CN214079010U - High-precision tangent peeling machine - Google Patents

Abstract

The utility model relates to a high accuracy tangent line peeler, it includes the wire stripping machine body, the lateral wall that the wire stripping machine body is connected with the wire cutting device is the working face, the position that the working face is close to wire cutting device below has set firmly the mounting panel, the lateral wall that the working face was kept away from to the mounting panel has set firmly a plurality of slide poles, the equal fixedly connected with of one end that the working face was kept away from to a plurality of slide poles holds the frame that the same cable that holds, adjacent slide pole support leaves the space that the rubber that supplies to cut off passes through, the position that the working face is located the mounting panel below has set firmly upper shed's dump bin, the dump bin is located the slide pole under, this application has the effect that improves cable finished product.

Description

High-precision tangent peeling machine

Technical Field

The utility model belongs to the technical field of the technique of tangent line peeler and specifically relates to a high accuracy tangent line peeler is related to.

Background

Wire and cable is used for transmitting the wire rod product of electric energy, information, and the cable includes inside wire layer and outer parcel layer, carries out the cutting of cable and adds often uses the tangent line peeler man-hour, and the tangent line peeler has the function of cutting the cable and getting rid of the protection rubber cutting at cable both ends.

The existing wire cutting and peeling machine comprises a wire stripping machine body, wherein the wire stripping machine body is provided with a wire cutting device for cutting and peeling a wire, the wire is processed through the wire cutting device, and a produced finished product of the wire falls from a discharge end of the wire cutting device.

In view of the above related technologies, the inventor believes that the wire cutting device drops the waste generated by processing the cable together with the finished cable, and a large amount of waste is mixed in the finished cable when the finished cable is collected, thereby causing a defect of low collection efficiency of the finished cable.

SUMMERY OF THE UTILITY MODEL

In order to improve the finished product that tangent line peeler produced and the lower defect of garbage collection efficiency of peeling off, this application provides high accuracy tangent line peeler.

The application provides a pair of high accuracy tangent line peeler adopts following technical scheme:

the utility model provides a high accuracy tangent line peeler, including the wire stripping machine body, the lateral wall of wire stripping machine body sets firmly the wire cutting device that is used for the cutting wire to skin, the lateral wall that the wire stripping machine body is connected with the wire cutting device is the working face, the position that the working face is close to wire cutting device below sets firmly the mounting panel, the lateral wall that the working face was kept away from to the mounting panel has set firmly a plurality of slide poles, the equal fixedly connected with of one end that the working face was kept away from to a plurality of slide poles holds the same frame that holds of cable, adjacent slide pole support leaves the space that the rubber that supplies to cut off passes through, the position that the working face is located the mounting panel below sets firmly upper shed's dump bin, the dump bin is located the slide pole under.

Through adopting above-mentioned technical scheme, the cable is dropped downwards naturally by cutting wire device cutting process back, and the finished product cable of whereabouts is held in the joint by mounting panel and slide pole, and the line skin waste material that processing produced drops to the garbage bin through the space between the slide pole, has improved the efficiency that the finished product cable was collected, has improved the efficiency of line skin waste recycling simultaneously, makes operational environment clean and tidy more clean.

Optionally, the upper surface of the mounting plate and the slide rod are both arranged in a downward inclination manner in a direction away from the working surface.

Through adopting above-mentioned technical scheme, the finished product cable that falls on the mounting panel slides or rolls to the direction that is close to and holds the frame, makes the finished product cable collect and holds in the frame, has further improved the efficiency that the finished product cable was collected, makes the collection of finished product cable discharge more neat.

Optionally, one end of each of the two adjacent chute rods is close to the other end of each of the two adjacent chute rods, and the other ends of the two adjacent chute rods are far away from each other, and the chute rods are located on the same plane.

Through adopting above-mentioned technical scheme, the effectual space size that supplies the line skin waste material to pass through between the slide pole that has improved arranging of slide pole, and then improved line skin garbage collection's efficiency.

Optionally, the positions of the plurality of slide way rods, which are close to the mounting plate, are fixedly sleeved with the same abutting plate, the upper surface of the abutting plate is flat, and the abutting plate is obliquely arranged and the oblique direction of the abutting plate is parallel to the oblique direction of the slide way rods.

Through adopting above-mentioned technical scheme, the butt plate has further improved the joint strength of slide bar, has improved the stability of slide bar.

Optionally, the mounting panel is kept away from the lateral wall of working face and has been seted up the dovetail, and the position that the butt-joint board is close to the dovetail has set firmly the forked tail slat, and the forked tail slat slides along the inlet wire direction of peeler and connects in the dovetail, and the dovetail is the opening setting at the lateral wall towards the peeler inlet wire direction.

Through adopting above-mentioned technical scheme, remove the butt joint board, carry out the regulation that the finished product cable accepted the position, through unilateral open-ended dovetail, can be convenient carry out the common change of chute pole and holding the frame, improved the chute pole and held the change efficiency of frame.

Optionally, the dovetail groove supplies a plurality of forked tail slats to slide in, holds the frame and is perpendicular to the lateral wall of forked tail slat slip direction and all sets up the opening.

By adopting the technical scheme, when the length of the finished cable is greater than the length of the cable which can be accepted by the holding frame, the new butt plate is moved, the dovetail strip plate of the new butt plate slides into the dovetail groove and is abutted against the original butt plate, the length of the cable which is accepted by the holding frame is increased, and the collection stability of the finished cable is improved.

Optionally, hold the frame and all seted up the fixed orifices towards the lateral wall of peeler inlet wire direction, the lateral wall that holds the frame and deviates from the peeler inlet wire direction all has set firmly the dead lever, and the fixed orifices supplies the adjacent dead lever that holds on the frame to insert, dead lever and fixed orifices interference fit.

Through adopting above-mentioned technical scheme, at the in-process of two butt joint board butts, the dead lever that holds the frame inserts in the adjacent fixed orifices that holds the frame and with the inner wall top tight of fixed orifices, hold two frame fastenings together, and then improved the stability that holds after the frame combination.

Optionally, the bottom of the waste bin is provided with a discharge gate.

Through adopting above-mentioned technical scheme, the cable waste material of collection in the waste bin is discharged from the waste bin through arranging the bin gate, has further improved cable garbage collection's efficiency.

Optionally, the bottom of waste bin is hopper-shaped downwards, and the bin outlet door is located waste bin lower surface bottommost position.

Through adopting above-mentioned technical scheme, the cable waste material that falls into in the waste bin is quick to arranging the bin gate gathering on the inclined plane of waste bin bottom, has improved the efficiency that the cable waste material in the waste bin discharged.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the produced finished cable products slide down in the direction of the containing frame after being abutted against the upper surface of the mounting plate and are finally accumulated in the containing frame, so that the finished cable product collecting efficiency is improved, and the produced cable waste falls into a waste bin through the space between the chute rods, so that the cable waste collecting efficiency is improved;

2. the positions of the dovetail slats in the dovetail grooves are changed to adjust the positions of the chute rods and the containing frames for receiving finished cables, so that finished cables are more stably collected in the containing frames, and the efficiency of collecting finished cables is improved;

3. when the finished length of cable was greater than the stable range of accepting that holds the frame, removed new butt plate, with the dovetail strip board cunning of new butt plate to the dovetail in, be close to the in-process of butt each other at two butt plates, the dead lever inserts in the adjacent fixed orifices, and then accomplishes two combinations that hold the frame, has improved the stability of collecting the finished product of cable of different length.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a partial schematic view showing a holding assembly;

FIG. 3 is a partial exploded view showing the combination of adjacent storage frames;

FIG. 4 is a partial schematic view showing a collection assembly;

FIG. 5 is a schematic structural diagram of embodiment 2 of the present application;

FIG. 6 is a partial schematic view showing the arrangement of the slide bars in example 2.

In the figure, 1, a wire stripping machine body; 11. a working surface; 2. a wire cutting device; 21. a wire feeding wheel; 22. a wire feeding pipe; 23. cutting the wire plate; 24. a wire feeding wheel; 3. mounting a plate; 31. a dovetail groove; 4. a containing assembly; 41. a butt joint plate; 411. dovetail slats; 42. a chute rod; 43. a containing frame; 431. fixing the rod; 432. a fixing hole; 5. a collection assembly; 51. a waste bin; 52. a discharge gate.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses high accuracy tangent line peeler.

Example 1

Referring to fig. 1, high accuracy tangent line peeler includes wire stripping machine body 1, wire stripping machine body 1's lateral wall is equipped with the wire cutting device 2 that is used for the cable cutting to skin, wire stripping machine body 1 installs the lateral wall of wire cutting device 2 and is working face 11, the length direction of working face 11 is on a parallel with the horizontal direction, the cable direction of transportation is on a parallel with the length direction of working face 11, the position that working face 11 is located wire cutting device 2 below sets firmly the mounting panel 3 that the level set up, mounting panel 3 is extended to the direction of transportation of cable by wire cutting device 2's discharge gate, the length direction of mounting panel 3 is parallel with the length direction of working face 11, mounting panel 3 is equipped with holds subassembly 4 of accepting the cable finished product, working face 11 is equipped with the collection subassembly 5 of collecting the cable waste material.

After the cable transports cutting device 2, being processed by cutting device 2, collecting the cable finished product through holding subassembly 4, having improved the efficiency that the cable finished product was collected, retrieving the cable waste material through collecting subassembly 5, having improved the recovery efficiency of cable waste material, and then improved operational environment's neatly clean degree.

Referring to fig. 1, the wire cutting device 2 includes a wire feeding wheel 22, a wire cutting plate 23, two wire feeding wheels 21 and two wire feeding wheels 24, the wire feeding wheels 21 are rotatably connected to the working surface 11, the two wire feeding wheels 21 are vertically distributed and have a gap for clamping a wire cable in the middle, the wire feeding wheel 22 is rotatably connected to the working surface 11 and is located on one side of the wire feeding wheel 21 in the horizontal direction, the wire cutting plate 23 is fixedly arranged on the working surface 11 and is located at a position where the wire feeding wheel 22 is far away from the wire feeding wheel 24, the wire feeding wheel 24 is rotatably connected to the working surface 11 and is located at a position where the wire cutting plate 23 is far away from the wire feeding wheel 22, the two wire feeding wheels 24 are vertically distributed and have a gap for clamping a wire cable in the middle, the rotation axes of the wire feeding wheel 24, the wire feeding wheel 21 and the wire feeding wheel 22 are all perpendicular to the working surface 11, and the wire feeding wheel 24, the wire feeding wheel 21 and the wire feeding wheel 22 are driven by different motors; the cable passes through the space between two wire feeding wheels 21 and then transmits to wire feeding pipe 22, wire cutting plate 23 and two wire feeding wheels 24 in proper order, wire cutting plate 23 cuts the cable and cuts the crust of the two end parts of the cable, wire feeding wheels 24 outwards send out the finished cable, the tangent line of the cable is peeled, and the efficiency of the tangent line peeling of the cable is improved.

Referring to fig. 2 and 3, the holding assembly 4 includes an abutting plate 41, a holding frame 43 and a plurality of slide rods 42, a dovetail groove 31 is formed on a side wall of the mounting plate 3 away from the wire cutting device 2, a length direction of the dovetail groove 31 is parallel to a length direction of the mounting plate 3, a length direction of the abutting plate 41 is parallel to a length direction of the mounting plate 3, a dovetail strip 411 is fixedly arranged on a side wall of the abutting plate 41 facing the dovetail groove 31, the dovetail strip 411 slides in the dovetail groove 31 along the length direction of the dovetail groove 31, the dovetail groove 31 is used for horizontally placing a plurality of dovetail strips 411, upper surfaces of the mounting plate 3 and the abutting plate 41 are inclined planes inclined downwards in a direction away from the working surface 11, an upper surface of the abutting plate 41 is connected with an upper surface of the mounting plate 3, the slide rods 42 are horizontally distributed on the side wall of the abutting plate 41 away from the mounting plate 3, the slide rods 42 are arranged obliquely, and the length direction is parallel to an inclined direction of the upper surface of the abutting plate 41, the space between the adjacent chute pole 42 supplies the cable waste material to pass through, and the chute pole 42 on same butt joint board 41 keeps away from butt joint board 41 one end with same frame 43 fixed connection that holds, holds the arc board that frame 43 is buckled to the direction that is close to mounting panel 3, and the length direction that holds frame 43 is on a parallel with the length direction of mounting panel 3, and self length direction both ends are the opening setting.

The finished cable products fall from the discharge end of the wire feeding wheel 24 and then abut against the upper surface of the mounting plate 3, move towards the containing frame 43 sequentially through the abutting plate 41 and the upper surface of the slide way rod 42 under the action of the inclined surface of the mounting plate 3, the finished cable products are finally stacked in the containing frame 43, the efficiency of the finished cable products moving towards the containing frame 43 is effectively improved due to the inclined arrangement of the upper surface of the abutting plate 41 and the slide way rod 42, the efficiency of collecting the finished cable products is improved, cable waste materials are enabled to pass through the space between the slide way rods 42, and the probability of the cable waste materials entering the containing frame 43 is reduced; the bearing position of the containing frame 43 is adjusted by adjusting the position of the dovetail strip 411 in the dovetail groove 31, when the length of the cable finished product exceeds the stable bearing length of the containing frame 43, the new butt plate 41 is moved, the dovetail strip 411 of the new butt plate 41 is positioned in the dovetail groove 31 and moves to the position where the new containing frame 43 is abutted to the original containing frame 43, and the efficiency of collecting the cable finished products with different lengths is improved.

Referring to fig. 3, a fixing hole 432 is formed in a side wall of the containing frame 43, which is far away from the feeding wheel and perpendicular to the working surface 11, a fixing rod 431 is fixedly arranged on a side wall of the containing frame 43, which is far away from the fixing hole 432, a central axis of the fixing rod 431 is collinear with a central axis of the fixing hole 432, the fixing hole 432 is used for inserting the fixing rod 431 of the adjacent containing frame 43, and the fixing rod 431 and the fixing hole 432 are in interference fit; in the process that the two containing frames 43 are close to each other, the fixing rod 431 is inserted into the fixing hole 432 of the adjacent containing frame 43, the circumferential side wall of the fixing rod 431 is tightly abutted to the axial inner wall of the fixing hole 432, and the stability of the two containing frames 43 which are adjacent to each other after being combined is improved.

Referring to fig. 4, the collecting assembly 5 includes a waste bin 51 with an upper opening and a discharge gate 52, the side wall of the waste bin 51 is fixedly arranged on the working surface 11 below the wire cutting plate 23 and the feeding wheel to receive the cable waste cut by the wire cutting plate 23, the waste bin 51 is arranged below the chute rod 42 to receive the cable waste falling from the space between the chute rods 42, the bottom of the waste bin 51 is in a downward funnel shape, and the discharge gate 52 is rotatably connected to the bottom of the waste bin 51 to close the lower opening of the waste bin 51; one part of the cable waste falling through the wire cutting plate 23 directly falls into the waste bin 51, and the other part of the cable waste falls into the waste bin 51 through the space between the slideway rods 42, so that the recovery efficiency of the cable waste is improved; when the waste in the waste box 51 is taken out, the discharge door 52 is opened, and the cable waste in the waste box 51 is discharged from the waste through the bottom opening of the waste box 51, so that the recovery efficiency of the cable waste in the waste box 51 is improved.

The implementation principle of the embodiment 1 of the application is as follows: the cable falls onto the mounting plate 3 after being cut and processed by the cable cutting plate 23 and moves downwards through the inclined surface of the mounting plate 3, and a finished cable product is positioned in the containing frame 43 after passing through the abutting plate 41 and the slideway rod 42 in sequence, so that the finished cable product is collected, and the finished cable product collecting efficiency is improved; the receiving position of the holding frame 43 to the finished cable product is changed by moving the receiving plate 41; when the length of the finished cable is greater than the stable receiving length of the containing frames 43, the new butt joint plate 41 is moved, the dovetail strip plates 411 on the new butt joint plate 41 slide into the dovetail grooves 31 and move towards the direction close to the original butt joint plate 41, the two containing frames 43 are close to each other, the fixing rods 431 are located in the fixing holes 432 of the adjacent containing frames 43, the fixation of the two containing frames 43 is completed, the stable receiving length of the containing frames 43 for the finished cable is increased, and the collecting efficiency of the finished cable is improved.

One part of cable waste falling from the wire cutting device 2 directly falls into the waste box 51 below, the other part of the cable waste falls onto the mounting plate 3 and then moves downwards and falls into the waste box 51 through the space between the chute rods 42, the cable waste falling into the waste box 51 is stacked to a certain amount and then the discharge door 52 is opened, the cable waste in the waste box 51 is discharged from the waste box 51 through the lower opening of the waste box 51, and the recovery efficiency of the cable waste is improved.

Example 2

Referring to fig. 5 and 6, the present embodiment is different from embodiment 2 in that, on the same plane, one ends of two adjacent slide rods 42 are close to each other, and the other ends are far from each other; when the cable waste falls onto the slideway pole 42, because the horizontal distance of the partial space between the slideway poles 42 is increased, the cable waste more effectively falls into the waste box 51, the collection efficiency of the waste box 51 on the cable waste is further improved, and the stability of the holding assembly 4 is improved.

The implementation principle of embodiment 2 of the present application is as follows: move down after the cable waste material that drops to mounting panel 3 department from cutting wire device 2 moves down with the inclined plane butt of mounting panel 3, when the cable waste material moved on slide bar 42, fall into waste bin 51 through the space between the slide bar 42, because the distribution of slide bar 42 makes the horizontal distance increase in partial space between the slide bar 42, improved the efficiency that the cable waste material fell into waste bin 51 from slide bar 42, and then improved the efficiency that the cable waste material was collected.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a high accuracy tangent line peeler, includes wire stripping machine body (1), its characterized in that: the lateral wall of wire stripping machine body (1) sets firmly wire cutting device (2) that are used for the wire cutting to skin, the lateral wall that wire stripping machine body (1) and wire cutting device (2) are connected is working face (11), the position that working face (11) are close to wire cutting device (2) below sets firmly mounting panel (3), the lateral wall that working face (11) were kept away from in mounting panel (3) sets firmly a plurality of chute poles (42), the equal fixedly connected with of one end that working face (11) were kept away from in a plurality of chute poles (42) holds frame (43) that the same cable that holds, adjacent chute pole (42) support leaves the space that the rubber that supplies to cut off passes through, position that working face (11) are located mounting panel (3) below sets firmly upper shed waste bin (51), waste bin (51) are located chute pole (42) under.

2. The high precision tangential peeling machine of claim 1, wherein: the upper surface of the mounting plate (3) and the slideway rod (42) are both arranged in a downward inclined mode in the direction away from the working surface (11).

3. The high precision tangential peeling machine of claim 1, wherein: one ends of the two adjacent slideway rods (42) are close to each other, the other ends of the two adjacent slideway rods are far away from each other, and the slideway rods (42) are positioned on the same plane.

4. The high precision tangential peeling machine of claim 1, wherein: the position that a plurality of slide way rods (42) are close to mounting panel (3) all fixes the cover and is equipped with same butt plate (41), and the upper surface of butt plate (41) is level and smooth, and butt plate (41) slope setting, and the incline direction is on a parallel with the incline direction of slide way rod (42).

5. The high precision tangential peeling machine of claim 4, wherein: dovetail (31) have been seted up to the lateral wall that mounting panel (3) kept away from working face (11), and butt plate (41) are close to the position of dovetail (31) and have set firmly forked tail slat (411), and forked tail slat (411) are slided along the inlet wire direction of peeler and are connected in dovetail (31), and dovetail (31) are opening setting at the lateral wall towards the peeler inlet wire direction.

6. The high precision tangential peeling machine of claim 5, wherein: dovetail (31) supply a plurality of forked tail lathes (411) to slide in, hold frame (43) perpendicular to forked tail lathes (411) the lateral wall of sliding direction and be the opening setting.

7. The high precision tangential peeling machine of claim 6, wherein: hold frame (43) and all seted up fixed orifices (432) towards the lateral wall of peeler inlet wire direction, hold frame (43) and all set firmly dead lever (431) deviating from the lateral wall of peeler inlet wire direction, dead lever (431) on fixed orifices (432) confession adjacent frame (43) that holds insert, dead lever (431) and fixed orifices (432) interference fit.

8. The high precision tangential peeling machine of claim 1, wherein: and a discharge door (52) is arranged at the bottom of the waste box (51).

9. The high precision tangential peeling machine of claim 8, wherein: the bottom of waste bin (51) is down hourglass hopper-shaped, and bin outlet door (52) are located waste bin (51) lower surface bottommost position.

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