CN219944874U - Double-end tin pick-up machine - Google Patents

Abstract

The utility model provides a double-end tin pick-up machine, which comprises a machine case and a workbench, wherein the workbench is arranged on the top surface of the machine case, the workbench comprises a wire inlet frame, a front cutter frame, a rear cutter frame, a tin pick-up mechanism and a wire pulling mechanism, the wire inlet frame, the front cutter frame, the rear cutter frame, the tin pick-up mechanism and the wire pulling mechanism are sequentially arranged along the wire inlet direction, meanwhile, a wire taking mechanism for taking out a short wire from the tin pick-up mechanism is arranged on the front side of the tin pick-up mechanism, and the wire taking mechanism is connected to the top of the workbench.

Description

Double-end tin pick-up machine

Technical Field

The utility model relates to the technical field of wire rod processing, in particular to a double-end tin pick-up machine.

Background

In order to improve the connection performance (crimping, plugging or soldering) of the wire and prevent the wire core from being diverged and shorted, the exposed part of the wire core at one end without the crimping terminal needs to be dipped with tin in the process of cutting the wire, and a tin dipping machine is a machine for automatically dipping the end of the wire with tin.

When the conventional tin dipping machine is used, the tin dipping mechanism and other mechanisms are poor in connection fluency, so that the wires are difficult to transport, and the working efficiency is low.

Therefore, it is necessary to provide a double-head tin pick-up machine to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a double-end tin dipping machine which is used for solving the problems that when the traditional tin dipping machine is used, the connection smoothness between a tin dipping mechanism and other mechanisms is poor, the transportation of wires is difficult, and the working efficiency is low.

The utility model provides a double-end tin pick-up machine, which comprises a machine case and a workbench, wherein the workbench is arranged on the top surface of the machine case,

the workbench comprises a wire inlet frame, a front stripper, a front cutter frame, a rear stripper and a wire pulling module, wherein the wire inlet frame is used for guiding wires, the front stripper is used for stripping outer skins of end parts of the wires, the front cutter frame is used for cutting the wires, the rear stripper is used for stripping outer skins of end parts of the wires and dipping tin, the wire pulling module is used for pulling the wires to pass through the front stripper, the front cutter frame, the rear cutter frame and the rear stripper, meanwhile, a discharger for taking out short wires is arranged on the front side of the rear stripper, and the discharger is arranged at the top of the workbench.

Preferably, the wire inlet frame comprises a plurality of wire wheels and wire holders which are arranged along the wire inlet direction, the wire wheels and the wire holders are connected with a bracket jointly, and the bracket is arranged on the chassis.

Preferably, the front stripper comprises a front stripping clamp for stripping the wire outer skin and a first power mechanism for driving the front stripping clamp to rotate, move back and forth and move up and down.

Preferably, the front tool rest comprises a front tool for cutting wires, cutting wire sheaths, leveling wire cores and twisting the wire cores, the front tool is connected with a second power mechanism, and the second power mechanism is used for pushing the front tool to open and close.

Preferably, the rear cutter frame comprises a rear cutter for cutting wires, cutting wire sheaths, leveling wire cores and twisting the wire cores, the rear cutter is connected with a third power mechanism, and the third power mechanism is used for pushing the rear cutter to open and close.

Preferably, the rear stripper comprises a rear stripping clamp for clamping the short wire and a power mechanism IV for driving the rear stripping clamp to finish tin dipping through rotation, front-back movement and up-down movement.

Preferably, the stay wire module comprises a stay wire clamp for pulling the wire to move, a stay wire rod is arranged at one end of the stay wire clamp, and a belt moving mechanism for driving the stay wire clamp and the stay wire rod to move transversely is arranged at the other end of the stay wire clamp.

Preferably, the ejector comprises a wire taking clamp for clamping the short wire and peeling off the outer skin of the short wire, and the wire taking clamp is connected with a power mechanism five for driving the wire taking clamp to finish wire taking through rotation, internal and external movement and forward and backward movement.

Preferably, the workbench further comprises a tin box and a soldering flux box which are arranged right below the rear stripper, and tin liquid and soldering flux are respectively contained in the tin box and the soldering flux box.

Preferably, the workbench further comprises a stub disc arranged right below the ejector and used for receiving the stub which is dipped in tin.

Compared with the related art, the double-end tin pick-up machine provided by the utility model has the following beneficial effects:

according to the utility model, the wire feeding frame, the front stripper, the front cutter frame, the rear stripper and the wire pulling module are sequentially arranged in the wire feeding direction, meanwhile, the ejector is arranged at the front side of the rear stripper, when the wire feeding frame is used, the wire pulling module is used for pulling wires on the wire feeding frame to the front cutter frame and the rear cutter frame, the front cutter frame cuts the wires to form short wires, the front stripper strips off the outer skin at the end of the wires, the rear cutter frame cuts the outer skin at the end of the short wires, the ejector pulls the short wires to move to strip the outer skin, the rear stripper clamp of the rear stripper clamps the short wires and drives the short wires to sequentially finish dipping of soldering flux and tin liquid, and finally, the ejector takes out the short wires dipped in tin and places the short wires in the short wire tray.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a double-end tin pick-up machine according to the present utility model;

fig. 2 is a schematic diagram of a wire inlet frame of a double-end tin pick-up machine according to the present utility model;

fig. 3 is a schematic diagram of a front stripper of a double-end tin pick-up machine according to the present utility model;

fig. 4 is a schematic diagram of a front tool rest structure of a double-end tin pick-up machine according to the present utility model;

fig. 5 is a schematic view of a rear tool rest structure of a double-end tin pick-up machine according to the present utility model;

fig. 6 is a schematic diagram of a rear stripper of a double-end tin pick-up machine according to the present utility model;

fig. 7 is a schematic diagram of an ejector structure of a double-head tin pick-up machine according to the present utility model;

fig. 8 is a schematic diagram of a wire drawing module of a double-end tin pick-up machine according to the present utility model;

reference numerals in the drawings: 1. a chassis; 2. a work table; 21. a wire inlet frame; 211. a wire guide wheel; 212. a wire seat; 213. a bracket; 22. a front stripper; 221. a front stripping clamp; 222. a first power mechanism; 23. a front tool rest; 231. a front cutter; 232. a second power mechanism; 24. a rear tool holder; 241. a rear cutter; 242. a third power mechanism; 25. a rear stripper; 251. a rear stripping clamp; 252. a power mechanism IV; 26. a stay wire module; 261. a wire clamp; 262. a pull rod; 263. a belt moving mechanism; 27. an ejector; 271. taking a wire clamp; 272. a power mechanism V; 3. a tin box; 4. a flux box; 5. a stub coil.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

The utility model is further described below with reference to the drawings and embodiments.

In the present embodiment, as shown in fig. 1 and 2, the double-head tin pick-up machine comprises a machine case 1 and a workbench 2, wherein the whole workbench 2 is arranged on the top surface of the machine case 1, and the workbench 2 comprises a wire inlet frame 21 arranged at the forefront end;

more specifically, the wire feeding frame 21 includes a wire guiding wheel 211 and a wire guiding seat 212 which are disposed along the wire feeding direction, and both are fixed on a bracket 213 together, and the bracket 213 is mounted on the chassis 1, when in use, the wire guiding wheel 211 is provided with a plurality of wire guiding wheels which can guide wires to move forward along a set wire slot, the wire guiding seat 212 is used for wire perforation, and a plurality of side-by-side through holes are formed, so that a plurality of wires are separated, interference is avoided, and the wires are conveyed to the front tool rest 23 by the cooperation of the wire guiding wheel 211 and the wire guiding seat 212.

In the present embodiment, as shown in fig. 3 and 4, a front stripper 22 for stripping the wire skin and a front blade holder 23 for processing the wire are further included;

specifically, the front stripper 22 includes a front stripper 221 for stripping the wire outer skin and a first power mechanism 222 for driving the front stripper 221 to rotate, move back and forth and move up and down; the front tool rest 23 is arranged on the top surface of the workbench 2 and comprises a front tool 231 for cutting wires, cutting wire sheaths, leveling wire cores and twisting and rubbing the wire cores, the front tool 231 is connected with a power mechanism II 232, and the front tool 231 is pushed to open and close by the power mechanism II 232;

when the peeling machine is used, the front cutter 231 of the front cutter rest 23 cuts off the wire to form a short wire, the front cutter 231 cuts open the outer skin at the end part of the wire, the air cylinder of the front stripper 22 extends out and pushes the front stripper 221 to move to the end part of the wire, the wire is clamped by the front stripper 221 formed by the clamping jaws of the air cylinder, and then the air cylinder retracts to pull back the wire, so that the cut outer skin is separated from the wire, and the peeling of the wire is completed;

finally, the front cutter 231 of the front cutter frame 23 is closed under the action of the second power mechanism 232, and the peeled wire core is flattened, in this embodiment, the second power mechanism 232 adopts, but is not limited to, a double-thread screw mechanism, and the upper and lower cutter modules of the front cutter 231 are synchronously driven by double threads to complete the opening and closing actions;

in this embodiment, as shown in fig. 5 and 6, an after-blade holder 24 for cutting the wire and an after-stripper 25 for peeling off the outer skin of the end of the wire and tin dipping are further included,

the rear cutter rest 24 comprises a rear cutter 241 for cutting wires, cutting wire sheaths, leveling wire cores and twisting and rubbing wire cores, the rear cutter 241 is connected with a third power mechanism 242, the third power mechanism 242 is used for pushing the rear cutter 241 to open and close, in the embodiment, the third power mechanism 242 is also a double-thread screw mechanism, the upper cutter module and the lower cutter module of the rear cutter 241 are synchronously driven by double threads to complete the opening and closing actions, and when the rear cutter rest 24 and the front cutter rest 23 act in unison, the sheaths of short wires are cut, the wire cores are flattened and the twisted wire and rubbed the wires;

the rear stripper 25 comprises a rear stripping clamp 251 for clamping the short wire and a power mechanism IV 252 for driving the rear stripping clamp 251 to finish tin dipping by rotating, moving back and forth and moving up and down, wherein the power mechanism comprises a cylinder clamping jaw for driving the rear stripping clamp 251 to open and close, a one-way screw rod structure for driving the rear stripping clamp 251 to move up and down, and a rotary cylinder for driving the rear stripping clamp 251 to rotate, when in use, the rear stripping clamp 251 clamps the end part of the short wire to be tin dipped, namely the left end, then the power mechanism IV 252 rotates to downwards align the end part to be tin dipped with a soldering flux box 4 which is described below, then moves downwards to finish tin dipping, then moves upwards and horizontally to right, aligns the end part to be tin dipped with the tin box 3, then returns to the initial position, moves rightwards to the position to be clamped, and waits for the ejector 27 to take out the short wire;

in this embodiment, as shown in fig. 7, the ejector 27 for taking out the stub further includes a wire taking clamp 271 for clamping the stub and peeling off the outer skin of the stub, the wire taking clamp 271 is connected with a power mechanism five 272 for driving the wire taking clamp 271 to complete wire taking through rotation, internal and external movement and forward and backward movement, and in this embodiment, the power mechanism five 272 includes a cylinder clamping jaw for driving the wire taking clamp 271 to open and close, a screw rod structure for moving forward and backward, a cylinder sliding table for moving internal and external, and a rotary cylinder for rotating;

after the rear tool rest 24 is operated, the wire taking clamp 271 is moved inward, the end of the stub is clamped and then moved rearward, so that the stub is separated from the cut skin, and then the rear stripping clamp 251 of the rear stripper 25 clamps the stub, and the wire taking clamp 271 is restored to the original position; after the tin pick-up of the short wire is completed, the wire pick-up clamp 271 moves inwards again to clamp the short wire and withdraw, then the wire pick-up clamp 271 moves to the position right above the short wire box under the action of the power mechanism five 272, at the moment, the wire pick-up clamp 271 is rotated, and finally the wire pick-up clamp 271 is loosened, so that the short wire falls into the short wire box.

In this embodiment, as shown in fig. 8, the wire pulling module 26 for pulling the wire rod to pass through the front stripper 22, the front tool rest 23, the rear tool rest 24 and the rear stripper 25 is further included, and includes a wire clamp 261 for pulling the wire rod to move, one end of the wire clamp 261 is provided with a wire pulling rod 262, and the other end of the wire clamp 261 is provided with a belt moving mechanism 263 for driving the wire clamp and the wire pulling rod 262 to move transversely;

when the wire is placed in the wire feeding frame 21, the wire pulling module 26 is firstly operated, the belt moving mechanism 263 is operated to drive the wire pulling rod 262 to move towards the wire until the wire pulling clamp 261 can clamp the end of the wire, then the wire pulling clamp 261 is used for clamping the wire, the belt moving mechanism 263 is operated reversely to pull the wire into the workbench 2, and finally the wire pulling clamp 261 is used for releasing the wire and recovering the initial position.

The working principle of the double-end tin pick-up machine provided by the utility model is as follows: when the wire drawing device is used, the wire on the wire inlet frame 21 is pulled to the front tool rest 23 and the rear tool rest 24 by the wire drawing module 26, the wire is cut off by the front tool rest 23 to form a short wire, meanwhile, the front stripper 22 strips off the outer skin of the end part of the wire, the rear tool rest 24 cuts off the outer skin of the end part of the short wire, the ejector 27 pulls the short wire to move to strip the outer skin, meanwhile, the rear stripper 251 of the rear stripper 25 clamps the short wire and drives the short wire to sequentially finish dipping of soldering flux and tin liquid, and finally the ejector 27 takes out the short wire dipped by tin and places the short wire into the short wire disc 5.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (10)

1. The double-end tin pick-up machine is characterized by comprising a machine case (1) and a workbench (2), wherein the workbench (2) is arranged on the top surface of the machine case (1),

the workbench (2) comprises a wire inlet frame (21) for guiding wires, a front stripper (22) for stripping the outer skins of the end parts of the wires, a front cutter frame (23) for cutting the wires, a rear cutter frame (24) for cutting the wires, a rear stripper (25) for stripping the outer skins of the end parts of the wires and dipping tin, and a wire pulling module (26) for pulling the wires to pass through the front stripper (22), the front cutter frame (23), the rear cutter frame (24) and the rear stripper (25), wherein a discharger (27) for taking out short wires is arranged on the front side of the rear stripper (25), and the discharger (27) is arranged at the top of the workbench (2).

2. A double-ended tin pick-up machine according to claim 1, characterized in that the wire feeding frame (21) comprises a plurality of wire wheels (211) and wire holders (212) which are arranged along the wire feeding direction, the wire wheels (211) and the wire holders (212) are commonly connected with a bracket (213), and the bracket (213) is arranged on the chassis (1).

3. The double-ended tin pick-up machine according to claim 1, wherein the front stripper (22) comprises a front stripper (221) for stripping wire skins and a power mechanism one (222) for driving the front stripper (221) to rotate, move back and forth and move up and down.

4. A double-ended tin pick-up machine according to claim 3, characterized in that the front tool rest (23) comprises a front tool (231) for cutting wires, cutting wire sheaths, leveling wire cores and twisting wire cores, the front tool (231) is connected with a second power mechanism (232), and the second power mechanism (232) is used for pushing the front tool (231) to open and close.

5. The double-end tin pick-up machine according to claim 1, wherein the rear tool rest (24) comprises a rear tool (241) for cutting wires, cutting wire sheaths, leveling wire cores and twisting wire cores, the rear tool (241) is connected with a third power mechanism (242), and the third power mechanism (242) is used for pushing the rear tool (241) to open and close.

6. The double-ended tin pick-up machine according to claim 5, wherein the rear stripper (25) comprises a rear stripper (251) for clamping the short wire and a power mechanism IV (252) for driving the rear stripper (251) to finish tin pick-up by rotation, forward and backward movement and up and down movement.

7. The double-end tin pick-up machine according to claim 1, wherein the wire pulling module (26) comprises a wire pulling clamp (261) for pulling wires to move, a wire pulling rod (262) is arranged at one end of the wire pulling clamp (261), and a belt moving mechanism (263) for driving the wire pulling clamp and the wire pulling rod (262) to move transversely is arranged at the other end of the wire pulling clamp (261).

8. The double-head tin pick-up machine according to claim 7, wherein the ejector (27) comprises a wire taking clamp (271) for taking a short wire and peeling off the outer skin of the short wire, and a power mechanism five (272) for driving the wire taking clamp (271) to complete wire taking through rotation, inner and outer movement and front and back movement is connected to the wire taking clamp (271).

9. A double-ended tin pick-up machine according to any one of claims 1 to 8, wherein the table (2) further comprises a tin box (3) and a flux box (4) arranged directly below the rear stripper (25) and containing tin liquid and flux respectively therein.

10. A double-ended tin pick-up machine according to claim 9, characterized in that the table (2) further comprises a stub disc (5) arranged directly under the ejector (27) for receiving the tin pick-up stub.