CN209929871U - Wire harness end peeling machine - Google Patents

Abstract

The utility model provides a pencil tip decorticator, including frame and mounting platform, last material loading level and the cutting position of being provided with of mounting platform still shifts the pencil by last material level to pencil mobile device and two relative settings in the peeling and cutting device who cuts position both sides on the cutting position including being fixed in mounting platform. The utility model provides a pencil tip decorticator, including pencil mobile device and skinning cutting device, can be simultaneously for two tip of pencil peeling cutting, the insulating layer at pencil both ends is got rid of to the mode through mechanical cutting, this pencil mobile device can realize material loading and unloading process simultaneously, skinning cutting device can adjust the width and the degree of depth that two tip of pencil got rid of the insulating layer, whole cutting process all adopts mechanical cutting, can additionally not produce harmful substance such as dust, zero pollution, and whole equipment structure is simple, the input cost is low.

Description

Wire harness end peeling machine

Technical Field

The utility model belongs to the technical field of the pencil processing technique and specifically relates to a pencil tip decorticator is related to.

Background

In the technical field of wire harness processing, in order to achieve circuit conduction of the wire harness, the end of the wire harness needs to be exposed to facilitate welding conduction. Therefore, during the wire harness processing, the insulation layer at the end of the wire harness needs to be removed, so that the wires in the wire harness are exposed. And the insulating layer skin of the outer layer of the general wire harness is thin and has large viscosity, so that the peeling difficulty of the end part of the wire harness is large. In the prior art, a laser peeling process is generally adopted to remove an insulating layer at the end of a wire harness. However, laser peeling easily causes serious pollution such as dust and the like, and can cause serious pollution to operators and the environment. And the equipment structure of the laser peeling machine is complicated, and the investment cost of the whole equipment is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve current pencil tip decorticator and adopt laser peeling technology, produce dust pollution easily, equipment is complicated, the higher shortcoming of input cost provides a pencil tip decorticator.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a pencil tip decorticator, include the frame and set up in mounting platform in the frame, the last material loading level and the cutting position of being provided with of mounting platform still including being fixed in the mounting platform is last with the pencil by the material loading level shifts to pencil mobile device and two relative settings in the peeling cutting device of cutting position both sides on the cutting position.

Further, pencil mobile device including set up in supporting seat on the mounting platform, set up in along the rotation axis that the horizontal direction set up on the supporting seat, be fixed in a plurality of pencil fixed plates on the rotation axis, the peripheral evenly distributed of pencil fixed plate has a plurality of confessions pencil male breach, the pencil fixed plate along with the rotation of rotation axis will imbed the breach the pencil by go up the material level and rotate extremely the cutting position.

Specifically, the wire harness moving device further comprises a first driving device which is fixed on the mounting platform and used for driving the rotating shaft to rotate.

Specifically, the mounting platform is further provided with a blanking position, and the wire harness end part peeling machine further comprises a material collecting box which is located below the mounting platform and used for collecting the wire harnesses falling off from the wire harness fixing plate.

Specifically, the bottom of the supporting seat is provided with a guide plate for separating the wire harness on the wire harness fixing plate from the notch.

Further, the peeling and cutting device comprises a fixed seat arranged on the mounting platform, a first moving platform arranged on the fixed seat along the horizontal direction, and a cutting assembly fixed on the first moving platform.

Specifically, the cutting assembly comprises an upper cutter and a lower cutter which are oppositely arranged along the vertical direction, and a second driving device which drives the upper cutter and the lower cutter to move in opposite directions or back to back.

Specifically, the second driving device comprises a second fixed seat, a moving guide rail and a screw rod which are arranged on the second fixed seat, a first movable block and a second movable block which are arranged on the screw rod and move along the moving guide rail, and a second motor for driving the screw rod, wherein the upper cutter is fixed on the first movable block, and the lower cutter is fixed on the second movable block.

Furthermore, the wire harness end part peeling machine also comprises a wire clamping device which is fixed on the mounting platform and used for clamping the wire harness on the cutting position.

Specifically, the wire clamping device comprises a wire clamp capable of clamping the wire harness and a second moving platform arranged on the mounting platform and used for moving the wire clamp to the cutting position.

The utility model provides a pencil tip decorticator's beneficial effect lies in: the utility model discloses a pencil, including with the pencil by the material loading level remove to the pencil mobile device of cutting position and set up in the peeling cutting device of cutting position both sides, can be simultaneously for two tip of pencil the cutting of peeling, the insulating layer at pencil both ends is got rid of through the mode of mechanical cutting, this pencil mobile device can realize automatic material loading and automatic unloading process simultaneously, and not only can adjust the width that the insulating layer was got rid of to two tip of pencil through peeling cutting device, the degree of depth of insulating layer can also be got rid of in the adjustment, the demand of the cutting is peeled to the tip that is applicable to various different length and not unidimensional pencil, whole cutting process all adopts mechanical cutting, can additionally not produce harmful substance such as dust, zero pollution, and whole equipment structure is simple, the input cost is low.

Drawings

Fig. 1 is a schematic perspective view of a wire harness end peeling machine provided by the present invention;

fig. 2 is a schematic perspective view of a wire harness end peeling machine removing rack provided by the present invention;

fig. 3 is a schematic perspective view of a first view angle of a wire harness moving device of a wire harness end peeling machine according to the present invention;

fig. 4 is a schematic perspective view of a second viewing angle of a wire harness moving device of a wire harness end peeling machine provided by the present invention;

fig. 5 is a schematic perspective view of a peeling and cutting device of a wire harness end peeling machine provided by the present invention;

fig. 6 is a side view of a cutting assembly in a peeling and cutting device of a wire harness end peeling machine provided by the present invention;

fig. 7 is a schematic view of a three-dimensional exploded structure of a wire clamping device of a wire harness end peeling machine provided by the present invention.

In the figure: 100-harness end part peeling machine, 10-frame, 11-mounting platform, 12-feeding position, 13-cutting position, 14-discharging position, 15-collecting box, 16-waste box, 17-storing box and 19-harness;

20-a wiring harness moving device, 21-a supporting seat, 211-a blanking hole, 22-a rotating shaft, 23-a wiring harness fixing plate, 231-a notch, 24-a first driving device, 241-a first motor, 242-a belt pulley component, 25-a material guide plate, 26-a material feeding plate and 27-a photoelectric sensing switch;

30-a peeling and cutting device, 31-a fixed seat, 32-a first moving platform, 321-a first moving cylinder, 322-a first guide rail, 323-a first sliding block, 33-a cutting component, 331-an upper cutter, 332-a lower cutter, 333-a second driving device, 3331-a second fixed seat, 3332-a moving guide rail, 3333-a screw rod, 3334-a first movable block, 3335-a second movable block and 3336-a second motor;

40-wire clamping device, 41-wire clamping device, 411-wire clamping seat, 412-first wire clamping block, 413-second wire clamping block, 414-driving cylinder, 415-driving block, 42-second moving platform, 421-second supporting seat, 422-second moving cylinder, 423-second guide rail and 424-second sliding block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-7, a wire harness end peeling machine 100 is provided. The wire harness end peeling machine 100 is mainly used for peeling off insulating layers at two ends of a wire harness with a certain length, so that wires inside the wire harness are exposed, and the wires at the two ends of the wire harness can be fixedly connected with other components in a welding mode and the like. And the utility model provides a pencil tip decorticator 100 adopts the mode of mechanical cutting, gets rid of the insulating layer at pencil both ends, produced dust pollution's problem when having avoided using laser cutting machine to amputate the insulating layer to the cutting separation of completion insulating layer that can also be fine avoids the wire rod damage at pencil both ends, guarantees the integrality of pencil.

Specifically, as shown in fig. 1, the wire harness end peeler 100 includes a frame 10 and a mounting platform 11 disposed on the frame 10, wherein a loading position 12 and a cutting position 13 and a unloading position 14 are disposed on the mounting platform 11. The strand end peeler 100 further includes a strand moving device 20 fixed to the mounting platform 11 for moving the strand 19 from the loading position 12 to the cutting position 13, and two peeling and cutting devices 30 oppositely disposed at two sides of the cutting position 13. As shown in fig. 2, the harness moving device 20 is disposed at the center of the mounting platform 11, and the front side of the harness moving device 20 is the loading position 12 and the rear side thereof is the cutting position 13. And the peeling and cutting device 30 is disposed at the rear side of the wire harness moving device 20, and two are disposed at both ends of the wire harness moving device 20, respectively, for cutting the insulation layer at both ends of the wire harness 19. In the present embodiment, the wire harness 19 is fixed to the harness moving device 20, and the feeding level 12 of the wire harness 19, the cutting level 13 of the wire harness 19, and the discharging level 14 of the wire harness 19 are formed on the rotating surface of the harness moving device 20 by the rotation of the harness moving device 20. The loading position 12 is a position where the wire harness moving device 20 is manually loaded, and the wire harnesses 19 are fixed to the wire harness moving device 20 one by one. Then the wire harness moving device 20 drives the wire harness 19 to rotate and move to the cutting position 13, the peeling and cutting devices 30 on the two sides are used for cutting the two ends of the wire harness 19, the wire harness moving device 20 moves the wire harness 19 from the cutting position 13 to the blanking position 14, automatic blanking is carried out on the wire harness 19, and the end peeling and cutting process of the whole wire harness 19 is completed.

Further, as shown in fig. 3 and 4, there is provided a schematic perspective view of the wire harness moving device 20 in the wire harness end peeling machine 100 according to the present invention. This pencil mobile device 20 is including setting up supporting seat 21 on mounting platform 11, setting up on supporting seat 21 along the rotation axis 22 that the horizontal direction set up, be fixed in a plurality of pencil fixed plates 23 on rotation axis 22, and the peripheral evenly distributed of pencil fixed plate 23 has a plurality of breachs 231 that can supply pencil 19 to insert, and pencil fixed plate 23 rotates the pencil 19 that imbeds breach 231 to cutting position 13 by material loading position 12 along with rotation of rotation axis 22. The support base 21 is fixed to the center of the mounting platform 11. As shown in fig. 2, the front side of the harness moving device 20 is further provided with a feeding plate 26, and the feeding plate 26 extends from the feeding position 12 of the harness fixing plate 23 to the front of the mounting platform 10 for guiding and placing the harness 19 to be cut. When the feeding plate 26 is convenient for manual operation, the wire harness 19 can be pushed to the notch 231 on the wire harness fixing plate 23 through the feeding plate 26, and the wire harness 19 and the wire harness fixing plate 23 are fixed. As shown in fig. 1, a material storage box 17 is further disposed at the front side of the mounting platform 11, and the material storage box 17 is used for storing the wire harness 19 to be cut, so as to facilitate manual feeding operation of the wire harness 19. The rotation shaft 22 is disposed on the support base 21 and is rotatable in a horizontal direction. The harness fixing plate 23 is fixed to the rotary shaft 22. In this embodiment, three wire harness fixing plates 23 are uniformly distributed on the rotating shaft 22, and the position of the notch 231 provided on each wire harness fixing plate 23 is uniform and fixed. The harness fixing plate 23 is a circular plate and is disposed on the rotating shaft 22, the notches 231 are respectively located at four points of 0 °, 90 °, 180 ° and 270 ° of the circular plate, and the notches 231 of each point of the three harness fixing plates 23 located on the rotating shaft 22 are connected to form a harness fixing structure for the harness 19 to be inserted. Wherein the line defining the notch 231 located at the 0 point is located at the top of the rotation axis 22. And the connection line of the notch 231 on the harness fixing plate 23 at the 90-degree point is positioned at the front side of the rotating shaft 22, and the connection line of the notch 231 forms the loading position 12 of the harness 19. The connecting line of the notch 231 positioned at 180 degrees is positioned at the bottom of the rotating shaft 22, and the connecting line of the notch 231 forms the blanking position 14 of the wiring harness 19. The connection line of the notch 231 on the harness fixing plate 23 at the 270 ° point is located at the rear side of the rotating shaft 22, and the connection line of the notch 231 forms the cutting position 13 of the harness 19. The feeding level 12, the cutting level 13, and the discharging level 14 provided on the harness fixing plate 23 are all provided parallel to the rotary shaft 22. In actual operation, the wire harness 19 to be cut is manually pushed along the feeding plate 26 into the feeding position 12 of the wire harness fixing plate 23, so that the wire harness 19 can be inserted into the notch 231 of the wire harness fixing plate 23 on the rotating shaft 22 and rotate around the rotating shaft 22 along with the wire harness fixing plate 23. In the process that the wire harness 19 rotates along with the rotating shaft 22, the wire harness 19 firstly enters the cutting position 13 on the rear side of the rotating shaft 22, the end part of the wire harness is cut by the peeling and cutting device 30, and then the wire harness enters the blanking position 14 at the bottom of the rotating shaft 22 to be blanked automatically.

Further, as shown in fig. 3, the wire harness moving device 20 further includes a first driving device 24 fixed on the mounting platform 11 for driving the rotation shaft 22 to rotate. The first driving device 24 is used for driving the rotating shaft 22 on the wire harness moving device 20 to rotate, the wire harness 19 is driven by the rotation of the rotating shaft 22 to realize the conversion among all stations, and the operations of feeding, peeling, cutting and blanking are completed. Specifically, as shown in fig. 3, the first driving device 24 includes a pulley assembly 242 and a first motor 241 disposed on the side surface of the supporting seat 21. The first motor 241 drives the pulley assembly 242 to rotate the rotating shaft 22 on the supporting base 21. The rotation angle and rotation speed of the rotary shaft 22 in the support base 21 are controlled by controlling the first motor 241. As shown in fig. 3, the first driving device 24 is disposed on one side of the supporting base 21, and a photoelectric sensing switch 27 is further disposed on the other side of the supporting base 21, and the photoelectric sensing switch 27 is used to control the first motor 241.

Further, for the convenience the utility model provides a pencil 19 of accomplishing the cutting among the pencil tip decorticator 100 can automatic unloading operation, still is provided with the material collecting box 15 that is used for collecting the pencil 19 that drops on the pencil fixed plate 23 in the below of mounting platform 11. A blanking hole (not shown) is formed in the mounting platform 11, a blanking hole 211 corresponding to the blanking hole in the mounting platform 11 is formed in the bottom of the support base 21 of the harness moving device 20, and a guide plate 25 for separating the harness 19 on the harness fixing plate 23 from the notch 231 is formed in the support base 21. The material guiding plate 25 has a material guiding inclined surface, and the wire harness 19 is pushed out from the gap 231 of the wire harness fixing plate 23 and guided to fall into the blanking hole 211 along with the rotation of the wire harness fixing plate 23, so that the wire harness 19 falls from the wire harness fixing plate 23 into the material receiving box 15 below the mounting platform 11, and the blanking process is completed.

Further, as shown in fig. 5, it is a schematic perspective view of a wire harness end peeling machine 100 provided by the present invention. As shown in fig. 5, the peeling and cutting device 30 includes a fixed seat 31 disposed on the mounting platform 11, a first movable platform 32 disposed on the fixed seat 31 along a horizontal direction, and a cutting assembly 33 fixed on the first movable platform 32. The two peeling and cutting devices 30 are respectively arranged on the mounting platform 11, the peeling and cutting devices 30 are located on the rear side of the wiring harness moving device 20 and are respectively located on the left side and the right side of the wiring harness moving device 20, the two peeling and cutting devices are symmetrically arranged, two ends of the wiring harness 19 can be cut simultaneously through the two peeling and cutting devices 30, one side of the wiring harness 19 can be cut through driving the peeling and cutting device 30 on one side, and one-side peeling and cutting of the end portion of the wiring harness 19 are achieved. The peeling and cutting device 30 controls the cutting width of the end of the wiring harness 19 by using the first moving platform 32, the cutting width can be controlled by adjusting the moving distance of the first moving platform 32, and the cutting depth of the end of the wiring harness 19 is controlled by using the cutting assembly 33. Specifically, as shown in fig. 5, the first moving platform 32 includes a first guide rail 322 disposed along the horizontal direction, the first guide rail 322 is fixed on the fixed base 31, a first sliding block 323 is disposed on the first guide rail 322, and the first sliding block 323 is driven by a first moving cylinder 321 disposed on the side of the fixed base 31, so that the first sliding block 323 can reciprocate along the first guide rail 322. Wherein the cutting assembly 33 is integrally fixed to the first slider 323.

Specifically, as shown in fig. 6, there is provided a side view of the cutting assembly 33 in the wire harness end peeler 100 according to the present invention. The cutting assembly 33 includes an upper cutter 331 and a lower cutter 332 disposed opposite to each other in a vertical direction, and a second driving device 333 for driving the upper cutter 331 and the lower cutter 332 to move toward or away from each other. The relative movement distance and the fixed position of the upper cutter 331 and the lower cutter 332 can be simultaneously controlled by the second driving means 333. By the cooperation between the upper cutter 331 and the lower cutter 332, not only the insulating layer at the end of the wire harness 19 can be cut, but also the cut insulating layer can be peeled off from the end of the wire harness 19 by the movement of the first moving platform 32. As shown in fig. 1, a waste box 16 for collecting waste materials is further disposed at the bottom of the mounting platform 11, and the insulation layer stripped from the end of the wire harness 19 is driven by the cutting assembly 33 to fall into the waste box 16, so as to recycle the waste materials.

Further, as shown in fig. 6, the second driving device 333 includes a second fixed base 3331, a movable guide 3332 and a lead screw 3333 which are provided on the second fixed base 3331, a first movable block 3334 and a second movable block 3335 which are provided on the lead screw 3333 and move along the movable guide 3332, and a second motor 3336 which drives the lead screw 3333, wherein the upper cutter 331 is fixed to the first movable block 3334, and the lower cutter 332 is fixed to the second movable block 3335. The second fixed seat 3331 of the second driving device 333 is fixed to the first slide 323 of the first movable platform 32. The second fixed mount 3331 is provided with a moving guide 3332 in a vertical direction, and the screw 3333 is arranged in the direction of the moving guide 3332. The end of the screw 3333 is fixedly connected to a second motor 3336 through a coupling, and can be driven by the second motor 3336 to rotate. Two sections of threads with opposite rotation directions are arranged on the screw rod 3333, and the first movable block 3334 and the second fixed block 3335 are respectively arranged on the two sections of different threads, so that the first movable block 3334 and the second fixed block 3335 can realize the process of synchronous opposite or back-to-back movement in the rotation process of the screw rod 3333. Wherein the upper cutter 331 is fixed to the first movable block 3334 located above, and the lower cutter 332 is fixed to the second movable block 3335 located below. The control of the relative movement between the upper cutter 331 and the lower cutter 332 is realized through the cooperation of the second motor 3336 on the second driving device 333 and the screw rod 3333, the cutting depths of the upper cutter 331 and the lower cutter 332 can be effectively adjusted, and thus the cutting assembly 33 can be suitable for cutting the wiring harnesses 19 with different insulation layer thicknesses.

Further, in order to ensure stability when the wire harness 19 is cut on the harness fixing plate 23. The utility model provides a pencil tip decorticator 100 is still including being fixed in the trapping mechanism 40 that is used for pencil 19 on the centre gripping cutting position 13 on the mounting platform 11. As shown in fig. 2, the wire clamping device 40 is located at the rear side of the wire harness moving device 20, near the cutting position 13. When the wire harness 19 on the wire harness moving device 20 moves from the loading position 12 to the cutting position 13, the wire clamping device 40 moves from the rear side of the wire harness moving device 20 to the cutting position 13 and is used for clamping the wire harness 19 on the cutting position 13, so that the wire harness 19 is stable in the center of the wire harness 19 during cutting. Specifically, as shown in fig. 7, a schematic perspective exploded view of the wire clamping device 40 provided by the wire harness end peeling machine 100 of the present invention is provided. The wire clamping device 40 comprises a wire clamp 41 capable of clamping the wire harness 19 and a second moving platform 32 arranged on the mounting platform 11 and used for moving the wire clamp 41 to the cutting position 13. The wire clamper 41 at the rear side of the wire harness moving device 20 is pushed to the cutting position 13 of the wire harness moving device 20 by the second moving platform 32, so that the wire clamper 20 can effectively clamp the wire harness 19 at the cutting position 13. The second moving platform 32 includes a second supporting seat 421 fixed on the mounting platform 11, a second guiding rail 423 located on the second supporting seat 421, a second sliding block 424 disposed on the second guiding rail 423, and a second moving cylinder 422 located at the rear side of the second supporting seat 421. The second moving cylinder 422 pushes the second slider 424 to move toward the wire harness moving device 20. The gripper 41 is fixed to the second slider 424 to achieve synchronous movement of the gripper 41. The wire clamping device 41 comprises a wire clamping seat 411 arranged on the second sliding block 424, a first wire clamping block 412 and a second wire clamping block 413 which are arranged on the front side of the wire clamping seat 411. The first wire clamping block 412 and the second wire clamping block 413 are both pivoted on the wire clamping base 411, one end of each of the first wire clamping block and the second wire clamping block is used for clamping the wire harness 19, and the other end of each of the first wire clamping block and the second wire clamping block abuts against a driving block 415 located inside the wire clamping base 411. The front end of the driving block 415 is provided with a guiding inclined surface, and when the driving block 415 moves towards the front end of the wire clamping seat 411, the first wire clamping block 412 and the second wire clamping block 413 are opened, so that the wire harness 19 can enter the wire clamp 41. When the driving block 415 moves towards the rear side of the wire clamping seat 412, the first wire clamping block 412 and the second wire clamping block 413 are closed, and the wire harness 19 is clamped. The driving block 415 in the wire clamping seat 411 is controlled by a driving air cylinder 414 at the rear side of the wire clamping seat 411, so that the driving block 415 moves in the wire clamping seat 411.

The utility model provides a pencil tip decorticator 100's working process as follows:

the wire harnesses 19 to be cut are uniformly stored in the material storage box 17 positioned on the front side of the mounting platform 11, the wire harnesses 19 are manually placed on the material feeding plate 26 of the wire harness moving device 20 one by one, and the material feeding plate 26 pushes the wire harnesses to the notch 231 of the wire harness fixing plate 23, so that the fixed connection of the wire harnesses 19 and the wire harness fixing plate 23 is realized. The first driving device 24 of the wire harness moving device 20 drives the rotating shaft 22 to rotate, so that the wire harness 19 fixed at the loading position 12 of the wire harness fixing plate 23 is moved to the cutting position 13 to be cut.

The wire clamping device 40 located at the rear side of the wire harness moving device 20 is driven by the second moving platform 42 to move the wire clamp 41 to the cutting position 13, and the middle section of the wire harness 19 located at the cutting position 13 is clamped by the wire clamp 41 and waits for cutting. Then, the peeling and cutting devices 30 located on both sides of the wire harness moving device 20 are moved from both sides toward the center of the wire harness moving device 20 to the end of the wire harness 19 to be cut. The upper cutter 331 and the lower cutter 332 of the cutting unit 33 are respectively located on the upper and lower sides of the wire harness 19. The upper cutter 331 and the lower cutter 332 are driven by a second driving device 333 to move relatively to cut the insulation layer at the end of the wire harness 19. After the upper cutter 331 and the lower cutter 332 cut, the first moving platform 32 of the peeling and cutting device 30 moves back and forth towards both sides, so that the upper cutter 331 and the lower cutter 332 drive the cut insulating layer at the end to be peeled off from the end of the wire harness 19 and fall into the waste box 16 below the mounting platform 11 to complete the recovery of waste. When the peeling and cutting devices 30 on the two sides move back to the initial position, the wire clamps 41 on the wire clamping device 40 release the wire harnesses 19 and are driven by the second moving platform 42 to return to the initial position.

At this time, the first driving device 24 of the wire harness moving device 20 drives the rotating shaft 22 to rotate again, so that the wire harness 19 located on the cutting position 13 moves to the blanking position 14, the wire harness 19 is separated from the wire harness fixing plate 23 through the material guide plate 25 arranged on the wire harness moving device 20, and is guided into the material receiving box 15 located at the bottom of the mounting platform 11 to achieve the blanking process of the cut wire harness 19, and thus, the cutting and blanking process of the insulating layer at the end of the wire harness 19 is repeatedly achieved.

The utility model provides a pencil tip decorticator 100, including moving pencil 19 to cutting position 13 and pencil 19 from cutting position 13 to pencil removing device 20 of unloading position 14 and setting up in the peeling cutting device 30 of cutting position 13 both sides with the pencil 19, can be simultaneously for the two tip of pencil 19 peel off the cutting, get rid of the insulating layer at pencil 19 both ends through the mode of mechanical cutting, this pencil removing device 20 can realize automatic material loading and automatic unloading process simultaneously, and not only can adjust the width of the insulating layer that two tip of pencil 19 got rid of through peeling cutting device 30, can also adjust the degree of depth of getting rid of the insulating layer, be applicable to the demand that the tip of the pencil 19 of various different length and different size peels off the cutting, whole cutting process all adopts mechanical cutting, can not additionally produce harmful substance such as dust, zero pollution, simple structure of the whole equipment and low investment cost.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a pencil tip decorticator, include the frame and set up in mounting platform in the frame, its characterized in that, mounting platform is last to be provided with material loading level and cutting position, still including being fixed in mounting platform is last with the pencil by material loading level shifts to pencil mobile device and two relative settings in cutting position both sides peel the cutting device.

2. The wire harness end peeling machine as claimed in claim 1, wherein the wire harness moving device comprises a supporting base disposed on the mounting platform, a rotating shaft disposed on the supporting base along a horizontal direction, and a plurality of wire harness fixing plates fixed on the rotating shaft, wherein a plurality of notches for the wire harnesses to be inserted into are uniformly distributed on the periphery of the wire harness fixing plates, and the wire harness fixing plates rotate the wire harnesses inserted into the notches from the feeding position to the cutting position along with the rotation of the rotating shaft.

3. The wire harness end stripping machine as claimed in claim 2 wherein said wire harness moving means further comprises a first drive means secured to said mounting platform for driving rotation of said rotatable shaft.

4. The wire harness end peeling machine of claim 3 wherein the mounting platform further comprises a blanking location, the wire harness end peeling machine further comprising a collection box located below the mounting platform for collecting the wire harness stripped from the wire harness retaining plate.

5. The wire harness end peeling machine as claimed in claim 4, wherein a guide plate for separating the wire harness from the wire harness fixing plate is provided at the bottom of the support base.

6. The wire harness end peeling machine of claim 1, wherein the peeling and cutting device comprises a fixed base disposed on the mounting platform, a first movable platform disposed on the fixed base in a horizontal direction, and a cutting assembly fixed on the first movable platform.

7. The wire harness end peeling machine of claim 6, wherein the cutting assembly comprises an upper cutter and a lower cutter disposed opposite to each other in a vertical direction, and a second driving device for driving the upper cutter and the lower cutter to move toward or away from each other.

8. The wire harness end peeling machine of claim 7, wherein the second driving device comprises a second fixed base, a moving guide and a lead screw arranged on the second fixed base, a first movable block and a second movable block arranged on the lead screw and moving along the moving guide, and a second motor driving the lead screw, the upper cutter is fixed on the first movable block, and the lower cutter is fixed on the second movable block.

9. The wire harness end peeler according to claim 1, further comprising a wire clamping device secured to said mounting platform for clamping said wire harness at said cutting position.

10. The wire harness end stripping machine as claimed in claim 9 wherein said wire clamping means includes a wire clamp for clamping said wire harness and a second moving platform disposed on said mounting platform for moving said wire clamp to said cutting position.

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