CN215156029U - Automatic spring fastener threading machine - Google Patents

Abstract

The utility model discloses an automatic spring fastener threading machine, which comprises a workbench, a feeding mechanism, a threading machine mechanism, a clamp mechanism, a rope pressing tail cap mechanism and a control system, wherein the feeding mechanism, the threading machine mechanism, the clamp mechanism, the rope pressing tail cap mechanism and the control system are arranged on the workbench; the rope threading mechanism is used for threading the rope into the spring lock catch; the clamp mechanism is used for changing the fasteners with different shapes and sizes; the rope tail cap pressing mechanism is used for pressing various rope tail cap heads; and the control system is used for controlling the feeding mechanism, the rope threading mechanism, the clamp mechanism and the rope pressing tail cap mechanism through circuit design so as to realize automatic penetration of the rope belt. The utility model discloses automatic spring fastener threading tape machine for spring fastener threading tape and pressure rope tail cap technology reduce operating personnel working strength and raise the efficiency greatly, have saved the cost of labor.

Description

Automatic spring fastener threading machine

Technical Field

The utility model relates to a stringing belt machine field, in particular to automatic snak link stringing belt machine.

Background

The automatic spring fastener rope threading and cap locking machine is an automatic threading machine used in the working process of a spring fastener rope threading belt process, and the spring fastener is automatically installed into a clamp. The pneumatic telescopic traction hook needle finishes threading the rope belt, a machine is provided with a plurality of action functions, and the operation of the tail cap of the rope belt is finished. The reaction is fast in the using process, and different using requirements can be met;

in the process of implementing the invention, the inventor finds that the prior art has at least the following defects:

1. the spring lock buckle penetrates into the rope belt, the spring lock buckle is reset by hand, the rope belt is placed into the fixing clamp, and the rope belt is hooked by the hand-held needle hook sleeve to penetrate. The rope tail cap lock catch is firstly penetrated and then pressed, and the efficiency is extremely low.

The utility model discloses a scheme is just to the improvement that current threading tape unit goes on of above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough among the prior art, the utility model provides an automatic spring fastener threading tape machine for spring fastener threading tape and pressure rope tail cap technology improve efficiency greatly when reducing operating personnel working strength, have saved the cost of labor.

In order to achieve the purpose of the utility model, the technical scheme adopted for solving the technical problem is as follows:

the utility model provides an automatic snak link threading tape machine, includes the workstation, and sets up feeding mechanism, threading tape mechanism, anchor clamps mechanism, pressure rope tail cap mechanism and control system on the workstation, wherein:

the feeding mechanism is used for feeding the raw materials to a specified position;

the rope threading mechanism is used for threading the rope into the spring lock catch;

the clamp mechanism is used for changing the fasteners with different shapes and sizes;

the rope tail cap pressing mechanism is used for pressing various rope tail cap heads;

and the control system is used for controlling the feeding mechanism, the rope threading mechanism, the clamp mechanism and the rope pressing tail cap mechanism through circuit design so as to realize automatic penetration of the rope belt.

Further, feeding mechanism includes vibration dish, pay-off track and pay-off subassembly, wherein:

the vibrating disc is fixedly arranged on the rope penetrating frame, the foremost end of the vibrating disc is connected with the top of the vertically arranged feeding track, and the spring fastener in the vibrating disc falls along the feeding track;

pay-off subassembly is including ending flitch, feeding cylinder mount, pay-off platform mount, pay-off mould spring, pay-off mould, pay-off platform and spring fixed pin, wherein:

the feeding cylinder fixing frame and the feeding platform fixing frame are fixedly arranged on the workbench along a straight line in sequence;

one end of the feeding cylinder is fixed above the feeding cylinder fixing frame;

one end, close to the feeding cylinder fixing frame, of the feeding platform is fixed above the feeding platform fixing frame, one end, far away from the feeding cylinder fixing frame, of the feeding platform is an inwards-concave semicircular notch, the radius of the semicircular notch is larger than that of the feeding die, and the feeding die is used for accurately translating from the semicircular notch to the clamp mechanism without position deviation;

the feeding die is placed on the feeding platform, is positioned right below the feeding track at an initial position and is used for accommodating a spring buckle falling from the feeding track;

the lower part of the material stopping plate is connected with a piston rod of the feeding cylinder, the material stopping plate is abutted against the top of the feeding die and used for making linear motion along with the telescopic direction of the feeding cylinder so as to enable the front part of the material stopping plate to push the feeding die to move forwards on the feeding platform and enable the upper surface of the rear part of the material stopping plate to seal the bottom of the feeding track so as to avoid the continuous falling of a spring fastener;

the upper end of the spring fixing pin is fixed at the lower part of the material stopping plate, and the lower end of the spring fixing pin is abutted against the upper part of the feeding platform;

the feeding die spring is wound on the periphery of the spring fixing pin and sleeved on the periphery of the feeding die.

Preferably, the feeding die is of a movable opening type and is formed by buckling two semicircular columns, and the two semicircular columns are folded by the feeding die spring in a normal state.

Preferably, the top of one side of each of the two semicircular columns facing the material stopping plate is provided with an arc-shaped notch, and the arc-shaped notches are used for driving the material feeding die to move forwards when the material stopping plate moves linearly along the material feeding platform under the action of the material feeding cylinder.

Further, anchor clamps mechanism includes adjustable cylinder of first stroke, last mould of reeving and reeving lower mould, wherein:

the lower stringing die is fixedly arranged on the workbench;

the first stroke-adjustable cylinder is fixedly arranged on the rope threading frame;

the upper rope threading die is installed at the lower end of the first stroke-adjustable cylinder and is arranged corresponding to the lower rope threading die up and down.

Further, the rope threading mechanism includes crochet hook, crochet hook cylinder connecting plate, parallel bar cylinder fixed plate and parallel bar cylinder, wherein:

the parallel-bar cylinder fixing plate is arranged in the rope penetrating frame, is divided into an upper part and a lower part and is locked by a screw rod, and is used for adjusting the height of the parallel-bar cylinder according to the size of a spring fastener when necessary so that the hook needle can better pass through a spring fastener hole;

the parallel-bar cylinder is positioned above the parallel-bar cylinder fixing plate;

the crochet hook is connected with the parallel bar cylinder through the crochet hook cylinder connecting plate and used for making linear motion along the telescopic direction of the parallel bar cylinder.

Furthermore, four corners of the lower threading die are respectively provided with a fixing hole, and the fixing holes are long holes and used for adjusting the left position and the right position of the lower threading die so that the crochet hook can pass through the spring buckle holes conveniently.

Preferably, the semicircular notch is arranged on one side of the top of the lower stringing die in a surrounding mode, the top horizontal plane of the lower stringing die is lower than that of the feeding platform, and the lower stringing die is used for enabling the feeding die to automatically open due to the height difference between the lower stringing die and the feeding platform when the feeding cylinder retracts, so that the feeding die can be automatically closed under the spring action of the feeding die after the spring fastener completely leaves the feeding die.

Further, press rope tail cap mechanism to include pressing rope tail cap mould, stringing frame, the adjustable cylinder of second stroke and draw-in groove, wherein:

the stringing frame is arranged above the workbench;

the second stroke-adjustable cylinder is fixedly arranged on the rope threading frame, the lower end of the second stroke-adjustable cylinder is fixedly provided with the rope pressing tail cap die and is used for placing a rope belt threaded with the rope tail cap into the clamping groove in the bottom of the rope threading frame and pressing the rope tail cap through the operation of the second stroke-adjustable cylinder.

Further, control system includes time relay, switch box, change over switch, first foot switch and second foot switch, wherein:

the switch box is arranged on the rope penetrating frame;

the time relay is arranged on the switch box and used for controlling the rope pulling speed of the parallel bar cylinder;

the change-over switch is arranged on the switch box and used for switching the rope threading machine between a pedal starting mode and an automatic circulation mode;

the first pedal switch is arranged below the workbench, is electrically connected with the first stroke-adjustable cylinder and is used for controlling the first stroke-adjustable cylinder to operate by a user through pedaling or treading;

the second pedal switch is arranged below the workbench, electrically connected with the second stroke-adjustable cylinder and used for controlling the second stroke-adjustable cylinder to operate by a user through treading or pedaling.

The utility model discloses owing to adopt above technical scheme, make it compare with prior art, have following advantage and positive effect:

the utility model discloses automatic wear snak link threading tape machine for the handbag, case and bag, leather products, clothing, decorate the equipment of the binding port fag end fastener of trade, be applicable to the reeg end fastener and wear fag end technology demand, the design is nimble convenient efficient, satisfy in handbag, case and bag, leather products, clothing, decorate the laborsaving swift of trade snak link rope-threading tape, thereby improve original operating personnel fatigue through the composite action of each cylinder, thereby improve efficiency greatly when reducing operating personnel working strength, the cost of labor has been saved, reach automatic efficient effect.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

fig. 1 is a schematic view of the overall structure of an automatic spring buckle stringing belt machine of the present invention;

FIG. 2 is an exploded view of the automatic buckle threading machine of the present invention;

fig. 3 is a schematic view of the structure of a feeding mechanism in an automatic spring buckle stringing belt machine.

[ description of main symbols ]

1-vibrating a disc; 2-a feeding track; 3-a first stroke-adjustable cylinder; 4-time relay; 5-a switch box; 6-a transfer switch; 7-threading an upper die; 8-threading a lower die; 9-stopping plate; 10-a feeding cylinder; 11-a feeding cylinder fixing frame; 12-feeding platform fixing frame; 13-feeding die spring; 14-feeding a material die; 15-a feeding platform; 16-crochet hook; 17-crochet hook cylinder connecting plate; 18-parallel bar cylinder fixing plate; 19-parallel bar cylinder; 20-pressing a rope tail cap die; 21-a stringing frame; 22-a workbench; 23-a first foot switch; 24-spring fixed pins; 25-a second stroke-adjustable cylinder; 26-a second foot switch; 27-a fixation hole; 28-card slot; 29-semicircular notches; 30-arc notch; 31-half cylinder.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-3, the embodiment discloses an automatic spring buckle threading machine, which includes a workbench 22, and a feeding mechanism, a threading machine mechanism, a clamp mechanism, a tail cap mechanism and a control system, which are arranged on the workbench 22, wherein:

the feeding mechanism is used for feeding the raw materials to a specified position;

the rope threading mechanism is used for threading the rope into the spring lock catch;

the clamp mechanism is used for changing the fasteners with different shapes and sizes;

the rope tail cap pressing mechanism is used for pressing various rope tail cap heads;

and the control system is used for controlling the feeding mechanism, the rope threading mechanism, the clamp mechanism and the rope pressing tail cap mechanism through circuit design so as to realize automatic penetration of the rope belt.

Referring to fig. 1, the feeding mechanism includes a vibration plate 1, a feeding rail 2, and a feeding assembly, wherein:

the vibrating disc 1 is fixedly arranged on the rope threading frame 21, and the foremost end of the vibrating disc 1 is connected with the top of the vertically arranged feeding track 2 and used for enabling a spring buckle in the vibrating disc 1 to fall along the feeding track 2;

the feeding assembly comprises a material stopping plate 9, a feeding cylinder 10, a feeding cylinder fixing frame 11, a feeding platform fixing frame 12, a feeding die spring 13, a feeding die 14, a feeding platform 15 and a spring fixing pin 24, wherein:

the feeding cylinder fixing frame 11 and the feeding platform fixing frame 12 are sequentially and fixedly arranged on the workbench 22 along a straight line;

one end of the feeding cylinder 10 is fixed above the feeding cylinder fixing frame 11;

one end of the feeding platform 15, which is close to the feeding cylinder fixing frame 11, is fixed above the feeding platform fixing frame 12, one end, which is far away from the feeding cylinder fixing frame 11, is an inward-concave semicircular notch 29, and the radius of the semicircular notch 29 is slightly larger than that of the feeding die 14, so that the feeding die 14 can be accurately translated from the semicircular notch 29 to the clamp mechanism without position deviation;

the feeding die 14 is placed on the feeding platform 15, is positioned right below the feeding track 2 in an initial position, and is used for receiving the spring fastener falling from the feeding track 2;

the lower part of the material stopping plate 9 is connected with a piston rod of the feeding cylinder 10, the material stopping plate 9 abuts against the top of the feeding die 14, and the material stopping plate is used for making linear motion along with the telescopic direction of the feeding cylinder 10 so as to enable the front part of the material stopping plate 9 to push the feeding die 14 to move forwards on the feeding platform 15 and enable the upper surface of the rear part of the material stopping plate 9 to seal the bottom of the feeding track 2 so as to avoid continuous falling of a spring fastener;

the upper end of the spring fixing pin 24 is fixed at the lower part of the material stopping plate 9, and the lower end of the spring fixing pin abuts against the upper part of the feeding platform 15;

the feeding die spring 13 is wound on the periphery of the spring fixing pin 24 and sleeved on the periphery of the feeding die 14.

In this embodiment, the feeding mold 14 is of a movable opening type and is formed by two semicircular columns 31 which are buckled with each other, and in a normal state, the two semicircular columns 31 are folded by the feeding mold spring 13. Preferably, the top of one side of each of the two semicircular columns 31 facing the material stopping plate 9 is provided with an arc-shaped notch 30, so that the material stopping plate 9 drives the material feeding mold 14 to move forward when moving linearly along the material feeding platform 15 under the action of the material feeding cylinder 10.

Further, the clamp mechanism comprises a first stroke-adjustable cylinder 3, a stringing upper die 7 and a stringing lower die 8, and the stringing lower die 8 is fixedly installed on the workbench 22; the first stroke-adjustable cylinder 3 is fixedly arranged on the rope threading frame 21; the upper rope threading die 7 is installed at the lower end of the first stroke-adjustable cylinder 3 and corresponds to the lower rope threading die 8 up and down. In this embodiment, the lower stringing die 8, the feeding rail 2 and the feeding die 14 can be replaced according to the actual style of the spring fastener.

Further, the rope threading mechanism comprises a crochet hook 16, a crochet hook cylinder connecting plate 17, a parallel-bar cylinder fixing plate 18 and a parallel-bar cylinder 19. The parallel-bar cylinder fixing plate 18 is installed in the rope penetrating frame 21, is divided into an upper part and a lower part and is locked by a screw rod, and is used for adjusting the height of the parallel-bar cylinder 19 according to the size of a spring buckle when necessary so as to enable the crochet hook 16 to better pass through the spring buckle hole. The parallel-bar cylinder 19 is located above the parallel-bar cylinder fixing plate 18. The crochet hook 16 is connected with the parallel-bar cylinder 19 through the crochet hook cylinder connecting plate 17 and used for making linear motion along the telescopic direction of the parallel-bar cylinder 19. In this embodiment, the crochet hook cylinder connecting plate 17 can be replaced according to the specific style of the spring fastener.

Further, four corners of the lower stringing die 8 are respectively provided with a fixing hole 27, and the fixing holes 27 are long holes and used for adjusting the left and right positions of the lower stringing die 8 so as to facilitate the crochet hook 16 to pass through the spring buckle hole.

Preferably, the semicircular notch 29 is defined on one side of the top of the lower stringing die 8, and the top horizontal plane of the lower stringing die 8 is slightly lower than the top horizontal plane of the feeding platform 15, so that when the feeding cylinder 10 is retracted, the feeding die 14 is automatically opened due to the height difference between the lower stringing die 8 and the feeding platform 15, and the spring buckle is automatically closed under the action of the feeding die spring 13 after completely leaving the feeding die 14.

Further, the rope pressing tail cap mechanism comprises a rope pressing tail cap die 20, a rope threading frame 21, a second stroke-adjustable cylinder 25 and a clamping groove 28, wherein the rope threading frame 21 is arranged above the workbench 22; the second stroke-adjustable cylinder 25 is fixedly arranged on the rope threading frame 21, the lower end of the second stroke-adjustable cylinder is fixedly provided with the rope pressing tail cap die 20, and the second stroke-adjustable cylinder 25 is used for putting a rope belt threaded with a rope tail cap into the clamping groove 28 on the bottom of the rope threading frame 21, pressing a starting switch and then pressing the rope tail cap tightly through the operation of the second stroke-adjustable cylinder 25.

Further, the control system comprises a time relay 4, a switch box 5, a change-over switch 6, a first foot switch 23 and a second foot switch 26, wherein the switch box 5 is arranged on the stringing frame 21; the time relay 4 is arranged on the switch box 5 and is used for controlling the rope pulling speed of the parallel bar cylinder 19; the change-over switch 6 is arranged on the switch box 5 and is used for switching the rope threading machine between a pedal starting mode and an automatic circulation mode; the first foot switch 23 is disposed below the workbench 22, electrically connected to the first stroke-adjustable cylinder 3, and configured to control the first stroke-adjustable cylinder 3 to operate by a user stepping on or pedaling the first pedal; the second foot switch 26 is disposed below the working platform 22, and electrically connected to the second stroke-adjustable cylinder 25, so that a user can control the second stroke-adjustable cylinder 25 to operate by stepping on or pedaling the second foot switch. In this embodiment, the first stroke-adjustable cylinder 3 and the second stroke-adjustable cylinder 25 are both equipped with magnetic sensors, and each action is monitored to be in place without generating a collision fault phenomenon.

The specific working principle is as follows:

the automatic spring fastener threading locking cap machine control system sends a threading belt instruction, a spring fastener falls into a feeding die 14 through a feeding rail 2, when the spring fastener is sensed to be in the feeding die 14, a feeding cylinder 10 fixed on a workbench 22 through a feeding cylinder fixing frame 11 starts to work, the spring fastener is conveyed into a lower threading die 8 from a feeding platform 15, a material stopping plate 9 fixed with the feeding die 14 extends out to prevent the spring fastener in the feeding rail 2 from continuously falling downwards, a feeding mechanism enables the spring fastener to be conveyed into the lower threading die 8 from the feeding platform 15 through the matching of a feeding assembly accurately, the feeding die 14 resets after the spring fastener falls into the lower threading die 8 under the action of the feeding die 14, and the beginning of the next action is waited until the whole feeding action is completed.

When the feeding cylinder 10 is retracted after the feeding die 14 feeds the spring buckle into the lower stringing die 8, the spring buckle can open the feeding die 14, and the spring buckle is automatically closed under the action of the feeding die spring 13 after completely leaving the feeding die 14.

When the spring fastener falls into the lower rope threading die 8, the upper rope threading die 7 starts to be pressed down under the action of the first stroke adjustable cylinder 3 to tightly press the spring fastener, at the moment, a rope threading hole of the spring fastener is exposed, meanwhile, a hook needle 16 fixed on a parallel bar cylinder 19 through a hook needle cylinder connecting plate 17 starts to act and just extends out of the spring fastening hole (the number and the direction of the hook needle 16 are determined by the type of the spring fastener), then the rope belt is placed on the hook needle 16, the parallel bar cylinder 19 is automatically retracted after a certain time delay, the rope belt on the hook needle 16 is pulled out of the spring fastening hole, finally, the first stroke adjustable cylinder 3 resets to take out the spring fastener with the rope belt, and the whole set of actions can be repeated and automatically circulated.

Finally, the rope belt threaded with the rope tail cap is placed into the clamping groove 28 on the rope threading frame 21, and after the starting switch is pressed down, the second stroke-adjustable air cylinder 25 acts to press the rope tail cap tightly.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides an automatic snak link threading tape machine, its characterized in that, includes workstation (22), and sets up feeding mechanism, threading tape mechanism, anchor clamps mechanism, pressure rope tail cap mechanism and control system on workstation (22), wherein:

the feeding mechanism is used for feeding the raw materials to a specified position;

the rope threading mechanism is used for threading the rope into the spring lock catch;

the clamp mechanism is used for changing the fasteners with different shapes and sizes;

the rope tail cap pressing mechanism is used for pressing the head of the rope tail cap;

and the control system is used for controlling the feeding mechanism, the rope threading mechanism, the clamp mechanism and the rope pressing tail cap mechanism through circuit design so as to realize automatic penetration of the rope belt.

2. The automatic spring buckle stringing belt machine according to claim 1, characterized in that the feeding mechanism comprises a vibrating disk (1), a feeding track (2) and a feeding assembly, wherein:

the vibrating disc (1) is fixedly arranged on the rope threading frame (21), the foremost end of the vibrating disc (1) is connected with the top of the vertically arranged feeding track (2), and a spring fastener positioned in the vibrating disc (1) falls along the feeding track (2);

the pay-off subassembly is including ending flitch (9), pay-off cylinder (10), pay-off cylinder mount (11), pay-off platform mount (12), pay-off mould spring (13), pay-off mould (14), pay-off platform (15) and spring fixed pin (24), wherein:

the feeding cylinder fixing frame (11) and the feeding platform fixing frame (12) are fixedly arranged on the workbench (22) along a straight line in sequence;

one end of the feeding cylinder (10) is fixed above the feeding cylinder fixing frame (11);

one end, close to the feeding cylinder fixing frame (11), of the feeding platform (15) is fixed above the feeding platform fixing frame (12), one end, far away from the feeding cylinder fixing frame (11), of the feeding platform is an inwards concave semicircular notch (29), the radius of the semicircular notch (29) is larger than that of the feeding die (14), and the feeding die (14) is used for accurately translating from the semicircular notch (29) to the clamp mechanism without position deviation;

the feeding die (14) is placed on the feeding platform (15), is positioned right below the feeding track (2) in an initial position and is used for receiving a spring buckle falling from the feeding track (2);

the lower part of the material stopping plate (9) is connected with a piston rod of the feeding cylinder (10), the material stopping plate (9) is abutted against the top of the feeding die (14) and used for making linear motion along with the telescopic direction of the feeding cylinder (10) so as to enable the front part of the material stopping plate (9) to push the feeding die (14) to move forwards on the feeding platform (15) and enable the upper surface of the rear part of the material stopping plate (9) to seal the bottom of the feeding track (2) so as to avoid continuous falling of a spring fastener;

the upper end of the spring fixing pin (24) is fixed at the lower part of the material stopping plate (9), and the lower end of the spring fixing pin is abutted against the upper part of the feeding platform (15);

the feeding die spring (13) is wound on the periphery of the spring fixing pin (24) and sleeved on the periphery of the feeding die (14).

3. The automatic spring buckle stringing belt machine according to claim 2, characterized in that the feeding die (14) is of a movable opening type and is composed of two half cylinders (31) which are buckled with each other, and under a normal state, the feeding die spring (13) draws the two half cylinders (31) together.

4. The automatic spring buckle stringing belt machine as claimed in claim 3, characterized in that the top of one side of the two semicircular columns (31) facing the material stopping plate (9) is respectively provided with an arc-shaped notch (30) for driving the material feeding die (14) to move forward when the material stopping plate (9) moves linearly along the material feeding platform (15) under the action of the material feeding cylinder (10).

5. The automatic spring buckle stringing belt machine according to claim 3, characterized in that the clamp mechanism comprises a first stroke-adjustable cylinder (3), a stringing upper die (7) and a stringing lower die (8), wherein:

the lower stringing die (8) is fixedly arranged on the workbench (22);

the first stroke-adjustable cylinder (3) is fixedly arranged on the rope threading frame (21);

the upper rope threading die (7) is installed at the lower end of the first stroke-adjustable cylinder (3) and corresponds to the lower rope threading die (8) in an up-and-down mode.

6. The automatic snapper stringing machine according to claim 5, characterized in that the stringing mechanism comprises a crochet (16), a crochet cylinder connecting plate (17), a parallel bar cylinder fixing plate (18) and a parallel bar cylinder (19), wherein:

the parallel-bar cylinder fixing plate (18) is arranged in the rope penetrating frame (21), is divided into an upper part and a lower part and is locked by a screw rod, and is used for adjusting the height of the parallel-bar cylinder (19) according to the size of a spring buckle when necessary so that the hook needle (16) can better pass through a spring buckle hole;

the parallel-bar cylinder (19) is positioned above the parallel-bar cylinder fixing plate (18);

the crochet hook (16) is connected with the parallel-bar cylinder (19) through the crochet hook cylinder connecting plate (17) and used for making linear motion along the telescopic direction of the parallel-bar cylinder (19).

7. The automatic spring buckle stringing belt machine as claimed in claim 6, characterized in that a fixing hole (27) is opened at each of four corners of the stringing lower die (8), and the fixing hole (27) is a long hole shape for adjusting the left and right positions of the stringing lower die (8) so as to facilitate the passage of the crochet hook (16) through the spring buckle hole.

8. The automatic spring buckle stringing belt machine according to claim 6, characterized in that the semicircular notch (29) is enclosed at one side of the top of the stringing lower die (8), the top horizontal plane of the stringing lower die (8) is lower than the top horizontal plane of the feeding platform (15), and the semicircular notch is used for enabling the feeding die (14) to automatically expand due to the height difference of the stringing lower die (8) and the feeding platform (15) when the feeding cylinder (10) is retracted, so that the feeding die (14) automatically expands and automatically closes under the action of the feeding die spring (13) after the spring buckle completely leaves the feeding die (14).

9. The automatic spring buckle stringing belt machine according to claim 5, characterized in that the tail cap pressing mechanism comprises a tail cap pressing die (20), a stringing frame (21), a second stroke-adjustable cylinder (25) and a clamping groove (28), wherein:

the rope threading frame (21) is arranged above the workbench (22);

the second stroke-adjustable cylinder (25) is fixedly arranged on the rope threading frame (21), the lower end of the second stroke-adjustable cylinder is fixedly provided with the rope pressing tail cap die (20) and is used for placing a rope belt threaded with a rope tail cap into a clamping groove (28) in the bottom of the rope threading frame (21) and pressing the rope tail cap through the operation of the second stroke-adjustable cylinder (25).

10. An automatic snapper stringing machine according to claim 9, characterized in that the control system comprises a time relay (4), a switch box (5), a change-over switch (6), a first foot switch (23) and a second foot switch (26), wherein:

the switch box (5) is arranged on the rope penetrating frame (21);

the time relay (4) is arranged on the switch box (5) and is used for controlling the rope pulling speed of the parallel-bar cylinder (19);

the change-over switch (6) is arranged on the switch box (5) and is used for switching the rope threading machine between a pedal starting mode and an automatic circulation mode;

the first pedal switch (23) is arranged below the workbench (22), is electrically connected with the first stroke-adjustable cylinder (3), and is used for controlling the first stroke-adjustable cylinder (3) to operate by a user through pedaling or treading;

the second foot switch (26) is arranged below the workbench (22), is electrically connected with the second stroke-adjustable cylinder (25), and is used for controlling the second stroke-adjustable cylinder (25) to operate by a user through foot treading or treading.

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