CN219959668U - Tin dipping and shell penetrating integrated machine - Google Patents

Abstract

The utility model discloses a tin dipping and shell penetrating integrated machine which comprises a rack, an automatic long and short wire drawing mechanism, an automatic rotating tin dipping mechanism, an automatic wire cutting and peeling mechanism, an automatic rear peeling mechanism, an automatic wire drawing mechanism, an automatic rear moving mechanism, a terminal automatic crimping mechanism, an automatic shell inserting mechanism, an automatic wire arranging mechanism, an automatic shell feeding mechanism and an automatic paying-off mechanism, wherein the automatic long and short wire drawing mechanism, the automatic rotating tin dipping mechanism, the automatic wire cutting and peeling mechanism, the automatic rear peeling mechanism, the automatic wire drawing mechanism, the automatic rear moving mechanism, the automatic terminal automatic crimping mechanism, the automatic shell inserting mechanism, the automatic wire arranging mechanism and the automatic shell feeding mechanism are arranged on the rack; the automatic back moving mechanism comprises a back wire clamping module and a back translation driving device, so that the automatic back moving mechanism is connected between the automatic shell feeding mechanism, the automatic paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism, the automatic terminal crimping mechanism and the automatic wire cutting and peeling mechanism in a reciprocating manner; the multifunctional integrated operation of end beating, shell penetrating, tin dipping, peeling, cutting and short wire lengthening of the wire rod is realized, and the integrated operation is favorable for improving the overall production and processing efficiency, so that the tin dipping, short wire lengthening, shell penetrating and peeling can be selectively started according to the actual wire rod processing requirements.

Description

Tin dipping and shell penetrating integrated machine

Technical Field

The utility model relates to the technical field of tin dipping and shell penetrating integrated machines, in particular to a tin dipping and shell penetrating integrated machine.

Background

In the prior art, a plurality of procedures such as terminal punching, shell penetrating, tin dipping, peeling, wire cutting, wire pulling and the like in the single-end terminal pressing process of the wire rod are required to be realized by a plurality of different independent devices, although full-automatic assembly can be realized, intermediate products are required to be transferred among different devices, a large amount of manpower and material resources are consumed, and the operation and the control are troublesome. Meanwhile, a plurality of devices occupy large space in a workshop, the management is troublesome, and the cost of purchasing a plurality of devices is high.

Later, an integrated wire rod terminal pressing assembly device appears on the market, which combines assembly mechanisms such as terminal feeding, terminal beating, shell feeding, shell penetrating, tin dipping and the like on one device, and is integrally controlled by a controller, so that the device solves the problem of full-automatic operation and is simple to operate and control; for the procedures of peeling and wire drawing, the finished product is required to be put on a peeling wire drawing machine for operation, and a series of actions of feeding and discharging are required to occupy more time, so that the time consumption of the whole process flow is longer, and the improvement of the production efficiency is limited.

In addition, in the prior art, the wire is usually cut into a proper length in advance, and then is sent to different positions, for example, the operation of terminal pressing is performed, so that the structure is complex, the occupied space is large, and the arrangement rationality of all functional parts of the integrated wire terminal pressing assembly equipment on the equipment is still not ideal, so that the whole occupied space of the whole equipment is difficult to further reduce, the occupied space of the equipment in a workshop is large, the management is troublesome, and the cost for purchasing a plurality of equipment is high.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of Invention

In view of the above, the main purpose of the utility model is to provide a tin dipping and shell penetrating integrated machine, which is capable of realizing the multifunctional integrated operations of end beating, shell penetrating, tin dipping, peeling, cutting and short wire stretching of wires through the cooperation among all automatic mechanisms, thereby being beneficial to improving the overall production and processing efficiency, and solving the problems of difficult further reduction of the overall occupied space of the whole equipment, large occupied space of the equipment in a workshop, troublesome management and high cost for purchasing a plurality of equipment caused by the fact that the arrangement rationality of all functional parts on the equipment in the prior art is still not ideal.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the tin dipping and shell penetrating integrated machine comprises a rack, and an automatic long and short wire pulling mechanism, an automatic rotary tin dipping mechanism, an automatic wire cutting and peeling mechanism, an automatic rear peeling mechanism, an automatic wire pulling mechanism, an automatic rear moving mechanism, an automatic terminal crimping mechanism, an automatic shell inserting mechanism, an automatic wire arranging mechanism, an automatic shell feeding mechanism and an automatic paying-off mechanism which are arranged on the rack;

the automatic long and short wire drawing mechanism, the automatic rotary tin dipping mechanism, the automatic wire cutting and peeling mechanism, the automatic rear peeling mechanism and the automatic wire drawing mechanism are arranged at intervals along the front-rear direction, and the automatic shell feeding mechanism, the automatic wire paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism and the automatic terminal crimping mechanism are arranged at intervals along the left-right direction;

the automatic rear moving mechanism is positioned at the rear side of the automatic shell feeding mechanism, the automatic paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism and the automatic terminal crimping mechanism, and comprises a rear wire clamping module and a rear translation driving device for driving the rear wire clamping module to horizontally move, so that the automatic rear moving mechanism is connected between the automatic shell feeding mechanism, the automatic paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism, the automatic terminal crimping mechanism and the automatic wire cutting and peeling mechanism in a reciprocating manner;

the tin dipping and shell penetrating integrated machine further comprises a control system, wherein the control system is respectively connected with the automatic long and short wire drawing mechanism, the automatic rotary tin dipping mechanism, the automatic wire cutting and peeling mechanism, the automatic rear peeling mechanism, the automatic wire drawing mechanism, the automatic rear moving mechanism, the terminal automatic crimping mechanism, the automatic shell inserting mechanism, the automatic wire arranging mechanism, the shell automatic feeding mechanism and the automatic paying-off mechanism.

As a preferable scheme, the automatic long and short wire drawing mechanism, the automatic rotary tin dipping mechanism, the automatic wire cutting and peeling mechanism, the automatic rear peeling mechanism and the automatic wire drawing mechanism are sequentially arranged at intervals from front to back, and the automatic long and short wire drawing mechanism is reasonably arranged on the frame, so that the whole occupied space of the whole equipment is reduced.

As a preferable scheme, the automatic shell feeding mechanism, the automatic paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism and the automatic terminal crimping mechanism are sequentially arranged at intervals from left to right, and the automatic shell inserting mechanism and the automatic terminal crimping mechanism are reasonably arranged on the frame, so that the whole occupied space of the whole equipment is reduced.

As a preferable scheme, the automatic long and short wire pulling mechanism is opposite to the front side of the automatic rotary tin dipping mechanism, and the automatic long and short wire pulling mechanism is arranged in a extending mode along the front-back direction so that wires are fed along the front-back direction, and the automatic long and short wire pulling mechanism extends forwards beyond the front end of the frame.

As a preferred scheme, automatic long and short line drawing mechanism is including first drawing the line module and drive first horizontal drive arrangement and the first device that pushes down of translation around the first drawing the line module, first pressure head and the first vertical drive arrangement of the first translation of pushing down of drive are pushed down including first, first drawing the line module, first horizontal drive arrangement and first vertical drive arrangement all are connected in control system electrically.

As a preferred scheme, automatic long and short line mechanism of acting as go-between still includes the line board, it has inlet and outlet to cross the line board, it has the line ball hole to have seted up on the line board to cross, the line ball hole extends the interval setting along the left and right sides direction of crossing the line board, first lower device is just to the top setting of line ball hole.

As a preferable scheme, a finished product placing area is arranged on the frame corresponding to the lower part of the automatic rear moving mechanism, and the finished product placing area is opposite to the rear side of the automatic line arranging mechanism.

As a preferable scheme, the finished product placing area is a conveying belt which is conveyed from front to back.

As a preferable mode, the automatic wire pulling mechanism is arranged on the rear side of the automatic rear peeling mechanism in a right-to-left extending mode so as to pull the wire rod in the front-to-rear direction, and the automatic wire pulling mechanism extends backwards beyond the rear end of the frame.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, the technical proposal realizes the multifunctional integrated operation of wire rod end opening, shell penetrating, tin dipping, peeling, cutting and short wire lengthening, and is beneficial to improving the overall production and processing efficiency, and each functional part is respectively connected with a control system, so the tin dipping, the long short wire stretching, the shell penetrating and the peeling can be selectively started according to the actual wire rod processing requirement. And the arrangement of the device on the frame is reasonable, so that the whole occupied space of the whole device is reduced.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a perspective view of an embodiment of the present utility model;

FIG. 2 is a top view of an embodiment of the present utility model;

FIG. 3 is another perspective view of an embodiment of the present utility model (not shown in the housing);

FIG. 4 is yet another perspective view of an embodiment of the present utility model (not shown in the housing);

FIG. 5 is a structural view of an automatic long and short wire pulling mechanism according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram of an embodiment of an automatic rotary tin dipping mechanism and an automatic wire cutting peeling mechanism;

FIG. 7 is a diagram showing another construction of the automatic rotary tin pick-up mechanism and the automatic wire-cutting peeling mechanism according to the embodiment of the present utility model.

The attached drawings are used for identifying and describing:

10. frame 20 and automatic long and short wire pulling mechanism

21. First stay wire module 22 and first transverse driving device

23. First hold-down device 231 and first hold-down head

232. First vertical driving device 24 and wire passing plate

241. Line inlet 242 and line outlet

30. Automatic rotary tin dipping mechanism 40 and automatic wire cutting and peeling mechanism

31. Tin melting mechanism 32 and branching mechanism

33. Tin dipping mechanism 34 and rotary driving mechanism

331. First clamping assembly 332, first wire clamping head

333. First clamping driving device 341, mounting plate

342. Rotation driving device 343, second transverse driving device

41. Upper thread cutting module 42 and lower thread cutting module

43. Upper peeling die set 44 and lower peeling die set

45. Second vertical driving device

50. Automatic rear peeling mechanism 60 and automatic wire pulling mechanism

70. Automatic rear moving mechanism 80 and automatic terminal crimping mechanism

71. Rear wire clamping module 72 and rear translation driving device

90. Automatic shell inserting mechanism 100 and automatic wire arranging mechanism

110. Automatic shell feeding mechanism 120 and automatic paying-off mechanism

130. Control system 140, product placement area.

Detailed Description

Referring to fig. 1 to 7, specific structures of embodiments of the present utility model are shown.

In the description of the present utility model, it should be noted that, for the azimuth words, terms such as "upper", "lower", "front", "rear", "left", "right", etc., indicate azimuth and positional relationships as shown based on the drawings or when worn normally, only for convenience of describing the present utility model and simplifying the description, but do not indicate or imply that the device or element to be referred must have a specific azimuth, be configured and operated in a specific azimuth, and should not be construed as limiting the specific protection scope of the present utility model.

The tin dipping and shell penetrating integrated machine comprises a machine frame 10, an automatic long and short wire pulling mechanism 20, an automatic rotating tin dipping mechanism 30, an automatic wire cutting and peeling mechanism 40, an automatic rear peeling mechanism 50, an automatic wire pulling mechanism 60, an automatic rear moving mechanism 70, a terminal automatic crimping mechanism 80, an automatic shell inserting mechanism 90, an automatic wire arranging mechanism 100, a shell automatic feeding mechanism 110 and an automatic paying-off mechanism 120 which are arranged on the machine frame 10.

The tin dipping and shell penetrating integrated machine further comprises a control system 130, wherein the control system 130 is respectively connected with the automatic long and short wire pulling mechanism 20, the automatic rotating tin dipping mechanism 30, the automatic wire cutting and peeling mechanism 40, the automatic rear peeling mechanism 50, the automatic wire pulling mechanism 60, the automatic rear moving mechanism 70, the terminal automatic crimping mechanism 80, the automatic shell inserting mechanism 90, the automatic wire arranging mechanism 100, the automatic shell feeding mechanism 110 and the automatic wire releasing mechanism 120.

The automatic long and short wire pulling mechanism 20, the automatic rotary tin dipping mechanism 30, the automatic wire cutting and peeling mechanism 40, the automatic rear peeling mechanism 50 and the automatic wire pulling mechanism 60 are arranged at intervals along the front-rear direction, preferably, the automatic long and short wire pulling mechanism 20, the automatic rotary tin dipping mechanism 3330, the automatic wire cutting and peeling mechanism 40, the automatic rear peeling mechanism 50 and the automatic wire pulling mechanism 60 are arranged at intervals sequentially from front to back, the arrangement of the automatic long and short wire pulling mechanism and the automatic wire cutting and peeling mechanism is reasonable on the frame 10, and the whole occupied space of the whole equipment is reduced.

The shell automatic feeding mechanism 110, the automatic paying-off mechanism 120, the automatic wire arranging mechanism 100, the automatic shell inserting mechanism 90 and the terminal automatic crimping mechanism 80 are arranged at intervals along the left-right direction; preferably, the automatic shell feeding mechanism 110, the automatic paying-off mechanism 120, the automatic wire arranging mechanism 100, the automatic shell inserting mechanism 90 and the automatic terminal crimping mechanism 80 are sequentially arranged at intervals from left to right, and are reasonably arranged on the frame 10, so that the whole occupied space of the whole equipment is reduced.

The automatic long and short wire drawing mechanism 20 is located at the front side of the automatic rotary tin dipping mechanism 30, the automatic long and short wire drawing mechanism 20 is extended in the front-back direction so that wires are fed in the front-back direction, and the automatic wire drawing mechanism 60 extends forwards beyond the front end of the frame 10. In practical application, the automatic long and short wire pulling mechanism 20 can selectively pull one end of the wire towards the automatic long and short wire pulling mechanism 20 according to the practical wire processing requirement, so as to meet the practical wire processing requirement. The wire is limited by the first pressing device 23 while being pulled, so that the wire is prevented from loosening in the pulling process.

The automatic long and short wire pulling mechanism 20 comprises a first pulling wire module 21, a first transverse driving device 22 and a first pressing device 23, wherein the first transverse driving device 22 and the first pressing device 23 are used for driving the first pulling wire module 21 to translate back and forth, the first pressing device 23 comprises a first pressing head 231 and a first vertical driving device 232 used for driving the first pressing head 231 to translate up and down, and the first pulling wire module 21, the first transverse driving device 22 and the first vertical driving device 232 are all electrically connected to the control system 130. The automatic long and short wire pulling mechanism 20 further comprises a wire passing plate 24, the wire passing plate 24 is provided with a wire inlet 241 and a wire outlet 242, wire pressing holes are formed in the wire passing plate 24, the wire pressing holes are arranged at intervals along the left and right directions of the wire passing plate 24, and the first lower device is arranged over the wire pressing holes. The automatic rear peeling mechanism 50, the automatic wire pulling mechanism 60, the automatic rear moving mechanism 70, the automatic terminal crimping mechanism 80, the automatic shell inserting mechanism 90, the automatic wire arranging mechanism 100, the automatic shell feeding mechanism 110 and the automatic wire releasing mechanism 120 are all well known in the art, and will not be described again.

The automatic rotary tin dipping mechanism 30 comprises a tin melting mechanism 31, a branching mechanism 32, a tin dipping mechanism 33 and a rotary driving mechanism 34, wherein the tin melting mechanism 31 is arranged on the frame 10 and is connected with a control system, the branching mechanism 32 is arranged on the frame 10 and is connected with the control system 130, the branching mechanism 32 is used for cutting adjacent wires, the branching mechanism 32 is connected to one side of the tin dipping mechanism 33, the rotary driving mechanism 34 drives the tin dipping mechanism 33 to horizontally rotate, the tin dipping mechanism 33 is used for clamping the wires, and the rotary driving mechanism 34 drives the wires to turn over, so that tin dipping operation is completed in the tin dipping mechanism 31. The tin melting mechanism 31, the branching mechanism 32, the tin dipping mechanism 33 and the rotary driving mechanism 34 are all electrically connected to the control system 130.

The tin dipping mechanism 33 comprises a first clamping component 331, the first clamping component 331 is provided with a first wire clamping head 332 and a first clamping driving device 333 for driving the first wire clamping head 332 to move, the rotary driving mechanism 34 comprises a mounting plate 341, a rotary driving device 342 and a second transverse driving device 343, the tin dipping mechanism 33 is arranged on the mounting plate 341, and the second transverse driving device 343 drives the tin dipping mechanism 33 to translate back and forth and drives the tin dipping mechanism 33 to horizontally rotate through the rotary driving device 342. The first clamping driving device 333, the rotation driving device 342 and the second transverse driving device 343 are all electrically connected to the control system 130.

The automatic tangent peeling mechanism 40 is tightly attached to the rear of the automatic rotary tin sticky mechanism 30, the automatic tangent peeling mechanism 40 comprises an upper tangent module 41, a lower tangent module 42, an upper peeling module 43, a lower peeling module 44 and a second vertical driving device 45 for driving the upper tangent module 41, the lower tangent module 42, the upper peeling module 43 and the lower peeling module 44 to translate up and down, the upper tangent module 41 and the upper peeling module 43 are movably arranged on the second vertical driving device 45 through a first adapter plate, the lower tangent module 42 and the lower peeling module 44 are movably arranged on the second vertical driving device 45 through a second adapter plate, the upper tangent module 41 comprises an upper cutter and a third vertical driving device, the upper peeling module 43 comprises an upper peeling cutter, the lower tangent module 42 comprises a lower cutter and a fourth vertical driving device, the lower peeling module 44 comprises a lower peeling cutter, the third vertical driving device drives the upper peeling cutter and the upper peeling cutter to translate up and down, and the fourth vertical driving device drives the lower peeling cutter to translate up and down and cut wires. When cutting lines or peeling, the upper cutter and the lower cutter move in opposite directions along the up-down direction to cut wires, and after finishing the action, the upper cutter and the lower cutter move in opposite directions along the up-down direction. Correspondingly, when peeling, the upper peeling knife and the lower peeling knife move in the up-down direction to peel the wire rod, and after the action is completed, the upper peeling knife and the lower peeling knife move in the back-down direction. The second vertical driving device 45, the third vertical driving device and the fourth vertical driving device are all electrically connected to the control system 130.

The automatic wire pulling mechanism 60 is located at the rear side of the automatic rear peeling mechanism 50, the automatic wire pulling mechanism 60 is extended in the front-rear direction to pull the wire in the front-rear direction, and the automatic wire pulling mechanism 60 is extended backward beyond the rear end of the frame 10.

The automatic rear moving mechanism 70 is located at the rear side of the automatic shell feeding mechanism 110, the automatic paying-off mechanism 120, the automatic wire arranging mechanism 100, the automatic shell inserting mechanism 90 and the automatic terminal crimping mechanism 80, and the automatic rear moving mechanism 70 comprises a rear wire clamping module 71 and a rear translation driving device 72 for driving the rear wire clamping module 71 to translate left and right, so that the automatic rear moving mechanism 70 is reciprocally connected between the automatic shell feeding mechanism 110, the automatic paying-off mechanism 120, the automatic wire arranging mechanism 100, the automatic shell inserting mechanism 90, the automatic terminal crimping mechanism 80 and the automatic wire cutting mechanism 40.

The automatic terminal crimping mechanism 80 drives the upper knife to reciprocate up and down through the fifth driving device, and simultaneously drives the lower knife to reciprocate up and down through the sixth driving device, when the terminal is crimped, the upper knife and the lower knife move in opposite directions along the up-down direction so as to crimp the terminal, and after the crimping and combining actions are completed, the upper knife and the lower knife move in opposite directions along the up-down direction.

A product placement area 140 is disposed on the frame 10 below the automatic rear moving mechanism 70, and the product placement area 140 is opposite to the rear side of the automatic wire arranging mechanism 100. The product placement area 140 is a conveyor belt that is transported from front to back. The structure is ingenious and reasonable in arrangement, on one hand, the machine is more compact, occupied space is reduced, on the other hand, the efficiency of a series of processing procedures such as wire rod double-end punching is improved, and furthermore, the finished product is transferred or packaged conveniently by operators.

The working principle of the embodiment is described in detail as follows:

during processing, the power supply of the equipment is firstly turned on, the parts of the equipment work, wires enter through a wire inlet 241 of the automatic long and short wire pulling mechanism 20, the wires are clamped by a first clamping component 331 of the automatic rotary tin dipping mechanism 30, then the automatic long and short wire pulling mechanism 20 can selectively pull the front ends of the wires towards the side of the automatic long and short wire pulling mechanism 20 according to actual wire processing requirements, after the wires are pulled to a certain position, the front ends of the wires are cut and peeled by the automatic wire cutting and peeling mechanism 40, then the peeled wire ends are subjected to tin dipping operation by the automatic rotary tin dipping mechanism 30, the wire ends of the peeled one ends are immersed downwards into the tin melting mechanism 31 by the tin dipping mechanism 33 to complete tin dipping operation, then the tail ends of the wires are peeled by the automatic rear peeling mechanism 50, then the shell automatic feeding mechanism 110 is used for conveying the terminals to the terminal automatic crimping mechanism 80, then the automatic terminal translational mechanism 70 is used for terminal pressing procedures, after the terminal pressing procedures are completed, the automatic rear moving mechanism 70 is horizontally moved to the automatic shell moving mechanism 90, then the automatic shell moving mechanism 70 is horizontally moved to the automatic shell moving mechanism 90, the automatic shell moving mechanism 70 is automatically moved to the automatic shell moving mechanism through the automatic shell moving mechanism 70, and finally the automatic shell moving mechanism is horizontally moved to the automatic shell moving mechanism 70 is matched with the automatic shell moving mechanism 70 to the automatic shell moving mechanism through the automatic shell moving mechanism 70.

The utility model mainly aims at realizing the multifunctional integrated operations of wire rod end opening, shell penetrating, tin dipping, peeling, cutting and short wire lengthening by the design and cooperation among an automatic long and short wire pulling mechanism, an automatic rotary tin dipping mechanism, an automatic wire cutting and peeling mechanism, an automatic rear peeling mechanism, an automatic wire pulling mechanism, an automatic rear moving mechanism, an automatic terminal crimping mechanism, an automatic shell inserting mechanism, an automatic wire trimming mechanism, a shell automatic feeding mechanism, an automatic wire trimming mechanism and an automatic wire releasing mechanism, which is beneficial to improving the overall production and processing efficiency, and the functional parts are respectively connected with a control system, so that the tin dipping, the long and short wire pulling, the shell penetrating and the peeling can be selectively started according to the actual wire rod processing requirements. And the arrangement of the device on the frame is reasonable, so that the whole occupied space of the whole device is reduced.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (9)

1. The utility model provides a tin pick up wears shell all-in-one which characterized in that: the automatic wire cutting and peeling machine comprises a frame, an automatic long and short wire drawing mechanism, an automatic rotary tin dipping mechanism, an automatic wire cutting and peeling mechanism, an automatic rear peeling mechanism, an automatic wire drawing mechanism, an automatic rear moving mechanism, an automatic terminal crimping mechanism, an automatic shell inserting mechanism, an automatic wire arranging mechanism, an automatic shell feeding mechanism and an automatic wire releasing mechanism which are arranged on the frame;

the automatic long and short wire drawing mechanism, the automatic rotary tin dipping mechanism, the automatic wire cutting and peeling mechanism, the automatic rear peeling mechanism and the automatic wire drawing mechanism are arranged at intervals along the front-rear direction, and the automatic shell feeding mechanism, the automatic wire paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism and the automatic terminal crimping mechanism are arranged at intervals along the left-right direction;

the automatic rear moving mechanism is positioned at the rear side of the automatic shell feeding mechanism, the automatic paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism and the automatic terminal crimping mechanism, and comprises a rear wire clamping module and a rear translation driving device for driving the rear wire clamping module to horizontally move, so that the automatic rear moving mechanism is connected between the automatic shell feeding mechanism, the automatic paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism, the automatic terminal crimping mechanism and the automatic wire cutting and peeling mechanism in a reciprocating manner;

the tin dipping and shell penetrating integrated machine further comprises a control system, wherein the control system is respectively connected with the automatic long and short wire drawing mechanism, the automatic rotary tin dipping mechanism, the automatic wire cutting and peeling mechanism, the automatic rear peeling mechanism, the automatic wire drawing mechanism, the automatic rear moving mechanism, the terminal automatic crimping mechanism, the automatic shell inserting mechanism, the automatic wire arranging mechanism, the shell automatic feeding mechanism and the automatic paying-off mechanism.

2. The tin pick-up and shell-penetrating integrated machine according to claim 1, wherein: the automatic long and short wire drawing mechanism, the automatic rotary tin dipping mechanism, the automatic wire cutting and peeling mechanism, the automatic rear peeling mechanism and the automatic wire drawing mechanism are sequentially arranged at intervals from front to back.

3. The tin pick-up and shell-penetrating integrated machine according to claim 1, wherein: the shell automatic feeding mechanism, the automatic paying-off mechanism, the automatic wire arranging mechanism, the automatic shell inserting mechanism and the terminal automatic crimping mechanism are sequentially arranged at intervals from left to right.

4. The tin pick-up and shell-penetrating integrated machine according to claim 1, wherein: the automatic long and short wire pulling mechanism is opposite to the front side of the automatic rotary tin dipping mechanism, and extends in the front-back direction so that wires are fed in the front-back direction, and the automatic long and short wire pulling mechanism extends forwards beyond the front end of the frame.

5. The tin pick-up and shell-penetrating integrated machine according to claim 1, wherein: the automatic long and short wire drawing mechanism comprises a first wire drawing module, a first transverse driving device and a first pressing device, wherein the first transverse driving device is used for driving the first wire drawing module to translate back and forth, the first pressing device comprises a first pressing head and a first vertical driving device which is used for driving the first pressing head to translate up and down, and the first wire drawing module, the first transverse driving device and the first vertical driving device are all electrically connected to a control system.

6. The tin pick-up and shell-penetrating integrated machine according to claim 5, wherein: the automatic long and short wire pulling mechanism further comprises a wire passing plate, the wire passing plate is provided with a wire inlet and a wire outlet, wire pressing holes are formed in the wire passing plate, the wire pressing holes are arranged along the left and right direction of the wire passing plate at intervals, and the first pressing device is arranged over the wire pressing holes.

7. The tin pick-up and shell-penetrating integrated machine according to claim 1, wherein: and a finished product placing area is arranged below the automatic rear moving mechanism on the frame, and the finished product placing area is opposite to the rear side of the automatic line arranging mechanism.

8. The tin pick-up and shell-penetrating integrated machine according to claim 7, wherein: the finished product placing area is a conveying belt which is conveyed from front to back.

9. The tin pick-up and shell-penetrating integrated machine according to claim 1, wherein: the automatic wire pulling mechanism is arranged at the rear side of the automatic rear peeling mechanism in a right-to-left extending mode so as to pull wires in the front-to-back direction, and the automatic wire pulling mechanism extends backwards beyond the rear end of the frame.