CN112787202A - Wire stripping and winding integrated equipment for electrical engineering - Google Patents

Abstract

The invention discloses wire stripping and taking-up integrated equipment for electrical engineering, which comprises a machine table, a guide assembly, a cutting device, a vertical moving assembly and a wire taking-up reel, wherein the guide assembly is arranged at the right end of the machine table so as to introduce a cable to be processed into the device; two groups of cutting devices are symmetrically arranged up and down, and the two groups of cutting devices are fixed on the machine table through electric telescopic rods II; a wire core diameter measuring assembly fixed on the top wall of the machine table through an electric telescopic rod III is arranged between the cutting device and the guide assembly; crushing devices are symmetrically arranged at the front and the back of the left side of the cutting assembly; and a limiting component is arranged between the vertical moving component and the crushing device.

Description

Wire stripping and winding integrated equipment for electrical engineering

Technical Field

The invention belongs to the technical field of wire stripping devices, and particularly relates to wire stripping and taking-up integrated equipment for electrical engineering.

Background

The sinle silk and the insulating layer of cable conductor all can retrieve reuse, and especially some high tension cable conductor's recycle value is bigger, separates the insulating layer and the sinle silk of cable conductor through the wire stripping device, retrieves and reutilization to sinle silk and insulating layer respectively, nevertheless according to the survey discovery, the wire stripping line integrated equipment for current electrical engineering often has following problem:

1. the insulation layer of the cable is separated from the wire core, only the wire core part is wound and recovered, and a device for recovering the insulation layer part is not provided, so that the insulation layer part is required to be treated independently after the wire core is collected, and the working efficiency is reduced;

2. in the process of winding and collecting the wire core, in order to ensure that the cutting assembly can fully and stably cut the insulating layer of the cable, the output direction of the wire core is always kept unchanged, so that the wire core which is output in a directional mode cannot be uniformly wound on the take-up reel, the machine needs to be continuously stopped for adjustment, the take-up reel even is frequently replaced, time and labor are wasted, and the working efficiency is low;

3. although a plurality of wire stripping devices can be suitable for wire stripping of cables with various diameters, the cutting blade is only contacted with the wire core through the adjustable cutting assembly, so that the insulation layer is fully cut, the wire core is damaged, meanwhile, the cutting blade is damaged, and the service life of the cutting blade is shortened.

Therefore, a person skilled in the art provides an integrated wire stripping and taking-up device for electrical engineering to solve the problems set forth in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a wire stripping and taking-up integrated device for electrical engineering comprises a machine table, a guide assembly, a cutting device, a vertical moving assembly and a wire taking-up reel, wherein the guide assembly is arranged at the right end of the machine table so as to introduce a cable to be processed into the device, the cutting device is arranged on the left side of the guide assembly, the wire taking-up reel is rotatably arranged outside the left end of the machine table and driven to rotate by a taking-up motor fixed on the machine table, and two vertical moving assemblies which are symmetrically fixed on the machine table up and down are arranged on the right side of the wire taking-up reel so that a wire core is uniformly wound on the wire taking-up reel; two groups of cutting devices are symmetrically arranged up and down, and the two groups of cutting devices are fixed on the machine table through electric telescopic rods II;

a wire core diameter measuring assembly fixed on the top wall of the machine table through an electric telescopic rod III is arranged between the cutting device and the guide assembly;

crushing devices are symmetrically arranged on the front and back of the left side of the cutting assembly and are used for crushing and recycling the cable protective sheath;

a limiting assembly is arranged between the vertical moving assembly and the crushing device, and a through hole is transversely formed in the middle of the limiting assembly so that the wire core can pass through the through hole.

Further, as preferred, the direction subassembly includes electric telescopic handle one and splint, splint longitudinal symmetry is provided with two, just, on the top of the splint that are located upper portion passes through electric telescopic handle one and the roof of board, the lower extreme of the splint that are in the below passes through pillar fixed connection on the lower wall of board.

Further, as preferred, the cross section of splint is the arc structure, and, its arc surface is provided with a plurality of leading wheels of rotation.

Further, as preferred, cutting device includes supporting seat, cutting blade and micro motor, cutting blade rotates the bottom middle part that sets up at the supporting seat, and, its micro motor by fixing at the supporting seat left end passes through belt drive and rotates.

Further, preferably, the crushing device comprises a first crushing toothed cutter, a second crushing toothed cutter and a crushing shell, wherein the first crushing toothed cutter and the second crushing toothed cutter are both rotatably arranged in the crushing shell, and the first crushing toothed cutter and the second crushing toothed cutter are meshed with each other;

the crushing toothed cutter I and the crushing toothed cutter II are driven to rotate by a crushing motor fixed at the top end of the crushing shell;

the shortest distance between the first crushing tooth cutter and the cable is smaller than the smallest distance between the second crushing tooth cutter and the rest cable, and the axis connecting line of the first crushing tooth cutter and the second crushing tooth cutter forms 16 degrees with the horizontal direction so as to bring the insulating layer between the first crushing tooth cutter and the second crushing tooth cutter.

Further, as preferred, the bottom of smashing the casing is linked together with the waste bin of board bottom.

Further, as preferred, the subassembly that erects to move includes connecting seat and spacing pulley one, the one end that the connecting seat is close to the sinle silk rotates and is provided with spacing pulley one, just, the one end that spacing pulley one was kept away from to the connecting seat is through fixing the cylinder drive on the board.

Further, as preferred, spacing subassembly includes the diaphragm, adjusts pole and spacing pulley two, the diaphragm is close to and rotates on a sinle silk side end face and installs the regulation pole, spacing pulley two rotates through the spliced pole and sets up on the inner wall of board, just, the flexible end of adjusting the pole rotates with the middle part of spliced pole and is connected.

Further, preferably, the wire core diameter measuring assembly comprises an annular disc seat, a conductive probe and a conductive support plate, and the bottom end of the conductive support plate is arranged in the middle of the annular disc seat in a sliding mode through a plurality of springs;

a plurality of conductive probes are uniformly distributed on the upper end surface of the conductive support plate, and the occupied range of the conductive probes is matched with the range of the upper end surface of the conductive support plate.

Preferably, the conductive probe is of an elastic telescopic structure, and the telescopic direction of the conductive probe is consistent with the sliding direction of the conductive support plate relative to the annular disc seat.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the equipment, the insulating layer of the cable is cut through the cutting device, then the cut insulating layers are respectively opened towards two sides and sequentially enter the crushing device on the corresponding side, the crushing device is used for crushing the insulating layer, and then the crushed insulating layer enters the waste material box below the machine table to be recycled, namely, the equipment can be used for simultaneously treating and recycling the insulating layer and the cable core of the cable, so that the working efficiency is greatly improved;

2. the cable enters from the right side of the device, the processed wire core is output from the left side, reciprocating up-and-down displacement of the wire core can be realized at the output end of the left side through the vertical moving assembly, meanwhile, the limiting assembly is also arranged at the outlet at the left end of the machine table and can limit the wire core, and the wire core of the output part is prevented from deviating from the side under the driving of the vertical moving assembly to influence the normal operation of the cutting device, so that the output wire core can be uniformly wound on the winding reel, and the integral stability and the working efficiency are improved;

3. be provided with sinle silk diameter measuring subassembly in this equipment, survey through the sinle silk and detect the one end of entering device inside cable through a plurality of conductive probe on the subassembly, utilize the electric conductivity of sinle silk part, through the regional scope of conductive probe detectable sinle silk to calculate the radius of sinle silk, then through two control cutting blade's of electric telescopic handle cutting thickness, make the minimum vertical distance between two cutting blades slightly be greater than the sinle silk diameter, prevent to damage the sinle silk on the one hand, on the other hand increases cutting blade's life.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is a schematic structural view of a cross section of the splint of the present invention;

FIG. 4 is a top view of the comminution apparatus according to the invention;

FIG. 5 is a schematic structural view of a spacing assembly of the present invention;

FIG. 6 is a schematic structural view of a core caliper assembly of the present invention;

in the figure: 1. a machine platform; 2. a guide assembly; 3. a wire core diameter measuring component; 4. a cutting device; 5. a crushing device; 6. vertically moving the assembly; 7. a take-up reel; 8. a winding motor; 9. a limiting component; 10. a waste bin; 21. a first electric telescopic rod; 22. a splint; 31. an annular disc seat; 32. a conductive probe; 33. a conductive support plate; 41. a supporting seat; 42. a cutting blade; 43. a micro motor; 51. crushing a toothed cutter I; 52. a crushing toothed cutter II; 53. pulverizing the shell; 61. a connecting seat; 62. a first limiting pulley; 91. a transverse plate; 92. adjusting a rod; 93. a second limiting pulley; 221 guide the wheels.

Detailed Description

Referring to fig. 1, in the embodiment of the present invention, a wire stripping and taking-up integrated device for electrical engineering includes a machine table 1, a guide assembly 2, a cutting device 4, a vertical moving assembly 6, and a wire taking-up reel 7, where the guide assembly 2 is disposed at the right end of the machine table 1 so as to introduce a cable to be processed into the device, the cutting device 4 is disposed at the left side of the guide assembly 2, the wire taking-up reel 7 is rotatably disposed outside the left end of the machine table 1, the wire taking-up reel is driven to rotate by a winding motor 8 fixed on the machine table 1, and two vertical moving assemblies 6 symmetrically fixed on the machine table 1 are disposed at the right side of the wire taking-up reel 7 so that a wire core is uniformly wound on the wire taking-up; two groups of cutting devices 4 are symmetrically arranged up and down, and the two groups of cutting devices 4 are fixed on the machine table 1 through electric telescopic rods II;

a wire core diameter measuring assembly 3 fixed on the top wall of the machine table 1 through an electric telescopic rod III is arranged between the cutting device 4 and the guide assembly 2, the wire core diameter measuring assembly 3 can detect the radius of a wire core by utilizing the conductivity of the wire core and accurately adjust the cutting thickness according to different wire core radii, so that the wire core and the cutting blade 42 are prevented from being damaged, the integrity of the recovered wire core is ensured, and the service time of the cutting blade 42 is prolonged;

crushing devices are symmetrically arranged at the front and back of the left side of the cutting assembly 4 and are used for crushing and recycling the cable protective sheath;

a limiting component 9 is arranged between the vertical moving component 6 and the crushing device 5, and a through hole is transversely formed in the middle of the limiting component 9 so that the wire core can pass through the through hole.

In this embodiment, the guiding assembly 2 includes a first electric telescopic rod 21 and a clamping plate 22, the clamping plate 22 is symmetrically disposed up and down, and the top end of the clamping plate 22 located at the upper portion passes through the first electric telescopic rod 21 and the top wall of the machine table 1, and the lower end of the clamping plate 22 located below passes through the pillar and is fixedly connected to the lower wall of the machine table 1.

Referring to fig. 3, as a preferred embodiment, the cross section of the clamping plate 22 is an arc-shaped structure, and the arc-shaped surface is rotatably provided with a plurality of guide wheels 221, and the plurality of guide wheels 221 enable the clamping plate 22 to clamp and limit the cable and reduce the dynamic friction between the cable and the clamping plate 22, so that the process of the internal input of the cable phase device is smoother, and the smoothness of the device in the working process is improved.

Referring to fig. 2, in the embodiment, the cutting device 4 includes a supporting base 41, a cutting blade 42 and a micro motor 43, the cutting blade 42 is rotatably disposed at the middle of the bottom end of the supporting base 41, and the cutting blade is driven to rotate by the micro motor 43 fixed at the left end of the supporting base 41 through a belt.

Referring to fig. 4, in the embodiment, the crushing device 5 includes a first crushing toothed cutter 51, a second crushing toothed cutter 52 and a crushing shell 53, the first crushing toothed cutter 51 and the second crushing toothed cutter 52 are both rotatably disposed in the crushing shell 53, the first crushing toothed cutter 51 and the second crushing toothed cutter 52 are engaged with each other, and the cable insulating layer can be sufficiently crushed through the engagement of the first crushing toothed cutter 51 and the second crushing toothed cutter 52;

the first crushing toothed cutter 51 and the second crushing toothed cutter 52 are driven to rotate by a crushing motor fixed at the top end of the crushing shell 53;

the shortest distance between the first crushing toothed cutter 51 and the cable is smaller than the shortest distance between the rest cables of the second crushing toothed cutter 52; and the axis line of the first crushing serrated knife 51 and the second crushing serrated knife 52 is 16 degrees with the horizontal direction, so that the insulating layer is rolled between the first crushing serrated knife 51 and the second crushing serrated knife 52, namely, the cable insulating layer can be respectively stretched towards two sides of the cutting blade 42 after being cut by the cutting blade 42, then, the stretched insulating layer continuously moves leftwards, after being contacted with the first crushing serrated knife 51, the cable insulating layer can be rolled between the first crushing serrated knife 51 and the second crushing serrated knife 52 by the first crushing serrated knife 51 to complete crushing, and after multiple tests, in the device, the range of different cable radiuses can be adapted to when the axis line of the first crushing serrated knife 51 and the second crushing serrated knife 52 is 16 degrees with the horizontal direction included angle, so that the adaptability of the device is improved to the maximum degree.

In this embodiment, the bottom end of the crushing shell 53 is communicated with the waste bin 10 at the bottom of the machine table 1.

As a preferred embodiment, the vertical moving assembly 6 includes a connecting seat 61 and a first limiting pulley 62, wherein the first limiting pulley 62 is rotatably disposed at one end of the connecting seat 61 close to the wire core, and one end of the connecting seat 61 far away from the first limiting pulley 62 is driven by an air cylinder fixed on the machine table 1.

Referring to fig. 5, in this embodiment, spacing subassembly 9 includes diaphragm 91, adjusts pole 92 and two 93 spacing pulleys, diaphragm 91 rotates on being close to sinle silk side end face and installs and adjust pole 92, two 93 spacing pulleys rotate through the spliced pole and set up on the inner wall of board 1, just, the flexible end of adjusting pole 92 rotates with the middle part of spliced pole to be connected, wherein, adjust pole 92 and be used for adjusting two 93 deflection angles of spacing pulley to the adaptation is spacing to the sinle silk of different radiuses.

Referring to fig. 6, in the present embodiment, the core caliper assembly 3 includes an annular disc seat 31, a conductive probe 32 and a conductive support plate 33, a bottom end of the conductive support plate 33 is slidably disposed in a middle portion of the annular disc seat 31 through a plurality of springs, and an elastic sliding connection between the conductive support plate 33 and the annular disc seat 31 is used for buffering a cable extending into the apparatus and preventing the conductive probe 32 from being damaged due to excessive cable extension;

a plurality of conductive probes 32 are uniformly distributed on the upper end surface of the conductive support plate 33, and the occupied range of the plurality of conductive probes 32 is matched with the range of the upper end surface of the conductive support plate 33.

In this embodiment, the conductive probe 32 is an elastically stretchable structure, and the stretching direction of the conductive probe is consistent with the sliding direction of the conductive support plate 33 relative to the annular tray 31, that is, the elastically stretchable structure of the conductive probe 32 enables the conductive probe to have a certain directional buffering effect on one hand, and enables the conductive probe to have a good detection effect on the uneven end surface of the cable on the other hand, thereby improving the adaptability of the device.

Specifically, firstly, the wire core diameter measuring assembly is controlled to move downwards, then, a worker inserts one end of a cable to be processed into the guide assembly from the right side of the device, so that one end of the cable is in full contact with the wire core diameter measuring assembly, the clamping plate is driven by the electric telescopic rod I to clamp the cable, then, the wire core part of the cable is detected by the wire core diameter measuring assembly, the cutting thickness of the cutting blade is controlled and adjusted by the electric telescopic rod II according to the detected wire core radius, after the adjustment is completed, the wire core diameter measuring assembly is restored to the original position, the micro motor drives the cutting blade to rotate, and the crushing device also intervenes in the; at the moment, slightly loosening the clamping plate, and slowly pushing the cable from right to left by an operator until the wire core extends out of the left end of the machine table for a sufficient length so as to fix one end of the wire core on the take-up reel, wherein when the wire core extends out of the sufficient length, one end of the wire core needs to be fixed on the take-up reel after the cutting device and the crushing device completely stop working, then the wire core is clamped by adjusting the limiting pulley through the air cylinder, meanwhile, the limiting pulley in the limiting assembly is controlled to clamp the wire core, finally, the cutting device and the crushing device are controlled to intervene in working, the take-up motor is started simultaneously, so that the take-up reel slowly rotates at a uniform speed until one-time wire stripping and taking-up work of the cable is completed, after the work is completed, the operation of all devices is stopped, and all the assemblies are restored to the original positions, and after the wire stripping effect, work efficiency is high.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent substitutions or changes according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (10)

1. The wire stripping and taking-up integrated equipment for the electrical engineering comprises a machine table (1), a guide assembly (2), a cutting device (4), a vertical moving assembly (6) and a wire taking-up reel (7), wherein the guide assembly (2) is arranged at the right end of the machine table (1) so as to lead a cable to be processed into the device, the cutting device (4) is arranged on the left side of the guide assembly (2), the wire taking-up reel (7) is rotatably arranged outside the left end of the machine table (1), the wire taking-up reel is driven to rotate by a rolling motor (8) fixed on the machine table (1), and the two vertical moving assemblies (6) which are symmetrically fixed on the machine table (1) from top to bottom are arranged on the right side of the wire taking-up reel (7) so that a wire core is uniformly wound on the wire taking-up; the method is characterized in that: two groups of cutting devices (4) are arranged in an up-down symmetrical mode, and the two groups of cutting devices (4) are fixed on the machine table (1) through electric telescopic rods;

a wire core diameter measuring component (3) fixed on the top wall of the machine table (1) through an electric telescopic rod III is arranged between the cutting device (4) and the guide component (2);

crushing devices are symmetrically arranged on the front and back of the left side of the cutting assembly (4) and are used for crushing and recovering the cable protective sheath;

a limiting component (9) is arranged between the vertical moving component (6) and the crushing device (5), and a through hole is transversely formed in the middle of the limiting component (9) so that the wire core can pass through the through hole.

2. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 1, characterized in that: the guide assembly (2) comprises a first electric telescopic rod (21) and two clamping plates (22), the two clamping plates (22) are arranged in an up-and-down symmetrical mode, the top end of the clamping plate (22) located on the upper portion is connected to the top wall of the machine table (1) through the first electric telescopic rod (21), and the lower end of the clamping plate (22) located below is fixedly connected to the lower wall of the machine table (1) through a support column.

3. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 2, characterized in that: the cross section of the clamping plate (22) is of an arc-shaped structure, and a plurality of guide wheels (221) are rotatably arranged on the arc-shaped surface of the clamping plate.

4. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 1, characterized in that: cutting device (4) include supporting seat (41), cutting blade (42) and micro motor (43), cutting blade (42) rotate the bottom middle part that sets up at supporting seat (41), and, its micro motor (43) by fixing at supporting seat (41) left end passes through belt drive and rotates.

5. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 1, characterized in that: the crushing device (5) comprises a first crushing toothed cutter (51), a second crushing toothed cutter (52) and a crushing shell (53), wherein the first crushing toothed cutter (51) and the second crushing toothed cutter (52) are rotatably arranged in the crushing shell (53), and the first crushing toothed cutter (51) and the second crushing toothed cutter (52) are meshed with each other;

the crushing toothed cutter I (51) and the crushing toothed cutter II (52) are driven to rotate by a crushing motor fixed at the top end of the crushing shell (53);

the shortest distance between the first crushing toothed cutter (51) and the cable is smaller than the smallest distance between the remaining cables of the second crushing toothed cutter (52), and the axial line connecting line of the first crushing toothed cutter (51) and the second crushing toothed cutter (52) forms (16) ° with the horizontal direction, so that the insulating layer is rolled between the first crushing toothed cutter (51) and the second crushing toothed cutter (52).

6. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 5, characterized in that: the bottom end of the crushing shell (53) is communicated with a waste box (10) at the bottom of the machine table (1).

7. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 1, characterized in that: the vertical moving assembly (6) comprises a connecting seat (61) and a first limiting pulley (62), the first limiting pulley (62) is rotatably arranged at one end, close to the wire core, of the connecting seat (61), and one end, far away from the first limiting pulley (62), of the connecting seat (61) is driven by a cylinder fixed on the machine table (1).

8. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 1, characterized in that: spacing subassembly (9) are including diaphragm (91), regulation pole (92) and two (93) spacing pulleys, diaphragm (91) are close to and rotate on the sinle silk side end face and install regulation pole (92), two (93) spacing pulleys rotate through the spliced pole and set up on the inner wall of board (1), just, the flexible end of adjusting pole (92) rotates with the middle part of spliced pole and is connected.

9. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 1, characterized in that: the wire core diameter measuring assembly (3) comprises an annular disc seat (31), a conductive probe (32) and a conductive support plate (33), and the bottom end of the conductive support plate (33) is arranged in the middle of the annular disc seat (31) in a sliding mode through a plurality of springs;

a plurality of conductive probes (32) are uniformly distributed on the upper end surface of the conductive support plate (33), and the occupied range of the plurality of conductive probes (32) is matched with the range of the upper end surface of the conductive support plate (33).

10. The wire stripping and taking-up integrated equipment for electrical engineering according to claim 9, characterized in that: the conductive probe (32) is of an elastic telescopic structure, and the telescopic direction of the conductive probe is consistent with the sliding direction of the conductive support plate (33) relative to the annular disc seat (31).

Images