CN216727945U - Stay wire cutting, rubberizing and tin immersion integrated machine - Google Patents

Abstract

The utility model discloses a stay wire cutting, rubberizing and wicking integrated machine, which comprises: the device comprises a rack, a transmission device, a feeding device, a thread cutting device, a loading device, a thread clamping and wire drawing device, a rubberizing device and a tin immersion device. The stay wire of this structure cuts rubberizing wicking all-in-one, establishes ties with other devices through transmission device to can play the effect of line production, improve work efficiency, it is further, reduced manual operation, reduce the cost of using the manual work, reduce the burden of enterprise, improve the production efficiency of product.

Description

Stay wire cutting, rubberizing and tin immersion integrated machine

Technical Field

The utility model relates to the technical field of sensing instruments, in particular to a stay wire cutting, rubberizing and tin immersion integrated machine.

Background

NTC sensor is in the in-process of production, generally need use the fastener with artificial mode to place the acting as go-between on the frock board, pushes down the line of flare-outing with the clamp plate, and the clamp plate distance can be adjusted according to the length of wire rod, and the workman reuses the cut-off in proper order with the wire rod of flare-outing afterwards, carries out the rubberizing again, fixes the wire rod on the product carrier, and the manual work shifts the product and takes off the wicking and handle. Therefore, the labor and time are wasted by adopting manual production, and simultaneously, the requirement of modern production efficiency is not met, and certain burden is caused to enterprises.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to solve the technical problem that the manual production does not meet the modern production efficiency, thereby providing the integrated machine for cutting, gluing and tin dipping of the stay wire.

In order to solve the problems, the utility model provides a stay wire cutting, rubberizing and wicking all-in-one machine, which comprises:

a frame;

the conveying device is arranged on the rack and is suitable for conveying the carrier plate;

the feeding device is arranged on the rack, arranged on the side surface of one end of the conveying device and suitable for being matched with the conveying device to place the carrier plate on the conveying device;

the wire cutting device is arranged on the rack, arranged on one side of the transmission device and suitable for cutting off the wire;

the material loading device is arranged on one side of the rack, is matched with the wire cutting device and is suitable for arranging wires on the wire cutting device;

the wire clamping and pulling device is arranged on the rack, is arranged on one side of the transmission device corresponding to the wire cutting device and is suitable for clamping and pulling wires in cooperation with the wire cutting device;

the rubberizing device is arranged on the rack, is arranged between the wire cutting device and the wire clamping and pulling device, is arranged at the upper end of the transmission device and is suitable for being matched with the transmission device, the wire cutting device and the wire clamping and pulling device to paste a wire on the carrier plate;

and the tin immersion device is arranged on the rack, is arranged at the other end of the transmission device and is suitable for being matched with the transmission device to perform tin immersion on the wire on the carrier plate.

Preferably, transmission device includes carrier board fixing base, first slide rail and first motor, carrier board fixing base sets up on first slide rail, first motor sets up the one end at first slide rail, the one end that first slide rail was provided with first motor still is provided with the initiative synchronizing wheel, the initiative synchronizing wheel is connected with first motor, the other end of first slide rail is provided with the driven synchronizing wheel, the initiative synchronizing wheel passes through belt and driven synchronizing wheel cooperation, carrier board fixing base is connected with the belt cooperation, carrier board fixing base is suitable for through the belt along the direction of guidance of first slide rail to slide.

Preferably, loading attachment includes material loading base, carrier board, first cylinder, push pedal and bounding wall, the material loading base is fixed to be set up in the frame, the bounding wall is fixed to be set up on the material loading base, the carrier board sets up the upper end at the push pedal, and the lower extreme of push pedal is provided with first cylinder, the push pedal is suitable for to place the carrier board on the carrier board fixing base through first cylinder.

Preferably, the wire cutting device comprises a wire cutting base, a cutting knife rest, a first wire guiding device and a second wire guiding device, the cutting knife rest is arranged on the wire cutting base, a cutter is arranged on the cutting knife rest, the first wire guiding device and the second wire guiding device are arranged on the wire cutting base, a plurality of wire guiding holes are respectively arranged on the first wire guiding device and the second wire guiding device, the wire guiding holes of the first wire guiding device and the wire guiding holes of the second wire guiding device are arranged in a one-to-one correspondence manner, the plurality of wire guiding holes are horizontally arranged on one side of the first wire guiding device and one side of the second wire guiding device, the wire guiding devices are matched with the cutter, and the cutter is suitable for cutting off wires led out from the wire guiding holes.

Preferably, a second guide rail is arranged on the tangent line base, the first wire guiding device is arranged on the second guide rail, a second cylinder is arranged at one end of the first wire guiding device, and the first wire guiding device is suitable for moving along the guide direction of the second guide rail through the second cylinder.

Preferably, the wire clamping and pulling device comprises a wire clamping mechanism and a wire pulling mechanism, and the wire clamping mechanism comprises: support, third cylinder, swing arm, eccentric wheel, clamping jaw and third guide rail, the third cylinder sets up the medial surface at the support, the third cylinder is connected with the swing arm, and the swing arm passes through the transmission shaft to be connected with the eccentric wheel, the clamping jaw includes last clamping jaw and lower clamping jaw, go up the clamping jaw and set up the both ends at the third guide rail respectively with lower clamping jaw, the third guide rail sets up on the lateral surface of support, the eccentric wheel sets up between last clamping jaw and lower clamping jaw and the both sides face of eccentric wheel is connected with last clamping jaw and lower clamping jaw respectively, go up the clamping jaw and be suitable for the direction of rotation through the eccentric wheel to remove along the third guide rail with lower clamping jaw.

Preferably, the wire pulling mechanism includes: the wire drawing mechanism comprises a wire drawing base, a second motor, a first ball screw and a fourth guide rail, wherein the second motor is arranged at one end of the wire drawing base, one end of the first ball screw is connected with the second motor, the other end of the first ball screw is connected with a wire clamping mechanism, the fourth guide rail is fixedly arranged on the wire drawing base, and the wire clamping mechanism is suitable for moving along the guide direction of the fourth guide rail through the first ball screw.

Preferably, the rubberizing device comprises: the fourth cylinder is connected with the rubber pressing guide wheel and is suitable for pressing the rubber pressing guide wheel downwards, the adhesive tape on the rubber disc covers the surfaces of the rubber pressing guide wheel and the rubber pressing wheel, and the rubber pressing wheel is suitable for bonding the adhesive tape with the carrier plate and the wires on the carrier plate.

Preferably, the tin immersion device comprises: wicking base, third motor, second ball, fifth guide rail, balladeur train, finger cylinder and mechanical finger, the third motor sets up on the wicking base, the third motor is connected to the one end of second ball, and the balladeur train is connected to the other end, the fixed setting of fifth guide rail is on the wicking base, the balladeur train sets up on the fifth guide rail, the balladeur train is suitable for the direction of direction removal along the fifth guide rail through third motor and second ball, finger cylinder and mechanical finger set up on the lateral surface of balladeur train both sides, finger cylinder and mechanical finger connect, mechanical finger is suitable for through pointing cylinder centre gripping carrier board.

Preferably, a fourth motor is further disposed on the carriage, the fourth motor is connected to the mechanical finger, and the fourth motor is adapted to control the mechanical finger to rotate by 180 °.

The utility model has the following advantages:

the utility model provides a stay wire cutting, rubberizing and wicking all-in-one machine which comprises a rack, a transmission device, a feeding device, a wire cutting device, a loading device, a wire clamping and pulling device, a rubberizing device and a wicking device. The conveying device is arranged on the rack and is suitable for conveying the carrier plate; the feeding device is arranged on the rack, arranged on the side surface of one end of the conveying device and suitable for being matched with the conveying device to place the carrier plate on the conveying device; the wire cutting device is arranged on the rack, arranged on one side of the transmission device and suitable for cutting off the wire; the material loading device is arranged on one side of the rack, is matched with the wire cutting device and is suitable for arranging wires on the wire cutting device; the wire clamping and pulling device is arranged on the rack, is arranged on one side of the transmission device corresponding to the wire cutting device and is suitable for clamping and pulling wires in cooperation with the wire cutting device; the rubberizing device is arranged on the rack, is arranged between the wire cutting device and the wire clamping and pulling device, is arranged at the upper end of the transmission device and is suitable for being matched with the transmission device, the wire cutting device and the wire clamping and pulling device to paste a wire on the carrier plate; the wicking device is arranged on the rack, and the wicking device is arranged at the other end of the transmission device and is suitable for being matched with the transmission device to wick wires on the carrier plate.

The stay wire of this structure cuts rubberizing wicking all-in-one, establishes ties with other devices through transmission device to can play the effect of line production, improve work efficiency, it is further, reduced manual operation, reduce the cost of using the manual work, reduce the burden of enterprise, improve the production efficiency of product.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural diagram of an integrated machine for drawing wire, cutting, rubberizing and wicking in an embodiment of the utility model;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of the wire drawing, cutting, rubberizing and wicking all-in-one machine in the embodiment of the utility model;

FIG. 4 is an enlarged view of portion B of FIG. 2;

FIG. 5 is a schematic structural diagram of a transmission device according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a feeding device in an embodiment of the present invention;

FIG. 7 is a schematic view of a cutting device according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of a wire clamping and pulling device according to an embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a wire clamping mechanism according to an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a wire clamping mechanism according to an embodiment of the present invention;

FIG. 11 is a schematic structural diagram of a tape dispenser according to an embodiment of the present invention;

FIG. 12 is a schematic structural diagram of a wicking device in an embodiment of the utility model;

description of reference numerals:

1. a frame;

2. a transmission device; 201. a carrier plate fixing seat; 202. a first slide rail; 203. a first motor; 204. a driving synchronizing wheel; 205. a driven synchronizing wheel; 206. a belt;

3. a feeding device; 301. a feeding base; 302. a carrier plate; 303. a first cylinder; 304. pushing the plate; 305. enclosing plates;

4. a thread cutting device; 401. a wire cutting base; 402. a cutter frame; 403. a cutter; 404. a first wire guide; 405. a second wire guide; 406. a wire guide hole; 407. a second guide rail; 408. a second cylinder;

5. a wire clamping and pulling device; 501. a support; 502. a third cylinder; 503. swinging arms; 504. an eccentric wheel; 505. an upper clamping jaw; 506. a lower jaw; 507. a third guide rail; 508. a drive shaft; 509. a stay wire base; 510. a second motor; 511. a first ball screw; 512. a fourth guide rail;

6. a rubberizing device; 601. a fourth cylinder; 602. a rubber plate; 603. a rubber pressing wheel; 604. a rubber pressing guide wheel;

7. a tin immersion device; 701. a tin immersion base; 702. a third motor; 703. a second ball screw; 704. a fifth guide rail; 705. a carriage; 706. a finger cylinder; 707. a mechanical finger; 708. a fourth motor;

8. a material loading device.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, 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", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular 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 should 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 meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Furthermore, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 4, the embodiment discloses a stay wire cutting, rubberizing and wicking all-in-one machine, which comprises a frame 1, and a transmission device 2, a feeding device 3, a thread cutting device 4, a thread clamping and pulling device 5, a rubberizing device 6, a wicking device 7 and a loading device 8 which are arranged on the frame 1. The transport device 2 is used for transporting the carrier plate 302. In fig. 1, the loading device 3 is disposed on the right side of the left end of the transfer device 2, and the carrier plate 302 is placed on the transfer device 2 by being engaged with the transfer device 2. In fig. 1, a cutting device 4 is arranged on the left side of the conveying device 2 for cutting the wire. Carry material device 8 and set up in one side of frame 1, carry material device 8 and tangent line device 4 cooperation for deposit the wire rod, and set up the wire rod on tangent line device 4. The wire clamping and pulling device 5 is arranged opposite to the wire cutting device 4 and is used for clamping and pulling wires in cooperation with the wire cutting device 4. The rubberizing device 6 is arranged between the thread cutting device 4 and the thread clamping and pulling device 5, the rubberizing device 6 is arranged at the upper end of the transmission device 2, and is matched with the transmission device 2, the thread cutting device 4 and the thread clamping and pulling device 5 to paste the thread on the carrier plate 302. In fig. 3, the wicking device 7 is disposed at the right end of the transport device 2, and cooperates with the transport device 2 to wick the wires on the carrier plate 302.

As shown in fig. 5, in the solution of the present embodiment, the transmission device 2 includes a carrier plate fixing base 201, a first slide rail 202 and a first motor 203. The carrier plate fixing seat 201 is arranged on a first sliding rail 202, a first motor 203 is arranged on the first sliding rail 202, a driving synchronizing wheel 204 and a driven synchronizing wheel 205 are respectively arranged at two ends of the first sliding rail 202, the first motor 203 and the driving synchronizing wheel 204 are arranged at the same end of the first sliding rail 202, the first motor 203 is connected with the driving synchronizing wheel 204, the driving synchronizing wheel 204 is matched with the driven synchronizing wheel 205 through a belt 206, the carrier plate fixing seat 201 is matched and connected with the belt 206, and the carrier plate fixing seat 201 slides in the guiding direction of the first sliding rail 202 through the belt 206.

As shown in fig. 6, in the present embodiment, the feeding device 3 includes a feeding base 301, a carrier plate 302, a first cylinder 303, a push plate 304, and a surrounding plate 305. The feeding base 301 is fixedly arranged on the main body, the push plate 304 is arranged on the feeding base 301, the carrier plate 302 is arranged at the upper end of the push plate 304 in fig. 6, the first air cylinder 303 is arranged at the lower end of the push plate 304, the push plate 304 can horizontally move through the first air cylinder 303 in fig. 6, and the first air cylinder 303 is matched with the push plate 304 to place the carrier plate 302 on the carrier plate 302 fixing seat 201.

As shown in fig. 7, in the solution of the present embodiment, the thread cutting device 4 includes a thread cutting base 401, a cutting holder 402, a first thread guiding device 404 and a second thread guiding device 405. The wire cutting base 401 is arranged on the rack 1, in fig. 7, the first wire guiding device 404 is arranged at the left end of the rack 1, the second wire guiding device 405 cuts the right end of the wire cutting base 401, a plurality of wire guiding holes 406 are arranged on the first wire guiding device 404 and the second wire guiding device 405, the wire guiding holes 406 are horizontally arranged at one side of the first wire guiding device 404 and one side of the second wire guiding device 405, a wire rod sequentially passes through the second wire guiding device 405 and the first wire guiding device 404 through the wire guiding holes 406, the cutting knife rest 402 is arranged at the left end of the wire cutting base 401 and is connected with the first wire guiding device 404, a cutting knife 403 is arranged on the cutting knife rest 402, the cutting knife 403 is attached to the wire guiding holes 406 of the first wire guiding device 404, and the cutting knife 403 is matched with the first wire guiding device 404 to cut the wire rod from the wire guiding holes 406 of the first wire guiding device 404.

Further, a second guide rail 407 is arranged on the tangent base 401, the first wire guiding device 404 is arranged on the second guide rail 407, a second air cylinder 408 is arranged at the right end of the first wire guiding device 404 in fig. 7, and the first wire guiding device 404 can move along the guiding direction of the second guide rail 407 through the second air cylinder 408, so that the end of the wire rod leaks out to facilitate the clamping of the end of the wire by the wire clamping and pulling device 5.

Preferably, the first wire guide 404 and the second wire guide 405 are provided with 36 wire guides 406. In other embodiments, the first wire guide 404 and the second wire guide 405 may have 35 wire guides 406 or 37 wire guides 406 in equal numbers.

As shown in fig. 8 to 10, in the technical solution of the present embodiment, the wire clamping and pulling device 5 includes a wire clamping mechanism and a wire pulling mechanism, and the wire clamping mechanism includes: a bracket 501, a third cylinder 502, a swing arm 503, an eccentric 504, a clamping jaw and a third guide 507. A third air cylinder 502 is arranged on the inner side surface of the bracket 501, the third air cylinder 502 is connected with a swing arm 503, the swing arm 503 is connected with an eccentric 504 through a transmission shaft 508, the third air cylinder 502 enables the eccentric 504 to rotate through the swing arm 503 and the transmission shaft 508, a third guide rail 507 is arranged on the outer side surface of the bracket 501, the clamping jaws comprise an upper clamping jaw 505 and a lower clamping jaw 506, the upper clamping jaw 505 and the lower clamping jaw 506 are respectively arranged at two ends of the third guide rail 507, the eccentric 504 is arranged between the upper clamping jaw 505 and the lower clamping jaw 506, two side surfaces of the eccentric 504 are respectively connected with the upper clamping jaw 505 and the lower clamping jaw 506, and the upper clamping jaw 505 and the lower clamping jaw 506 can vertically move upwards or downwards along the third guide rail 507 through the rotation of the eccentric 504 in fig. 10.

Further, the wire pulling mechanism comprises: a wire base 509, a second motor 510, a first ball screw 511, and a fourth guide rail 512. The wire drawing base 509 is arranged on the machine frame 1, the second motor 510 is arranged at the left end of the wire drawing base 509 in fig. 8, the first ball screw 511 is arranged on the wire drawing base 509, one end of the first ball screw 511 is connected with the second motor 510, the other end is connected with the wire clamping mechanism, the fourth guide rail 512 is fixedly arranged on the wire drawing base 509, and the wire clamping mechanism can horizontally move along the fourth guide rail 512 in fig. 8 through the first ball screw 511.

As shown in fig. 11, in the solution of the present embodiment, the tape sticking apparatus 6 includes: a fourth cylinder 601, a rubber plate 602, a rubber pressing wheel 603 and a rubber pressing guide wheel 604. The fourth cylinder 601 is connected with the rubber pressing guide wheel 604, the fourth cylinder 601 can enable the rubber pressing guide wheel 604 to press downwards to limit the adhesive tape, the adhesive tape on the adhesive disc 602 covers the surfaces of the rubber pressing guide wheel 604 and the rubber pressing wheel 603, and the rubber pressing wheel 603 is suitable for bonding the adhesive tape with the carrier plate 302 and the wires on the carrier plate 302.

As shown in fig. 12, in the solution of the present embodiment, the tin immersion device 7 includes: a tin immersion base 701, a third motor 702, a second ball screw 703, a fifth guide rail 704, a sliding frame 705, a finger cylinder 706 and a mechanical finger 707. The tin immersion base 701 is arranged on the machine frame 1, the third motor 702 is arranged on the tin immersion base 701, one end of the second ball screw 703 is connected with the third motor 702, the other end of the second ball screw 703 is connected with the carriage 705, the fifth guide rail 704 is fixedly arranged on the tin immersion base 701, the carriage 705 is arranged on the fifth guide rail 704, in fig. 12, the carriage 705 can vertically move upwards or downwards along the fifth guide rail 704 through the third motor 702 and the second ball screw 703, the finger cylinder 706 and the mechanical finger 707 are arranged on the outer side surfaces of two sides of the carriage 705, the finger cylinder 706 is connected with the mechanical finger 707, and the mechanical finger 707 can clamp the carrier plate 302 through the finger cylinder 706.

Further, a fourth motor 708 is disposed on the carriage 705, the fourth motor 708 is connected to the mechanical finger 707, and the fourth motor 708 can control the mechanical finger 707 to rotate 180 °, so that the two ends of the wire on the clamped carrier plate 302 are dipped in tin.

The implementation principle of the embodiment is as follows:

the operator first places the carrier plate 302 on the loading device 3, then places the wire on the loading device 8, and passes the end of the wire through the second wire guiding device 405 and the first wire guiding device 404 in sequence. Opening the apparatus, the push plate 304 transfers the carrier plate 302 to the carrier plate fixing seat 201 of the conveying device 2, then the carrier plate fixing seat 201 moves on the first guide rail through the belt 206, then the carrier plate fixing seat 201 is conveyed to a position between the wire clamping and pulling device 5 and the wire cutting device 4, the first wire guiding device 404 moves along the guiding direction of the second guide rail 407 through the second air cylinder 408 to expose the end of the wire, the wire clamping mechanism moves on the fourth guide rail 512 through the first ball screw 511 to a position where the end of the wire can be clamped, the eccentric 504 starts to rotate through the third air cylinder 502, the swing arm 503 and the transmission shaft 508, the upper clamping jaw 505 and the lower clamping jaw 506 move vertically upwards/downwards on the third guide rail 507 through the rotation of the eccentric 504 and clamp the end of the wire, after clamping the end of the wire, the wire clamping mechanism moves towards a direction far away from the cutting device through the first ball screw 511, and the wire is pulled out, at the same time, the rubber pressing wheel 603 and the rubber pressing guide wheel 604 of the rubberizing device 6 are pressed down by the fourth air cylinder 601, the wire is pressed on the carrier plate 302, and is adhered on the carrier plate 302 by the rubber belt through the rubber pressing wheel 603 and the rubber pressing guide wheel 604, then the first wire guiding device 404 is moved to one side of the cutting tool rest 402 through the second guide rail 407 and is matched with the cutting tool 403 of the cutting tool rest 402 to cut the wire, then the carrier plate fixing seat 201 is moved to the position of the tin immersion device 7 through the first guide rail, the mechanical finger 707 clamps the carrier plate 302 arranged on the carrier plate fixing seat 201 through the finger air cylinder 706, then the carriage 705 is vertically moved downwards on the fifth guide rail 704 through the third motor 702 and the second ball screw to immerse the wire on the carrier plate 302, then the mechanical finger 707 rotates 180 degrees through the fourth motor 708 to immerse both ends of the wire on the carrier plate 302, the mechanical fingers 707 then place the carrier plates 302 after the tin immersion in the blanking mechanism for stacking and storage.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the utility model.

Claims (10)

1. The utility model provides a act as go-between cuts rubberizing wicking all-in-one which characterized in that includes:

a frame (1);

the conveying device (2) is arranged on the rack (1) and is suitable for conveying the carrier plate (302);

the feeding device (3) is arranged on the rack (1), arranged on the side face of one end of the conveying device (2) and suitable for being matched with the conveying device (2) to place the carrier plate (302) on the conveying device (2);

the wire cutting device (4) is arranged on the rack (1), and the wire cutting device (4) is arranged on one side of the transmission device (2) and is suitable for cutting off wires;

the material loading device (8) is arranged on one side of the rack (1), is matched with the wire cutting device (4) and is suitable for arranging wires on the wire cutting device (4);

the wire clamping and pulling device (5) is arranged on the rack (1), the wire clamping and pulling device (5) is arranged on one side of the transmission device (2) corresponding to the wire cutting device (4) and is suitable for clamping and pulling wires in cooperation with the wire cutting device (4);

the rubberizing device (6) is arranged on the rack (1), the rubberizing device (6) is arranged between the wire cutting device (4) and the wire clamping and pulling device (5), the rubberizing device (6) is arranged at the upper end of the transmission device (2) and is suitable for being matched with the transmission device (2), the wire cutting device (4) and the wire clamping and pulling device (5) to paste a wire on the carrier plate (302);

and the tin immersion device (7) is arranged on the rack (1), and the tin immersion device (7) is arranged at the other end of the transmission device (2) and is suitable for being matched with the transmission device (2) to perform tin immersion on the wire on the carrier plate (302).

2. The wire drawing, cutting, rubberizing and wicking all-in-one machine of claim 1, wherein:

the conveying device (2) comprises a carrier plate fixing seat (201), a first sliding rail (202) and a first motor (203), the carrier plate fixing seat (201) is arranged on the first sliding rail (202), the first motor (203) is arranged at one end of the first sliding rail (202), one end, provided with the first motor (203), of the first sliding rail (202) is further provided with a driving synchronizing wheel (204), the driving synchronizing wheel (204) is connected with the first motor (203), the other end of the first sliding rail (202) is provided with a driven synchronizing wheel (205), the driving synchronizing wheel (204) is matched with the driven synchronizing wheel (205) through a belt (206), the carrier plate fixing seat (201) is matched and connected with the belt (206), and the carrier plate fixing seat (201) is suitable for sliding along the guide direction of the first sliding rail (202) through the belt (206).

3. The stay wire cutting, rubberizing and wicking all-in-one machine of claim 2, characterized in that:

loading attachment (3) are including material loading base (301), carrier board (302), first cylinder (303), push pedal (304) and bounding wall (305), material loading base (301) is fixed to be set up in frame (1), bounding wall (305) are fixed to be set up on material loading base (301), carrier board (302) set up the upper end at push pedal (304), and the lower extreme of push pedal (304) is provided with first cylinder (303), push pedal (304) are suitable for and place carrier board (302) on carrier board fixing base (201) through first cylinder (303).

4. The stay wire cutting, rubberizing and wicking all-in-one machine of claim 3, wherein:

the thread cutting device (4) comprises a thread cutting base (401), a cutter frame (402), a first thread guiding device (404) and a second thread guiding device (405), the cutting knife rest (402) is arranged on the cutting wire base (401), the cutting knife (403) is arranged on the cutting knife rest (402), the first wire device (404) and the second wire device (405) are arranged on the tangent base (401), a plurality of wire holes (406) are respectively arranged on the first wire guiding device (404) and the second wire guiding device (405), the wire holes (406) of the first wire guiding device (404) and the wire holes (406) of the second wire guiding device (405) are arranged in a one-to-one correspondence mode, a plurality of wire holes (406) are horizontally arranged on one sides of the first wire guiding device (404) and the second wire guiding device (405), the wire guiding device is matched with a cutter (403), and the cutter (403) is suitable for cutting off the wire guided out of the wire guiding hole (406).

5. The stay wire cutting, rubberizing and wicking all-in-one machine of claim 4, wherein:

the wire cutting base (401) is provided with a second guide rail (407), the first wire device (404) is arranged on the second guide rail (407), one end of the first wire device (404) is provided with a second air cylinder (408), and the first wire device (404) is suitable for moving along the guide direction of the second guide rail (407) through the second air cylinder (408).

6. The stay wire cutting, rubberizing and wicking all-in-one machine of claim 4, wherein:

the wire clamping and pulling device (5) comprises a wire clamping mechanism and a wire pulling mechanism, wherein the wire clamping mechanism comprises: a bracket (501), a third cylinder (502), a swing arm (503), an eccentric wheel (504), a clamping jaw and a third guide rail (507), the third air cylinder (502) is arranged on the inner side surface of the bracket (501), the third air cylinder (502) is connected with the swing arm (503), the swing arm (503) is connected with the eccentric wheel (504) through the transmission shaft (508), the clamping jaws comprise an upper clamping jaw (505) and a lower clamping jaw (506), the upper clamping jaw (505) and the lower clamping jaw (506) are respectively arranged at two ends of a third guide rail (507), the third guide rail (507) is arranged on the outer side surface of the bracket (501), the eccentric wheel (504) is arranged between the upper clamping jaw (505) and the lower clamping jaw (506), two side surfaces of the eccentric wheel (504) are respectively connected with the upper clamping jaw (505) and the lower clamping jaw (506), the upper clamping jaw (505) and the lower clamping jaw (506) are suitable for moving along the guiding direction of the third guide rail (507) through the rotation of the eccentric wheel (504).

7. The stay wire cutting, rubberizing and wicking all-in-one machine of claim 6, wherein:

the wire pulling mechanism comprises: the wire drawing mechanism comprises a wire drawing base (509), a second motor (510), a first ball screw (511) and a fourth guide rail (512), wherein the second motor (510) is arranged at one end of the wire drawing base (509), one end of the first ball screw (511) is connected with the second motor (510), the other end of the first ball screw is connected with a wire clamping mechanism, the fourth guide rail (512) is fixedly arranged on the wire drawing base (509), and the wire clamping mechanism is suitable for moving along the guide direction of the fourth guide rail (512) through the first ball screw (511).

8. The stay wire cutting, rubberizing and wicking all-in-one machine of claim 7, wherein:

the rubberizing device (6) comprises: the fourth cylinder (601), the rubber plate (602), the rubber pressing wheel (603) and the rubber pressing guide wheel (604), wherein the fourth cylinder (601) is connected with the rubber pressing guide wheel (604) and is suitable for pressing down the rubber pressing guide wheel (604), the adhesive tape on the rubber plate (602) covers the surfaces of the rubber pressing guide wheel (604) and the rubber pressing wheel (603), and the rubber pressing wheel (603) is suitable for bonding the adhesive tape with the carrier plate and the wires on the carrier plate.

9. The stay wire cutting, rubberizing and wicking all-in-one machine of claim 8, wherein:

the wicking device (7) comprises: a tin immersion base (701), a third motor (702), a second ball screw (703), a fifth guide rail (704), a sliding frame (705), a finger cylinder (706) and a mechanical finger (707), the third motor (702) is arranged on the tin immersion base (701), one end of the second ball screw (703) is connected with the third motor (702), the other end is connected with the sliding frame (705), the fifth guide rail (704) is fixedly arranged on the tin immersion base (701), the sliding frame (705) is arranged on the fifth guide rail (704), the carriage (705) is adapted to be moved in the guiding direction of the fifth guide rail (704) by means of a third motor (702) and a second ball screw (703), the finger cylinder (706) and the mechanical finger (707) are arranged on the outer side surfaces of two sides of the sliding frame (705), the finger cylinder (706) is connected with a mechanical finger (707), and the mechanical finger (707) is suitable for clamping the carrier plate (302) through the finger cylinder (706).

10. The stay wire cutting, rubberizing and wicking all-in-one machine of claim 9, wherein:

a fourth motor (708) is further arranged on the sliding frame (705), the fourth motor (708) is connected with the mechanical finger (707), and the fourth motor (708) is suitable for controlling the mechanical finger (707) to rotate for 180 degrees.

Images