliding block through the third connecting plate, the third translation cylinder drives the third sliding block to slide on the third sliding rail, the third bracket is fixed on one side of the upper portion of the third sliding block close to the second bracket, one end of the fixing rod is fixed on one side of the third bracket, the other end of the fixing rod extends upwards and is rotatably connected with the cloth tape reel, the cloth tape reel is used for winding a cloth tape, the other side of the third support extends outwards to form an L-shaped support, one end of the guide rod is fixed at the upper end of the L-shaped support, the other end of the guide rod is provided with a guide groove adaptive to the width of the cloth belt, the pair of guide rollers are connected in the skimming part of the L-shaped support, one of the guide rollers is connected with a rotation driving motor, the other guide roller is connected with an elastic support, and the side surface of the other guide roller is attached to the side surface of one of the guide rollers to form a transmission guide part for transferring the cloth belt; the cutting mechanism is arranged below a transmission guide part formed by a pair of guide rollers and cuts the cloth belt output by the transmission guide part according to a set period.

As a possible implementation manner, preferably, the elastic support includes a connecting rod and a first spring, one end of the connecting rod is rotatably connected with the L-shaped support, the other end of the connecting rod is rotatably connected with another guide roller, the first spring is disposed on one side of the connecting rod away from one of the guide rollers, one end of the first spring is connected with the middle of the connecting rod, the other end of the first spring is fixed on the L-shaped support, and the first spring pushes the connecting rod to drive the other guide roller to be attached to one of the guide rollers.

As a possible implementation manner, it is preferred, the shutdown mechanism include fourth translation cylinder, uide bushing, cutter, the uide bushing be the open rectangular pipe structure in both ends, its vertical downside of fixing at L shape support just right with the transmission guide part that a pair of guide roll formed, the strap by the transmission guide part in the transport to the uide bushing downwards, fourth translation cylinder fix in third support one side and its push rod towards the uide bushing and with cutter fixed connection, the cutting part of cutter is towards the uide bushing, the uide bushing towards the side correspondence of fourth translation cylinder be equipped with and supply the cutter to penetrate wherein and with the opening that the strap cut off.

As a possible embodiment, preferably, the cutting mechanism further includes a fourth connecting plate, a guide portion, a second spring, a pair of guide posts, and a guide block, the guide block is fixed on one side of the third support between the guide sleeve and the fourth translational cylinder and is provided with a guide hole, a push rod of the fourth translational cylinder passes through the guide hole and is fixedly connected with the fourth connecting plate, the cutter is fixed on the upper portion of the end surface of the fourth connecting plate facing the guide sleeve, the lower portion of the fourth connecting plate is provided with a pair of through holes and the guide portion is slidably connected in the through holes through the pair of guide posts, the end surface of the guide portion facing the guide sleeve is an arc surface, the second spring is arranged between the guide portion and the fourth connecting plate and is located between the pair of guide posts, one end of the second spring is fixed with the fourth connecting plate, the other end of the second spring is fixed with the guide portion, an opening of the guide sleeve extends downward and is used for the guide portion to penetrate, when the second spring is in a natural state, the distance between the guide part and the guide sleeve is smaller than the distance between the cutting edge part of the cutter and the guide sleeve.

As a possible implementation manner, further, the second bracket is L-shaped, two sides of the second bracket are equal in length, and an intersection part of the two sides of the L-shape of the second bracket is fixedly connected with the driving end of the rotating motor.

By adopting the technical scheme, the invention has the beneficial effects that: according to the scheme, the input mechanism is ingeniously utilized to input the zipper puller, then the moving mechanism arranged on the second support is used for moving the zipper puller input on the input mechanism, the second support is driven to rotate by the rotating motor, so that the moving mechanism can be driven by the rotating motor to move to the position below the cloth tape output mechanism after the zipper puller on the input mechanism is moved, and a cloth tape output by the cloth tape output mechanism penetrates into a pull ring of the zipper puller clamped on the moving mechanism; the shaping mechanism arranged on one side of the moving mechanism can shape the cloth belt penetrating into the pull ring of the zipper puller, the cloth belt is folded and restrained and fixed in the pull ring of the zipper puller, and finally the second support is driven by the rotating motor to rotate again, the zipper puller processed on the moving mechanism can enter the position of finished product output to be output, and the second support can be set into the shape of a cross army.

Drawings

The invention will be further elucidated with reference to the drawings and the detailed description:

fig. 1 is one of schematic three-dimensional view structure diagrams of a zipper head according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a schematic three-dimensional view structure of a zipper slider according to another embodiment of the present invention;

FIG. 3 is one of the states of a simplified implementation of the solution of the invention;

FIG. 4 is an enlarged view of a part of a schematic structure at A in the state shown in FIG. 3;

FIG. 5 is an enlarged view of a part of the schematic structure at B in the state shown in FIG. 3;

FIG. 6 shows a second embodiment of the present invention;

FIG. 7 is an enlarged view of a part of the schematic structure at C in the state shown in FIG. 6;

FIG. 8 is an enlarged view of a schematic partial structure at D in the state shown in FIG. 6;

FIG. 9 shows a third simplified embodiment of the present invention;

FIG. 10 is an enlarged view of a schematic partial structure at E in the state shown in FIG. 9;

FIG. 11 is a diagram showing a fourth mode of carrying out the invention.

Detailed Description

As shown in one of fig. 1 to 11, the automatic zipper head tape feeder for manufacturing luggage of the present invention is used for threading a zipper head 8 on a tape 75, wherein the zipper head 8 has a pull ring 81 and a guide post 82 (refer to fig. 1 and 2 again), and the present solution includes:

a machine table 1;

the first support 3 is vertically arranged on the upper end face of the machine table 1;

the rotating motor 4 is fixed on one side of the first support 3, and the driving end of the rotating motor passes through the first support 3 and extends to the other side of the first support 3;

the second bracket 5 is fixedly connected with the driving end of the rotating motor 4, and the rotating motor 4 drives the second bracket 5 to rotate;

the input mechanism 2 is arranged on the machine table and positioned on one side of the first support, and the output end of the input mechanism faces the second support and is used for inputting a zipper head of a cloth belt to be threaded;

a cloth tape output mechanism 7 which is arranged on the upper part of the first bracket 3 and is used for outputting a cloth tape 75;

the plurality of moving and taking mechanisms 6 are arranged on the second support 5 in an annular array and are used for clamping the zipper head 8 input by the moving and taking input mechanism 2, the second support 5 is driven by the rotating motor 4 to drive the moving and taking mechanisms 6 to move to the lower part of the cloth belt output mechanism 7, and the cloth belt 75 output by the cloth belt output mechanism 7 is inserted into a pull ring 81 of the zipper head 8 clamped on the moving and taking mechanism 6;

the shaping mechanisms correspond to the moving mechanisms 6 one by one and are arranged on one side of the moving mechanisms 6 and are used for shaping the cloth belts 75 which are penetrated into the pull rings 82 of the zipper pullers 8, so that the cloth belts 75 are folded and restrained and fixed in the pull rings 81 of the zipper pullers 8.

In order to facilitate storage, the storage box 9 is further included in the scheme, and the storage box 9 is arranged on the machine table 1 and located below the second support 5 and used for storing the zipper head 8 after processing is completed.

The second support 5 in this embodiment is in a cross structure, the center of the second support is fixed at the driving end of the rotating motor 4 and is driven to rotate by the rotating motor 4, and the number of the moving mechanisms 6 is four, and the moving mechanisms are respectively arranged on four end portions of the cross structure of the second support 5 in a one-to-one correspondence manner.

As a possible implementation, it is preferable that the input mechanism 2 includes:

the conveying frame 21 is fixed on one side of the first support 3 through a fixing piece, a profiling sliding groove 211 matched with the structure of the zipper head 8 is formed in the upper end face of the conveying frame 21 along the length direction of the conveying frame, the profiling sliding groove 211 extends to the input end and the output end of the conveying frame 21, and the zipper head 8 is conveyed to the output end of the conveying frame 21 along the input end of the conveying frame in the profiling sliding groove 211 in a state that the bottom of the zipper head is upward;

a pair of extension rods 22 which are oppositely arranged at two sides of the upper part of the output end of the transmission frame 21, extend along the arrangement direction of the second bracket 5 and are used for bearing the zipper head 8 output by the transmission frame 21;

the pair of elastic pieces 221 are fixed between the end portions of the pair of extension rods 22 close to the second support 5 in a splayed manner, the pair of elastic pieces 221 are respectively and fixedly connected with the extension rods 22 close to the pair of elastic pieces 221, and the splayed small end of each elastic piece faces the arrangement direction of the second support 5 and is used for restraining the zipper head 8 output by the fixed transmission frame 21.

As a possible implementation manner, it is preferable that the removing mechanism 6 includes a first translation cylinder 61, a first sliding block 62 and a first finger cylinder 63, the first translation cylinder 61 is fixed on the end of the second support 5, the push rod of the first translation cylinder is towards the end of the corresponding end of the second support 5 and is fixedly connected with the first sliding block 62, the second support 5 is correspondingly provided with a first sliding rail 51 for slidably connecting the first sliding block 62, the first translation cylinder 61 drives the first sliding block 62 to move on the first sliding rail 51 in the direction close to or far from the corresponding end of the second support 5, the first finger cylinder 63 is fixed on the first sliding block 62 and has a pair of first fingers 631 towards the end of the second support 5 and used for removing the zipper head 8, the ends of the pair of first fingers 631 extend downwards to form a caliper structure corresponding to the structure of the pull ring 81 of the zipper head 8, and is used for removing the slider 8 restrained and fixed by the pair of elastic pieces 221.

In addition, the shaping mechanism includes a first connecting plate 65, a second connecting plate 66, a second translational cylinder 64, a second slider 641 and a second finger cylinder 67, the first slider 62 of the removing mechanism 6 is a push rod perpendicular to the first translational cylinder 61 and is fixedly connected, the first finger cylinder 63 is fixed on one side of the first slider 62 away from the end surface of the second bracket 5, and a second slide rail 621 extending along the direction from the first finger cylinder 63 to the other side is arranged on the end surface of the first slider 62, the second slider 641 is slidably connected on the second slide rail 621, the cylinder body of the second translational cylinder 64 is fixed on the second slider 641, the driving end of the second translational cylinder faces one side of the cylinder body of the first finger cylinder 63, the end of the push rod is fixedly connected with the cylinder body of the first finger cylinder 63 through the first connecting plate 65, one end of the second connecting plate 66 is fixed with one end of the second translational cylinder 64 away from the push rod, the other end of the second connecting plate 66 extends horizontally in a direction away from the first translating cylinder 61 and is fixedly connected with the cylinder body of the second finger cylinder 67, the finger end of the second finger cylinder 67 faces the first finger 631 of the first finger cylinder 63, a pair of second fingers 671 are arranged on the finger end of the second finger cylinder 67, one ends of the pair of second fingers 671 are fixedly connected with the driving end of the second finger cylinder 67, the other ends of the pair of second fingers 671 cross the first finger 631 of the first finger cylinder 63 and extend in a mutual approaching direction to form a matching structure projected in a ring shape, the caliper structure formed by the first finger cylinder 63 is positioned between the ends of the pair of second fingers 671, and the pushing force is reversely transmitted to the cylinder body of the second translating cylinder 64 and the second sliding block 641 connected with the second translating cylinder 64 by the extension and contraction of the pushing rod of the second translating cylinder 64, so that the second sliding block 641 slides on the second sliding rail 621, the second connecting plate 66 connected to the second translating cylinder 64 drives the pair of second fingers 671 of the second finger cylinder 67 to move horizontally on the upper and lower sides of the caliper structure formed by the pair of first fingers 631 of the first finger cylinder 63.

As a possible embodiment, preferably, the tape output mechanism 7 includes a third slider 71, a third translation cylinder 72, a third bracket 73, a third connecting plate 721, a pair of guide rollers 77, a fixing rod 741, a tape reel 74, a guide rod 76 and a cutting mechanism, the upper end surface of the first bracket 3 is provided with a third slide rail 31 extending in a direction close to the second bracket 5, the third slider 71 is slidably connected to the third slide rail 31, the third translation cylinder 72 is fixed to one side of the third slide rail 31, the end of the push rod thereof is fixedly connected to one side of the third slider 71 through the third connecting plate 721, the third slider 71 is driven by the third translation cylinder 72 to slide on the third slide rail 31, the third bracket 73 is fixed to one side of the upper portion of the third slider 71 close to the second bracket 5, one end of the fixing rod 741 is fixed to one side of the third bracket 73, the other end of the fixing rod 741 extends upward and is rotatably connected with a tape reel 74, the tape reel 74 is used for coiling a tape 75 to be threaded and processed, the other side of the third bracket 73 extends outward to form an L-shaped bracket 79, one end of the guide rod 76 is fixed at the upper end of the L-shaped bracket 79, the other end of the guide rod is provided with a guide groove 761 which is adapted to the width of the tape 75, the pair of guide rollers 77 is connected in the left-off part of the L-shaped bracket 79, one guide roller 771 of the pair of guide rollers is connected with a rotary driving motor 7711, the other guide roller 772 of the pair of guide rollers is connected with an elastic bracket, and the side surface of the other guide roller 772 of the pair of guide rollers is attached to the side; the cutting mechanism is provided below a driving guide portion formed by a pair of guide rollers 77 and cuts the cloth tape 75 output from the driving guide portion at a set period.

As a possible implementation manner, preferably, the elastic support includes a connecting rod 7721 and a first spring 7722, one end of the connecting rod 7721 is rotatably connected to the L-shaped support 79, and the other end of the connecting rod 7721 is rotatably connected to the other guide roller 772, the first spring 7722 is disposed on a side of the connecting rod 7721 away from one of the guide rollers 771, and one end of the first spring 7722 is connected to the middle of the connecting rod 7721, and the other end of the first spring 7722 is fixed to the L-shaped support 79 (or connected to the L-shaped support 79 through a connecting sheet 7723, which may be in a specific connection form that the connecting rod 7721 and the connecting sheet 7723 are provided with corresponding protruding columns to sleeve the first spring 7722, so that the first spring 7722 is sleeved and restrained and fixed), and the connecting rod 7721 is pushed by the first spring 7722 to drive the other.

As a possible embodiment, preferably, the cutting mechanism includes a fourth translational cylinder 78, a guide sleeve 791 and a cutter 783, the guide sleeve 791 is a rectangular tube structure with two open ends, and is vertically fixed on the lower side of the L-shaped bracket 79 and is opposite to the transmission guide part formed by the pair of guide rollers 77, the cloth tape 75 is conveyed downwards to the guide sleeve 791 by the transmission guide part, the fourth translational cylinder 78 is fixed on one side of the third bracket 73, the push rod of the fourth translational cylinder is towards the guide sleeve 791 and is fixedly connected with the cutter 783, the blade part of the cutter 783 is towards the guide sleeve 791, the side of the guide sleeve 791 towards the fourth translational cylinder 78 is correspondingly provided with an open port through which the cutter 783 penetrates and cuts the cloth tape 75, the other side of the guide sleeve 791 is provided with a through slot 7911 matched with the cutter, specifically, the cutter 783 penetrates through the open port and enters the guide sleeve 791 to press the cloth tape 75, then, the cutter 783 is further operated to engage with the through groove 7911 to form a shearing force, and the cutter 783 is engaged with the guide sleeve 791 away from the open through groove 7911 to cut the tape 75.

As a possible embodiment, it is preferable that the cutting mechanism further includes a fourth connecting plate 782, a guide portion 785, a second spring 786, a pair of guide posts 784, and a guide block 781, the guide block 781 is fixed to one side of the third bracket 73 between the guide sleeve 791 and the fourth translation cylinder 78 and is provided with a guide hole, a push rod of the fourth translation cylinder 78 passes through the guide hole and is fixedly connected to the fourth connecting plate 782, the cutter 783 is fixed to an upper portion of an end surface of the fourth connecting plate 782 facing the guide sleeve 791, a lower portion of the fourth connecting plate 782 is provided with a pair of through holes and the guide portion 785 is slidably connected to the through holes through the pair of guide posts 784, the end surface of the guide portion 785 facing the guide sleeve 791 is an arc-shaped surface 7851, the second spring 786 is disposed between the guide portion 785 and the fourth connecting plate 782 and is located between the pair of guide posts 784, one end of the second spring 786 is fixed to the fourth connecting plate 782, the other end is fixed with the guide part, the opening of the guide sleeve 791 extends downwards and is used for the guide part 785 to penetrate, and when the second spring 786 is in a natural state, the distance between the guide part 785 and the guide sleeve 791 is smaller than the distance between the cutting edge of the cutting knife 783 and the guide sleeve 791.

With the above implementation structure scheme, the operation method or implementation principle or use method of the apparatus of this embodiment is as follows:

(1) the zipper head 8 is conveyed from the input end of the transmission frame 21 to the output end thereof along the profiling chute 211, and then is temporarily clamped by a pair of elastic sheets 221 between a pair of extension rods 22 at the output end of the transmission frame 21, at the moment, a pull ring 81 of the zipper head 8 naturally hangs down, and a plane formed by an annular structure of the pull ring 81 is vertical to the output end of the transmission frame 21;

(2) the rotating motor 4 drives the second bracket 5 to rotate, so that the moving mechanism 6 positioned at one end of the second bracket 5 is opposite to the output end of the transmission frame 21;

(3) a push rod of a first translation cylinder 61 of the moving mechanism 6 extends out to push a first sliding block 62 to move along a first sliding rail 51 in a direction close to the zipper head 8 at the output end of the transmission frame 21, and meanwhile, a driving end of a first finger cylinder 63 on the first sliding block 62 drives a pair of first fingers 631 to open (or an initial state of the first finger cylinder 63 is directly preset to be an open state of the first finger cylinder 63), until the first translation cylinder 61 drives the first sliding block 62 to slide to the pair of first fingers 631 of the first finger cylinder 63 to move to two sides of a pull ring 81 of the zipper head 8 clamped by a pair of elastic sheets 221, at this time, the first translation cylinder 61 is temporarily stopped, the first finger cylinder 63 is clamped, a caliper structure formed by the pair of first fingers 631 clamps the zipper head 8 and the pull ring thereof, and then the first translation cylinder 61 drives the first sliding block 62 to reset;

(4) the rotating motor 4 continues to drive the second support 5 to rotate, so that the moving mechanism 6 with the zipper head 8 moved is moved to the position below the cloth tape output mechanism 7, and simultaneously or subsequently, the third moving cylinder of the cloth tape output mechanism 7 drives the third sliding block 71 to move in the direction close to the second support 5, so that the lower end of the guide sleeve 791 is opposite to the pull ring 81 of the zipper head 8 clamped by the moving mechanism, and the second moving cylinder 64 of the shaping mechanism drives the second sliding block 641 to slide on the second sliding rail 621 in the direction far from the first finger cylinder 63, so that the ends of the pair of second fingers 671 of the second finger cylinder 67 move in the direction close to the zipper head 8 (actually, the moving direction is the moving direction along the left direction in combination with the schematic diagram shown in fig. 5, that is the moving direction opposite to the direction in which the cloth tape 75 needs to be shaped;

(5) the free end of the cloth tape 75 of the cloth tape output mechanism 7 sequentially passes through a guide groove 761 of a guide rod 76, a transmission guide part and a guide sleeve 791 formed by a pair of guide rollers 77, at this time, a rotation driving motor 7711 connected with one guide roller 771 of the pair of guide rollers 77 rotates, so that the movable end of the cloth tape 75 is driven by rotation to descend into a pull ring 81 of a zipper head 8 clamped by a moving mechanism 6, the rotation driving motor 7711 stops working until reaching a preset length, a push rod of a fourth translation cylinder 78 extends out to drive a fourth connecting plate 782 to drive a cutter 783 and the guide part 785 to move along the direction close to the cloth tape 75, at this time, the guide part 785 firstly penetrates into the guide sleeve 791 from an opening of the guide sleeve 791 to contact with the cloth tape 75 and pre-press the cloth tape 75, then the second spring 76 is compressed, the cutter 783 continuously moves until the cloth tape 75 is pressed in the guide sleeve 791 and matched with a through groove 7911 to cut the cloth tape 75, then the fourth translation cylinder 78 drives the fourth connecting plate 782 to reset, meanwhile, the second finger cylinder 67 is driven by the second translation cylinder 64 to move along the preset shaping direction of the cloth tape 75 to bend the two ends of the cut cloth tape 75 in place around the pull ring 81 of the zipper head 8, the second finger cylinder 67 clamps tightly, finally the two ends of the cut cloth tape 75 are attached and fixed, the used cloth tape 75 can adopt the cloth tape 75 with adhesive areas arranged on the surface at intervals, after being cut according to the preset length, the two ends of the cut cloth tape 75 are provided with the adhesive areas, then the cloth tape 75 is pushed by a pair of second fingers 671 of the second finger cylinder 67 to be attached and fixed together, and the cloth tape 75 penetrates into the pull ring 81 of the zipper head 8 to be fixed at the two ends, so as to form a needed penetrating state;

(6) the rotating motor 4 continues to drive the second support 5 to rotate, and the zipper head 8 with the cloth tape 75 inserted therein is transferred to an output position, wherein the output form can be that the first finger claw cylinder 63 is loosened to release the zipper head 8, so that the zipper head 8 drops to a preset position or is arranged in the accommodating box 9 below the second support 5.

It should be noted that, in this embodiment, the second support 5 is a cross structure, so that one of the moving mechanisms 6 has moved the zipper head 8, and when the rotating motor 4 drives the moving mechanism to move to the lower side of the tape output mechanism 7, the moving mechanism 6 at the other end of the second support 5 is moved to the output end of the input mechanism 2 to move the zipper head 8, and when the moving mechanism 6 with the shaped tape 75 inserted in the second support 5 is driven by the rotating motor 4 to move to the upper side of the accommodating box 9, the moving mechanism 6 with the zipper head 8 moved is driven to the lower side of the tape output mechanism 7 to insert the tape 75 and shape, that is, the moving mechanism 6 disposed at each end of the second support 5 is alternately matched with the input mechanism 2 and the tape output mechanism 7.

While the structural form of the second bracket 5 mentioned in this embodiment is not limited to the mentioned cross structure, as a possible implementation manner, further, the second bracket may be L-shaped, and two sides thereof are equal in length, an intersection portion of two sides of the L-shape of the second bracket is fixedly connected with the driving end of the rotating electrical machine, or T-shaped, and a length of a top side of the T-shape is twice a length of a vertical side thereof, and an intersection portion of the driving end of the rotating electrical machine and two sides of the T-shape is fixedly connected.

The foregoing is directed to embodiments of the present invention, and equivalents, modifications, substitutions and variations such as will occur to those skilled in the art, which fall within the scope and spirit of the appended claims.

Claims

1. The utility model provides a case and bag are made with drawing zipper head automatic cloth tape unit of going up for draw zipper head to wear to put the strap, draw zipper head to have pull ring and guide pillar, its characterized in that: it includes:

a machine platform;

2. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 1, characterized in that: the second support is of a cross structure, the center of the second support is fixed at the driving end of the rotating motor and is driven to rotate by the rotating motor, and the number of the moving mechanisms is four, and the moving mechanisms are respectively arranged on four end parts of the cross structure of the second support in a one-to-one correspondence mode.

3. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 2, characterized in that: the input mechanism comprises:

4. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 3, characterized in that: the moving mechanism comprises a first moving cylinder, a first sliding block and a first finger claw cylinder, the first moving cylinder is fixed on the end part of the second support, a push rod of the first moving cylinder faces the end of the corresponding end part of the second support and is fixedly connected with the first sliding block, the second support is correspondingly provided with a first sliding rail for the sliding connection of the first sliding block, the first moving cylinder drives the first sliding block to move on the first sliding rail along the direction close to or far away from the end corresponding to the second support, the first finger claw cylinder is fixed on the first sliding block, the finger claw end of the first finger claw cylinder is provided with a pair of first finger claws facing the end of the second support and used for moving the zipper head, and the ends of the pair of first finger claws extend downwards to form a caliper structure matched with a pull ring structure of the zipper head and are used for moving the zipper head restrained and fixed by a pair of elastic sheets.

5. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 4, is characterized in that: the shaping mechanism comprises a first connecting plate, a second translation cylinder, a second sliding block and a second finger claw cylinder, wherein the first sliding block of the moving mechanism is a push rod vertical to the first translation cylinder and is fixedly connected with the push rod, the first finger claw cylinder is fixed on one side of the first sliding block, which is far away from the end surface of the second support, a second sliding rail extending along the direction from the first finger claw cylinder to the other side of the first sliding block is arranged on the end surface of the first sliding block, the second sliding block is connected on the second sliding rail in a sliding manner, the cylinder body of the second translation cylinder is fixed on the second sliding block, the driving end of the second translation cylinder faces one side of the cylinder body of the first finger claw cylinder, the end of the push rod of the second translation cylinder is fixedly connected with the cylinder body of the first finger claw cylinder through the first connecting plate, one end of the second connecting plate is fixed with one end, which is far away from the push rod, of the second connecting plate horizontally extends along the direction far away from the, the finger end of the second finger cylinder faces the first finger of the first finger cylinder, a pair of second fingers are arranged on the finger end of the second finger cylinder, one end of each second finger is fixedly connected with the driving end of the second finger cylinder, the other end of each second finger crosses the first finger of the first finger cylinder and extends along the mutual approaching direction to form a matching structure with an annular projection, and a caliper structure formed by the first finger claw cylinder is positioned between the ends of a pair of second finger claws, the push rod of the second translation cylinder stretches and retracts to reversely transmit the thrust to the cylinder body of the second translation cylinder and a second sliding block connected with the second translation cylinder, and the second sliding block slides on the second sliding rail, and the second connecting plate connected with the second translation cylinder drives a pair of second fingers of the second finger cylinder to respectively move horizontally on the upper side and the lower side of a caliper structure formed by a pair of first fingers of the first finger cylinder.

6. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 5, characterized in that: the cloth tape output mechanism comprises a third sliding block, a third translation cylinder, a third support, a third connecting plate, a pair of guide rollers, a fixing rod, a cloth tape reel, a guide rod and a cutting mechanism, wherein a third sliding rail extending along the direction close to the second support is arranged on the upper end face of the first support, the third sliding block is connected onto the third sliding rail in a sliding manner, the third translation cylinder is fixed on one side of the third sliding rail, the tail end of a push rod of the third translation cylinder is fixedly connected with one side of the third sliding block through the third connecting plate, the third translation cylinder drives the third sliding block to slide on the third sliding rail, the third support is fixed on one side, close to the second support, of the upper portion of the third sliding block, one end of the fixing rod is fixed on one side of the third support, the other end of the fixing rod extends upwards and is connected with the cloth tape reel in a rotating manner, and the cloth tape, the other side of the third support extends outwards to form an L-shaped support, one end of the guide rod is fixed at the upper end of the L-shaped support, the other end of the guide rod is provided with a guide groove adaptive to the width of the cloth belt, the pair of guide rollers are connected in the skimming part of the L-shaped support, one of the guide rollers is connected with a rotation driving motor, the other guide roller is connected with an elastic support, and the side surface of the other guide roller is attached to the side surface of one of the guide rollers to form a transmission guide part for transferring the cloth belt; the cutting mechanism is arranged below a transmission guide part formed by a pair of guide rollers and cuts the cloth belt output by the transmission guide part according to a set period.

7. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 6, is characterized in that: the elastic support comprises a connecting rod and a first spring, one end of the connecting rod is rotatably connected with the L-shaped support, the other end of the connecting rod is rotatably connected with another guide roller, the first spring is arranged on one side of the connecting rod away from one guide roller, one end of the first spring is connected with the middle of the connecting rod, the other end of the first spring is fixed on the L-shaped support, and the first spring pushes the connecting rod to drive the other guide roller to be attached to one guide roller.

8. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 7, is characterized in that: shutdown mechanism include fourth translation cylinder, uide bushing, cutter, the uide bushing be the open rectangular pipe structure in both ends, its vertical downside of fixing at L shape support just right with the transmission guide part that a pair of guide roll formed, the strap by the transmission guide part carry to the uide bushing in downwards, the fourth translation cylinder fix third support one side and its push rod towards the uide bushing and with cutter fixed connection, the cutting part of cutter is towards the uide bushing, the uide bushing open mouthful that the side correspondence of orientation fourth translation cylinder was equipped with and supplies the cutter to penetrate wherein and cut off the strap.

9. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 8, wherein: the cutting mechanism further comprises a fourth connecting plate, a guide part, a second spring, a pair of guide posts and a guide block, the guide block is fixed on one side of a third support between the guide sleeve and the fourth translation cylinder and is provided with a guide hole, a push rod of the fourth translation cylinder penetrates through the guide hole and is fixedly connected with the fourth connecting plate, the cutter is fixed on the upper portion of the end face, facing the guide sleeve, of the fourth connecting plate, the lower portion of the fourth connecting plate is provided with a pair of through holes, the guide part is connected in the through holes in a sliding mode through the pair of guide posts, the end face, facing the guide sleeve, of the guide part is an arc-shaped face, the second spring is arranged between the guide part and the fourth connecting plate and is located between the pair of guide posts, one end of the second spring is fixed with the fourth connecting plate, the other end of the second spring is fixed with the guide part, and an opening of the guide sleeve, when the second spring is in a natural state, the distance between the guide part and the guide sleeve is smaller than the distance between the cutting edge part of the cutter and the guide sleeve.

10. The automatic tape laying machine for the zipper head for manufacturing bags and suitcases according to claim 1, characterized in that: the second support is L-shaped, two sides of the second support are equal in length, and the intersection part of the two L-shaped sides of the second support is fixedly connected with the driving end of the rotating motor.