CN210607974U - Integrated double-head wire stripping device - Google Patents

Abstract

The utility model discloses an integrated double-end wire stripping device, which comprises a first driving mechanism, a wire twisting mechanism, a second driving mechanism, a front end wire stripping mechanism and a rear end wire stripping mechanism, wherein the wire twisting mechanism is positioned at one side of the front end wire stripping mechanism; the rear-end wire stripping mechanism comprises a wire cutting component and a wire stripping component positioned on one side of the wire cutting component; therefore, the integrated double-end wire stripping structure is ingenious and reasonable in structural design, wire stripping and twisting can be carried out on two ends of a wire, the space occupation of the structure is reduced, the machining precision is improved, and machining and manufacturing are smooth.

Description

Integrated double-head wire stripping device

Technical Field

The utility model belongs to the technical field of the wire rod processing technique and specifically relates to indicate an integral type double-end wire stripping device, its mainly used is in the machine of beating the end.

Background

The connecting wire is one kind of connecting wire, which is formed by bonding a plurality of thin wires together and is widely applied to signal transmission or power connection of computers, household appliances, communication equipment and digital products, two ends of the connecting wire are pressed with terminals for connection between the connecting wire and a connecting wire connecting piece, and the connecting wire needs to be subjected to peeling, cutting, end punching, tin dipping, glue shell inserting and the like. At present, the existing equipment for operating and processing the connecting wire usually can perform wire stripping processing on two ends of the wire, and two different mechanisms usually perform wire stripping processing on the front end and the rear end of the wire respectively.

Therefore, a new technology needs to be developed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides an integral type double-end wire stripping device, and its structural design is ingenious reasonable, has realized integral type double-end wire stripping structure, can carry out the wire stripping, turn round the line to the both ends of wire rod, has reduced the space of structure and has taken, has improved the machining precision for the processing preparation is more smooth and easy.

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

an integrated double-end wire stripping device comprises a first driving mechanism, a wire twisting mechanism, a second driving mechanism, a front end wire stripping mechanism and a rear end wire stripping mechanism, wherein the wire twisting mechanism is positioned on one side of the front end wire stripping mechanism; the rear-end wire stripping mechanism comprises a wire cutting component and a wire stripping component positioned on one side of the wire cutting component.

As a preferred scheme, the double-head wire stripping device comprises a base, wherein the first driving mechanism and the second driving mechanism are respectively positioned on two sides of the base;

the output end of the first driving mechanism is connected with a first transmission mechanism, and the first transmission mechanism is connected with the wire twisting mechanism; the output end of the second driving mechanism is connected with a second transmission mechanism, and the second transmission mechanism is connected to the front end wire stripping mechanism and the rear end wire stripping mechanism.

As a preferred scheme, the wire twisting mechanism comprises a wire twisting seat, a wire twisting shaft, a left wire twisting block and a right wire twisting block, wherein the wire twisting shaft, the left wire twisting block and the right wire twisting block are all arranged on the wire twisting seat, and the wire twisting seat is arranged on the base; one end of the wire twisting shaft is connected to the first transmission mechanism, and the other end of the wire twisting shaft is linked with the left wire twisting block and the right wire twisting block to clamp and twist the wire.

As a preferred scheme, the second transmission mechanism is mounted on a base, the second transmission mechanism is connected with a moving block, a sliding rail is arranged on the base, the moving block can move up and down on the sliding rail, the moving block is connected with a cross beam, the front end wire stripping mechanism, the wire cutting assembly and the wire stripping assembly are mounted on the cross beam, the front end wire stripping mechanism is located on one side of the cross beam, and the wire cutting assembly and the wire stripping assembly are located on the other side of the cross beam; the wire stripping assembly is located on the rear side of the wire cutting assembly.

As a preferred scheme, the cross beam comprises a first cross beam and a second cross beam which are arranged up and down; the front-end wire stripping mechanism comprises a front-end upper cutter and a front-end lower cutter, and the front-end upper cutter and the front-end lower cutter are respectively arranged on one side of the first cross beam and one side of the second cross beam; the thread cutting assembly comprises an upper thread cutter and a lower thread cutter, and the upper thread cutter and the lower thread cutter are respectively arranged on the other side of the first cross beam and the other side of the second cross beam; the wire stripping assembly comprises a rear end upper cutter and a rear end lower cutter, and the rear end upper cutter and the rear end lower cutter are respectively arranged on the other side of the first cross beam and the other side of the second cross beam.

As a preferable scheme, the first transmission mechanism includes a first transmission wheel, a second transmission wheel and a belt respectively connected to one end of the first transmission wheel and one end of the second transmission wheel, the first transmission wheel is connected to an output shaft of the first driving mechanism, and the second transmission wheel is connected to the torsion shaft.

As a preferable scheme, the second transmission mechanism includes a lead screw, the lead screw is mounted on the base through the first fixing seat, the moving block is connected to the lead screw, the lead screw is connected to the second driving mechanism, and the second driving mechanism is mounted inside the base.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme, it mainly is through first actuating mechanism, twist reverse line mechanism, second actuating mechanism, front end wire stripping mechanism, the combination design of rear end wire stripping mechanism, make it realize integral type double-end wire stripping structure, can carry out the wire stripping, twist reverse line to the both ends of wire rod, the space that has reduced the structure occupies, machining precision has been improved, make processing preparation more smooth and easy, and structural design is reasonable, overall arrangement is ingenious.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the overall structure of the terminal crimping machine according to the embodiment of the present invention;

fig. 2 is a schematic structural diagram of a feeding device applied to an end-piercing machine according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an engagement device applied to an end-effector according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an embodiment of the present invention;

FIG. 5 is another angular schematic view of the structure shown in FIG. 4;

fig. 6 is a schematic structural view of a tin wetting device applied to an end-bonding machine according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a wire pulling mechanism applied to an end-piercing machine according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of an end-bonding device applied to an end-bonding machine according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a glue shell inserting device applied to a terminal crimping machine according to an embodiment of the present invention.

The attached drawings indicate the following:

10. base 20 and feeding device

21. Frame 22, work or material rest

23. Wire wheel set 24 and first correcting frame

25. First and second calibration sets 26 and 26

27. Wire material conveying mechanism 28 and second correcting frame

30. Connecting device 31 and moving seat

32. Wire inlet seat assembly 321 and wire inlet seat

33. Outlet seat assembly 331 and second fixing seat

332. Movable seat 333 and cylinder assembly

34. Send line subassembly 40, double-end wire stripping device

41. First drive mechanism 42 and first transmission mechanism

421. First driving wheel 422 and second driving wheel

423. Belt 43 and wire twisting mechanism

431. Torsion wire base 432 and torsion wire shaft

433. Left twisted wire block 434, right twisted wire block

44. Second driving mechanism 441 and second transmission mechanism

442. Moving block 443 and slide rail

444. Lead screw 445 and first fixing seat

45. Front end wire stripping mechanism 451 and front end upper cutter

452. Front end lower cutter 46 and cutting line assembly

461. Upper thread cutter 462 and lower thread cutter

47. Wire stripping component 471 and rear end upper cutter

472. Rear end lower cutter 48, base

401. First beam 402, second beam

50. Tin wetting device 51 and tin wetting mechanism

511. Tin furnace 512 and tin scraping plate

513. Tin scraping cylinder 52 and tin feeding mechanism

60. End punching device 61 and base

62. Beat end mechanism 63, move material actuating mechanism

64. Move material drive mechanism 641, move material drive wheel

642. Conveyor belt 65 and material moving manipulator

66. Move material rail 67, move material arm

68. Material moving block 70 and glue shell inserting device

71. Support 72 and reversing mechanism

73. Rubber shell positioning mechanism 74 and rubber shell feeding mechanism

75. Inserting shell manipulator 76 and discharging mechanism

80. Wire pulling mechanism 81 and wire pulling driving mechanism

82. Stay wire manipulator 83 and stay wire guide rail

84. And a wire drawing slide block.

Detailed Description

Fig. 1 to 9 show specific structures of embodiments of the present invention.

A full-automatic end-punching and shell-inserting tin pick-up machine comprises a machine base 10, a feeding device 20, a connecting device 30, a double-end wire stripping device 40, a tin pick-up device 50, an end-punching device 60 and a shell-inserting device 70 which are sequentially arranged according to a manufacturing procedure sequence; the connecting device 30, the double-head wire stripping device 40, the tin adhering device 50, the end beating device 60 and the glue shell inserting device 70 are all arranged on the machine base 10, the feeding device 20 is positioned at one side of the machine base 10, and the output end of the feeding device 20 is connected with the input end of the connecting device 30; the double-end wire stripping device 40 and the tin sticky device 50 are both positioned at the output end of the connecting device 30; the tin wetting device 50 is positioned at one side of the double-head wire stripping device 40, and the end beating device 60 is positioned at the other side of the double-head wire stripping device 40; the glue shell inserting device 70 is positioned at the output side of the end beating device 60; the double-end wire stripping device 40 comprises a first driving mechanism 41, a wire twisting mechanism 43, a second driving mechanism 44, a front end wire stripping mechanism 45 and a rear end wire stripping mechanism, wherein the wire twisting mechanism 43 is positioned at one side of the front end wire stripping mechanism 45, the first driving mechanism 41 drives the wire twisting mechanism 43 to twist wires of wires positioned in the front end wire stripping mechanism 45, and the second driving mechanism 44 drives the front end wire stripping mechanism 45 and the rear end wire stripping mechanism to strip two ends of the wires; the rear-end wire stripping mechanism comprises a wire cutting component 46 and a wire stripping component 47 positioned on one side of the wire cutting component 46; the machine base 10 is also provided with a wire pulling mechanism 80 for pulling out the wire to a required length from the connecting device 30, and the wire pulling mechanism 80 is positioned at one side of the double-head wire stripping device 40; the wire pulling mechanism 80 includes a wire driving mechanism 81 and a wire pulling manipulator 82 connected to the wire driving mechanism 81 for pulling the wire, and the wire pulling manipulator 82 reciprocates on one side of the rear end wire stripping mechanism.

Preferably, the wire drawing mechanism 80 further comprises a wire drawing guide rail 83; the wire pulling manipulator 82 is connected to the wire pulling guide rail 83 through a wire pulling slider 84 and can transversely move on the wire pulling guide rail 83; the wire driving mechanism 81 is installed at one side of the wire guide 83.

Specifically, the double-ended wire stripping device 40 includes a base 48, and the first driving mechanism 41 and the second driving mechanism 44 are respectively located on two sides of the base 48; the output end of the first driving mechanism 41 is connected with a first transmission mechanism 42, and the first transmission mechanism 42 is connected with a wire twisting mechanism 43; the output end of the second driving mechanism 44 is connected with a second transmission mechanism 441, and the second transmission mechanism 441 is connected with the front end wire stripping mechanism 45 and the rear end wire stripping mechanism; the wire twisting mechanism 43 comprises a wire twisting seat 431, a wire twisting shaft 432, a left wire twisting block 433 and a right wire twisting block 434, wherein the wire twisting shaft 432, the left wire twisting block 433 and the right wire twisting block 434 are all arranged on the wire twisting seat 431, and the wire twisting seat 431 is arranged on the base 48; one end of the wire twisting shaft 432 is connected to the first transmission mechanism 42, and the other end is linked with the left wire twisting block 433 and the right wire twisting block 434 to clamp and twist the wire.

The second transmission mechanism 441 is mounted on a base 48, the second transmission mechanism 441 is connected with a moving block 442, a sliding rail 443 is arranged on the base 48, the moving block 442 can move up and down on the sliding rail 443, the moving block 442 is connected with a cross beam, the front end wire stripping mechanism 45, the wire cutting assembly 46 and the wire stripping assembly 47 are mounted on the cross beam, the front end wire stripping mechanism 45 is located on one side of the cross beam, and the wire cutting assembly 46 and the wire stripping assembly 47 are located on the other side of the cross beam; the wire stripping assembly 47 is located on the rear side of the wire cutting assembly 46.

The cross beams comprise a first cross beam 401 and a second cross beam 402 which are arranged up and down; the front-end wire stripping mechanism 45 comprises a front-end upper cutter 451 and a front-end lower cutter 452, wherein the front-end upper cutter 451 and the front-end lower cutter 452 are respectively arranged on one side of the first cross beam 401 and one side of the second cross beam 402; the thread cutting assembly 46 comprises an upper thread cutter 461 and a lower thread cutter 462, wherein the upper thread cutter 461 and the lower thread cutter 462 are respectively arranged on the other side of the first beam 401 and the other side of the second beam 402; the wire stripping assembly 47 comprises a rear end upper cutter 471 and a rear end lower cutter 472, and the rear end upper cutter 471 and the rear end lower cutter 472 are respectively installed on the other side of the first beam 401 and the other side of the second beam 402; the first transmission mechanism 42 comprises a first transmission wheel 421, a second transmission wheel 422 and a belt 423 respectively connected to one end of the first transmission wheel 421 and one end of the second transmission wheel 422, the first transmission wheel 421 is connected to an output shaft of the first driving mechanism 41, and the second transmission wheel 422 is connected to the torsion shaft 432; the second transmission mechanism 441 includes a lead screw 444, the lead screw 444 is mounted on the base 48 through a first fixing seat 445, the moving block 442 is connected to the lead screw 444, the lead screw 444 is connected to the second driving mechanism 44, and the second driving mechanism 44 is mounted inside the housing 10.

The feeding device 20 comprises a frame 21 arranged on one side of the machine base 10, a rack 22 arranged on the frame 21 and used for containing wire rolls, a wire wheel set 23, a movable guide wheel set, a porous wire guide plate, a first correcting frame 24 used for guiding out wires, a first correcting frame 25, a second correcting frame 26, a wire conveying mechanism 27 used for clamping and straightening wires and preventing the wires from reversing and feeding the wires, and a second correcting frame 28 used for guiding out the wires, wherein the rack 22 is arranged on the side edge of the frame 21, and the second correcting frame 28 is connected to the input end of the connecting device 30.

The connecting device 30 comprises a moving seat 31 and a plurality of groups of wire feeding mechanisms arranged on the moving seat 31; each group of wire feeding mechanisms comprises a wire inlet seat 321 assembly 32, a wire outlet seat assembly 33 and a wire feeding assembly 34, wherein the wire inlet seat 321 assembly 32 and the wire outlet seat assembly 33 are both arranged on the movable seat 31, and the wire feeding assembly 34 is positioned between the wire inlet seat 321 assembly 32 and the wire outlet seat assembly 33; the wire inlet seat 321 assembly 32 comprises a wire inlet seat 321 arranged on the movable seat 31, and a through hole for a wire to pass through is formed in the wire inlet seat 321; the wire outlet seat assembly 33 comprises a second fixed seat 331, a movable seat 332 and a cylinder assembly 333, the second fixed seat 331 is mounted on the movable seat 31, the movable seat 332 is mounted at the lower end of the second fixed seat 331, the cylinder assembly 333 is mounted on the movable seat 31, the cylinder assembly 333 drives the movable seat 332 to pull downwards relative to the second fixed seat 331, and the movable seat 332 is provided with a wire outlet hole for a wire to pass through.

The tin wetting device 50 comprises a tin wetting mechanism 51 and a tin feeding mechanism 52 arranged on one side of the tin wetting mechanism 51, wherein the tin wetting mechanism 51 and the tin feeding mechanism 52 are both arranged on the machine base 10; the tin wetting mechanism 51 comprises a tin furnace 511, a tin scraping plate 512 arranged on the tin furnace 511, and a tin scraping cylinder 513 for driving the tin scraping plate 512 to move.

The end beating device 60 comprises a base 61, an end beating mechanism 62 and a material moving mechanism, wherein the end beating mechanism 62 and the material moving mechanism are installed on the base 61, the end beating mechanism 62 is positioned below the base 61, and the material moving mechanism is positioned above the end beating mechanism 62; the material moving mechanism comprises a material moving driving mechanism 63, a material moving and carrying mechanism 64 and a material moving and carrying manipulator 65, wherein the material moving driving mechanism 63 is arranged on a side plate of the base 61; one end of the material moving and carrying mechanism 64 is connected to the material moving driving mechanism 63, and the other end is connected to the material moving and carrying manipulator 65; the side plates are arranged on a positioning plate, and the material moving and carrying mechanism 64 and the material moving and carrying manipulator 65 are arranged on the positioning plate; the material moving and carrying mechanism 64 comprises a material moving transmission wheel 641 and a conveyor belt 642 connected to the material moving transmission wheel 641, wherein the material moving transmission wheel 641 is arranged above the positioning plate; the front side of the positioning plate is provided with a material moving rail 66, the material moving carrying manipulator 65 is connected with a material moving arm 67, the rear side of the material moving arm 67 is connected with a material moving block 68, and the material moving block 68 can move transversely on the material moving rail 66.

Insert gluey shell device 70 includes support 71, a reversing mechanism 72, gluey shell positioning mechanism 73, gluey shell feeding mechanism 74, gluey shell tilting mechanism, the bad detection mechanism of glue is gone into to the missing line that is used for turning to the wire rod, be arranged in inserting shell manipulator 75 and unloading mechanism 76 in the gluey shell of location in inserting gluey shell of gluey shell positioning mechanism 73 with the wire rod after beating the end, support 71 installs on frame 10, reversing mechanism 72, gluey shell positioning mechanism 73, gluey shell feeding mechanism 74, gluey shell tilting mechanism, the bad detection mechanism of glue is gone into to the missing line, inserts shell manipulator 75, unloading mechanism 76 and all installs on support 71, gluey shell positioning mechanism 73 is located one side of reversing mechanism 72, gluey shell feeding mechanism 74 is located one side of gluey shell positioning mechanism 73.

In the present embodiment, the driving mechanisms of the first driving mechanism 41, the second driving mechanism 44, the wire driving mechanism 81, the transfer driving mechanism 63, the insertion robot 75, and the like are preferably driving motors, but other driving methods may be adopted.

To sum up, the utility model discloses a design focus lies in, and it mainly is through the combination design of first actuating mechanism, twist reverse line mechanism, second actuating mechanism, front end wire stripping mechanism, rear end wire stripping mechanism, makes it realize integral type double-end wire stripping structure, can carry out the wire stripping, twist reverse the line to the both ends of wire rod, and the space that has reduced the structure occupies, has improved the machining precision for the processing preparation is more smooth and easy, and structural design is reasonable, and overall arrangement is ingenious.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides an integral type double-end wire stripping device which characterized in that: the wire twisting mechanism is positioned on one side of the front end wire stripping mechanism, the first driving mechanism drives the wire twisting mechanism to twist wires of wires positioned in the front end wire stripping mechanism, and the second driving mechanism drives the front end wire stripping mechanism and the rear end wire stripping mechanism to strip wires at two ends of the wires; the rear-end wire stripping mechanism comprises a wire cutting component and a wire stripping component positioned on one side of the wire cutting component.

2. The integrated double-ended wire stripping device of claim 1, wherein: the double-end wire stripping device comprises a base, and the first driving mechanism and the second driving mechanism are respectively positioned on two sides of the base;

the output end of the first driving mechanism is connected with a first transmission mechanism, and the first transmission mechanism is connected with the wire twisting mechanism; the output end of the second driving mechanism is connected with a second transmission mechanism, and the second transmission mechanism is connected to the front end wire stripping mechanism and the rear end wire stripping mechanism.

3. The integrated double-ended wire stripping device of claim 2, wherein: the wire twisting mechanism comprises a wire twisting seat, a wire twisting shaft, a left wire twisting block and a right wire twisting block, wherein the wire twisting shaft, the left wire twisting block and the right wire twisting block are all arranged on the wire twisting seat, and the wire twisting seat is arranged on the base; one end of the wire twisting shaft is connected to the first transmission mechanism, and the other end of the wire twisting shaft is linked with the left wire twisting block and the right wire twisting block to clamp and twist the wire.

4. The integrated double-ended wire stripping device of claim 2, wherein: the second transmission mechanism is arranged on the base and connected with a moving block, a sliding rail is arranged on the base, the moving block can move up and down on the sliding rail, the moving block is connected with a cross beam, the front end wire stripping mechanism, the wire cutting assembly and the wire stripping assembly are all arranged on the cross beam, the front end wire stripping mechanism is located on one side of the cross beam, and the wire cutting assembly and the wire stripping assembly are located on the other side of the cross beam; the wire stripping assembly is located on the rear side of the wire cutting assembly.

5. The integrated double-ended wire stripping device of claim 4, wherein: the cross beam comprises a first cross beam and a second cross beam which are arranged up and down; the front-end wire stripping mechanism comprises a front-end upper cutter and a front-end lower cutter, and the front-end upper cutter and the front-end lower cutter are respectively arranged on one side of the first cross beam and one side of the second cross beam; the thread cutting assembly comprises an upper thread cutter and a lower thread cutter, and the upper thread cutter and the lower thread cutter are respectively arranged on the other side of the first cross beam and the other side of the second cross beam; the wire stripping assembly comprises a rear end upper cutter and a rear end lower cutter, and the rear end upper cutter and the rear end lower cutter are respectively arranged on the other side of the first cross beam and the other side of the second cross beam.

6. The integrated double-ended wire stripping device of claim 3, wherein: the first transmission mechanism comprises a first transmission wheel, a second transmission wheel and a belt connected to one end of the first transmission wheel and one end of the second transmission wheel respectively, the first transmission wheel is connected to an output shaft of the first driving mechanism, and the second transmission wheel is connected to the torsion shaft.

7. The integrated double-ended wire stripping device of claim 4, wherein: the second transmission mechanism comprises a lead screw, the lead screw is mounted on the base through a first fixing seat, the moving block is connected to the lead screw, the lead screw is connected to a second driving mechanism, and the second driving mechanism is mounted inside the base.

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