CN108963886B - High-precision sleeve and processing technology - Google Patents

Abstract

The invention discloses a high-precision sleeve, which comprises: the wire stripper comprises a barrel body, a wire stripper, a stripping plate, a horn mouth and positioning balls, wherein the barrel body is cylindrical, the wire stripper is arranged at one end of the barrel body, the stripping plate is arranged in the barrel body, one end of the stripping plate is arranged on the inner surface of the barrel body, the other end of the stripping plate is arranged in the inner space of the barrel body, the part, located in the inner space of the barrel body, of the stripping plate is cylindrical, the horn mouth is arranged at one end of the barrel body, and the positioning balls are arranged on the inner surface of the horn mouth; a process for high precision sleeve is also disclosed. The wire stripping cutter is automatically clamped and adjusted to the position of the wire body, so that the accuracy of the wire body and the wire stripping cutter is ensured, the wire body is not easy to be damaged, and the processing quality is ensured.

Description

High-precision sleeve and processing technology

Technical Field

The invention belongs to the field of wire harness processing equipment, and particularly relates to a high-precision sleeve and a processing technology.

Background

The wire stripper is used as a basic industrial product, and has wide application range and large market. The wire stripper has a plurality of advantages such as simple and clear structure, convenient operation and the like, but the advantages are the same, but indicate that the wire stripper is technically behind, is not satisfactory in the development direction of automation, convenience and humanization, and is difficult to meet the requirements of modern enterprises. Because the wire stripper has simple structure and is easy to imitate, the industry of the wire stripper is rapidly expanded but the technology content is lacking.

Since wire stripping machines emit light, the application range is larger and larger, the technology is seriously lagged, only simple skin stripping actions can be completed, a large amount of manpower is still required to complete other actions such as wire separation, the functions are single, great demands on manpower resources are still met, sufficient cost cannot be saved for enterprises, and particularly along with the development of scientific technology, a large amount of equipment and production start to enter an automatic and wire-producing process, and the single function and low technological content of the wire stripping machine are quite different. Thus, there is a great need for an innovation in the peeler, and further improvements are also necessary in which the sleeve is an important component of the peeler. The application innovates and improves the sleeve of the peeling machine with respect to the problem of low automation degree of the peeling machine.

The existing sleeve mainly has the following problems:

1. most of the existing sleeves do not have positioning capability and clamping capability, are free to process and are easy to damage a wire body.

2. Most of the existing sleeves do not have the function of adjusting the position of the wire stripping knife, so that the position of the wire stripping knife is not easy to grasp during processing, and the wire stripping knife is easy to damage a wire body.

Disclosure of Invention

The invention aims to: in order to overcome the defects, the invention aims to provide the high-precision sleeve and the processing technology, which automatically clamp and adjust the wire stripping knife position by automatically clamping and adjusting the wire body position, thereby ensuring the accuracy of the wire body and the wire stripping knife position, ensuring the processing quality and being not easy to damage the wire body.

The technical scheme is as follows: in order to achieve the above object, the present invention provides a high-precision sleeve comprising: the wire stripper comprises a barrel body, a wire stripper, a stripping plate, a bell mouth and positioning balls, wherein the barrel body is cylindrical, the wire stripper is arranged at one end of the barrel body, the stripping plate is arranged inside the barrel body, one end of the stripping plate is arranged on the inner surface of the barrel body, the other end of the stripping plate is arranged in the inner space of the barrel body, the part of the stripping plate, which is positioned in the inner space of the barrel body, is cylindrical, the bell mouth is arranged at one end of the barrel body, and the positioning balls are arranged on the inner surface of the bell mouth.

The peeling plate comprises a fixing section, a peeling section and a peeling section, wherein the fixing section is fixed on the inner surface of a cylinder body, the fixing section is arranged on one side of a wire peeling knife, one end of the fixing section is provided with the peeling section, the peeling section is cylindrical, a port at one end of the peeling section is provided with an inclination, one end of the peeling section is provided with the peeling section, the cross section of the peeling section is in a flying wing shape, and the peeling section are connected with each other at the boundary of a contact surface and are in smooth transition.

According to the arrangement of the peeling plate, the peeling plate with the inclined angle gradually separates the surface skin of the wire body from the wire harness, the structure is simple and effective, the peeling function is realized, the sleeve functionality is increased, the functions are more, and the practicability is stronger.

The invention discloses a horn mouth provided with an adjusting mechanism, which comprises an adjusting rod, friction balls, a winding coil, a winding roll and a reset spring, wherein the adjusting rod is arranged at one end of the horn mouth, the adjusting rod penetrates through the horn mouth, the friction balls are arranged at one end of the adjusting rod, the winding coil is arranged at the other end of the adjusting rod, the winding roll is connected with the winding roll, the winding roll is fixed on the outer surface of the horn mouth, the winding roll is fixedly connected with the winding coil, a groove is arranged on the adjusting rod, the reset spring is arranged in the groove, one end of the reset spring is fixed on the outer surface of the horn mouth, and the other end of the reset spring is fixed on the adjusting rod.

According to the invention, the wire body position is automatically confirmed through the sensor, and the wire body position is clamped and adjusted through the adjusting rod, so that the immobility of the central position of the wire body is ensured, the processing position is easier to determine in the processing process, the possibility of damaging the wire body is reduced, and the processing quality is ensured.

The number of the adjusting rods is not less than 3, and the adjusting rods are annularly arranged on the inner surface of the bell mouth.

The regulating mechanism further comprises a photoelectric sensor, an analog-to-digital converter, a control chip, an electric brush and a protective shell, wherein the photoelectric sensor is arranged at one end of the horn mouth far away from the barrel body, the photoelectric sensor is connected with the analog-to-digital converter, the analog-to-digital converter is arranged on the outer surface of the horn mouth, the analog-to-digital converter is connected with the control chip, the control chip is arranged on the outer surface of the horn mouth, the control chip is connected with the electric brush, the electric brush is arranged in the winding roll, one end of the electric brush is fixed on the winding roll, the protective shell is arranged on the outer side of the horn mouth, and the protective shell covers the outer surface of the horn mouth.

According to the invention, the adjusting mechanism is driven by the sensor and the control chip, so that the manual use is replaced, the automation degree of the sleeve is improved, and the human resources are saved.

The peeling plate is internally provided with a knife control mechanism, the knife control mechanism comprises a fixed chute, a sliding block, a speed reducing spring, an electromagnet, a control circuit, a knife control chip and a laser sensor, the fixed chute is arranged at one end of a cylinder body, the fixed chute is provided with the sliding block, a wire peeling knife is fixed on the sliding block, one end of the sliding block is provided with the speed reducing spring, one end of the speed reducing spring is provided with the electromagnet, the electromagnet is connected with the control circuit, the control circuit is arranged on the inner surface of the cylinder body, the control circuit is connected with the knife control chip, the knife control chip is arranged on the inner surface of the cylinder body, the knife control chip is connected with the laser sensor, and the laser sensor is arranged on the inner surface of the cylinder body; the sliding block is made of metal materials.

According to the arrangement of the knife control mechanism, the position of the wire stripping knife is adjusted, so that the wire body is prevented from being damaged, and the processing quality is improved.

The control circuit comprises a spotlight and a photoresistor, wherein the spotlight is arranged on one side of the photoresistor, and the light of the spotlight is aimed at the photoresistor.

The invention relates to a process for machining a high-precision sleeve, which comprises the following steps of: step one: determining the size of a workpiece, wherein the light of the photoelectric sensor is blocked, and the photoelectric sensor sends a response signal to the analog-to-digital converter; step two: the analog-to-digital converter converts the response signal into an electric signal and transmits the electric signal to the control chip; step three: the control chip controls the electric brush to rotate the winding drum and shrink the beam-shrinking coil so that the adjusting rod moves inwards; step four: and controlling, adjusting and amplifying, wherein the control chip controls the electric brush to reversely rotate the winding drum to pay out the beam-collecting coil, so that the adjusting rod moves outwards.

The invention relates to a process for adjusting a high-precision sleeve, which comprises the following steps of: step one: determining the position of a workpiece to be processed, transmitting laser by the laser sensor, and transmitting light signals with different intensities reflected by different materials to a cutter control chip, wherein the cutter control chip confirms the processing position; and secondly, moving the wire stripping knife, wherein the knife control chip is electrified to the electromagnet through the control circuit, and the electromagnet attracts the sliding block to move so as to drive the wire stripping knife to move.

The technical scheme can be seen that the invention has the following beneficial effects:

1. According to the high-precision sleeve and the processing technology, the position of the wire body is automatically confirmed through the sensor, and the wire body is clamped and adjusted through the adjusting rod, so that the immobility of the central position of the wire body is ensured, and the processing position is easier to determine in the processing process; the wire stripping sword position is adjusted through electromagnetic effect, has guaranteed the accuracy of processing position to reduce the possibility of harming the line body, guaranteed the quality of processing.

2. The high-precision sleeve and the processing technology of the invention replace manpower by mechanical force, do not need manual operation, save labor, reduce cost, improve processing accuracy and improve production quality.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the peeling plate of the present invention;

FIG. 3 is a schematic view of the structure of the adjusting mechanism of the present invention;

FIG. 4 is a schematic view of the knife control mechanism of the present invention;

In the figure: the wire stripper comprises a barrel body-1, a wire stripper-2, a stripping plate-3, a fixing section-31, a stripping section-32, a skin pressing section-33, a bell mouth-4, a positioning ball-5, an adjusting mechanism-6, an adjusting rod-61, a friction ball-62, a beam-receiving coil-63, a winding roll-64, a return spring-65, a photoelectric sensor-66, an analog-to-digital converter-67, a control chip-68, a brush-69, a protective casing-60, a knife control mechanism-7, a fixing chute-71, a sliding block-72, a decelerating spring-73, an electromagnet-74, a control circuit-75, a knife control chip-76 and a laser sensor-77.

Detailed Description

The invention is further elucidated below in connection with the drawings and the specific embodiments.

Example 1

A high precision sleeve as shown in fig. 1, comprising: barrel 1, wire stripping sword 2, skinning board 3, horn mouth 4 and location ball 5, barrel 1 is the cylinder, barrel 1 one end is provided with wire stripping sword 2, barrel 1 inside is provided with skinning board 3, skinning board 3 one end sets up in barrel 1 inner surface, skinning board 3 other end sets up in barrel 1 inner space, skinning board 3 is the cylinder in the part of barrel 1 inner space, barrel 1 one end is provided with horn mouth 4, horn mouth 4 inner surface is provided with location ball 5.

The peeling plate 3 in this embodiment includes fixed section 31, branch skin section 32 and skin pressing section 33, fixed section 31 is fixed in barrel 1 internal surface, fixed section 31 sets up in wire stripping sword 2 one side, fixed section 31 one end is provided with branch skin section 32, branch skin section 32 is the cylinder, branch skin section 32 one end port has the gradient, branch skin section 32 one end is provided with skin pressing section 33, skin pressing section 33 transversal is the flight shape, skin pressing section 33 and branch skin section 32 contact surface boundary interconnect and smooth transition.

The horn mouth 4 on be provided with adjustment mechanism 6 in this embodiment, adjustment mechanism 6 includes regulation pole 61, friction ball 62, receipts beam coil 63, take-up reel 64 and reset spring 65, it sets up in horn mouth 4 one end to adjust the pole 61, it passes horn mouth 4 to adjust pole 61, it is provided with friction ball 62 to adjust pole 61 one end, it is provided with receipts beam coil 63 to adjust the pole 61 other end, it is connected with take-up reel 64 to receive beam coil 63, take-up reel 64 is fixed in horn mouth 4 surface, take-up reel 64 and receipts beam coil 63 fixed connection, be provided with the recess on adjusting pole 61, be provided with reset spring 65 in the recess, reset spring 65 one end is fixed in horn mouth 4 surface, the reset spring 65 other end is fixed in on adjusting pole 61.

The number of the adjusting rods 61 in the embodiment is not less than 3, and the adjusting rods 61 are annularly arranged on the inner surface of the bell mouth 4.

The adjustment mechanism 6 in this embodiment further includes a photoelectric sensor 66, an analog-to-digital converter 67, a control chip 68, an electric brush 69 and a protective housing 60, the photoelectric sensor 66 is disposed at one end of the bell mouth 4 far away from the barrel 1, the photoelectric sensor 66 is connected with the analog-to-digital converter 67, the analog-to-digital converter 67 is disposed at the outer surface of the bell mouth 4, the analog-to-digital converter 67 is connected with the control chip 68, the control chip 68 is disposed at the outer surface of the bell mouth 4, the control chip 68 is connected with the electric brush 69, the electric brush 69 is disposed in the winding roll 64, one end of the electric brush 69 is fixed on the winding roll 64, the protective housing 60 is disposed at the outer side of the bell mouth 4, and the protective housing 60 covers the outer surface of the bell mouth 4.

The peeling plate 3 in this embodiment is provided with a knife control mechanism 7, the knife control mechanism 7 includes a fixed chute 71, a slide block 72, a speed reducing spring 73, an electromagnet 74, a control circuit 75, a knife control chip 76 and a laser sensor 77, the fixed chute 71 is disposed at one end of the barrel 1, the fixed chute 71 is provided with the slide block 72, the slide block 72 is fixedly provided with the peeling knife 2, one end of the slide block 72 is provided with the speed reducing spring 73, one end of the speed reducing spring 73 is provided with the electromagnet 74, the electromagnet 74 is connected with the control circuit 75, the control circuit 75 is disposed at the inner surface of the barrel 1, the control circuit 75 is connected with the knife control chip 76, the knife control chip 76 is disposed at the inner surface of the barrel 1, the knife control chip 76 is connected with the laser sensor 77, and the laser sensor 77 is disposed at the inner surface of the barrel 1; the slider 72 is made of a metal material.

The control circuit 75 in this embodiment includes a spotlight and a photoresistor, where the spotlight is disposed on one side of the photoresistor, and the light of the spotlight is aimed at the photoresistor.

The process for machining the high-precision sleeve in the embodiment comprises the following steps of: step one: determining the size of a workpiece, wherein the light of the photoelectric sensor 66 is blocked, and the photoelectric sensor 66 sends a response signal to the analog-to-digital converter 67; step two: signal conversion, the analog-to-digital converter 67 converts the response signal into an electrical signal and transmits the electrical signal to the control chip 68; step three: the control chip 68 controls the electric brush 69 to rotate the winding drum 64 to shrink the beam-shrinking coil 63, so that the adjusting rod 61 moves inwards; step four: the control chip 68 controls the brush 69 to reversely rotate the winding drum 64 to pay out the take-up coil 63, so that the regulating lever 61 is moved outwards.

The process for the high-precision sleeve comprises the following steps of adjusting the position of the wire stripping knife 2: step one: determining the position of a workpiece to be processed, wherein the laser sensor 77 emits laser, and sends light signals with different intensities reflected by different materials to the knife control chip 76, and the knife control chip 76 confirms the processing position; and secondly, moving the wire stripping knife 2, wherein the knife control chip 76 is electrified to the electromagnet 74 through the control circuit 75, and the electromagnet 74 attracts the sliding block to move so as to drive the wire stripping knife 2 to move.

Example 2

A high precision sleeve as shown in fig. 2, comprising: barrel 1, wire stripping sword 2, skinning board 3, horn mouth 4 and location ball 5, barrel 1 is the cylinder, barrel 1 one end is provided with wire stripping sword 2, barrel 1 inside is provided with skinning board 3, skinning board 3 one end sets up in barrel 1 inner surface, skinning board 3 other end sets up in barrel 1 inner space, skinning board 3 is the cylinder in the part of barrel 1 inner space, barrel 1 one end is provided with horn mouth 4, horn mouth 4 inner surface is provided with location ball 5.

The peeling plate 3 in this embodiment includes fixed section 31, branch skin section 32 and skin pressing section 33, fixed section 31 is fixed in barrel 1 internal surface, fixed section 31 sets up in wire stripping sword 2 one side, fixed section 31 one end is provided with branch skin section 32, branch skin section 32 is the cylinder, branch skin section 32 one end port has the gradient, branch skin section 32 one end is provided with skin pressing section 33, skin pressing section 33 transversal is the flight shape, skin pressing section 33 and branch skin section 32 contact surface boundary interconnect and smooth transition.

Example 3

A high precision sleeve as shown in fig. 3, comprising: barrel 1, wire stripping sword 2, skinning board 3, horn mouth 4 and location ball 5, barrel 1 is the cylinder, barrel 1 one end is provided with wire stripping sword 2, barrel 1 inside is provided with skinning board 3, skinning board 3 one end sets up in barrel 1 inner surface, skinning board 3 other end sets up in barrel 1 inner space, skinning board 3 is the cylinder in the part of barrel 1 inner space, barrel 1 one end is provided with horn mouth 4, horn mouth 4 inner surface is provided with location ball 5.

The horn mouth 4 on be provided with adjustment mechanism 6 in this embodiment, adjustment mechanism 6 includes regulation pole 61, friction ball 62, receipts beam coil 63, take-up reel 64 and reset spring 65, it sets up in horn mouth 4 one end to adjust the pole 61, it passes horn mouth 4 to adjust pole 61, it is provided with friction ball 62 to adjust pole 61 one end, it is provided with receipts beam coil 63 to adjust the pole 61 other end, it is connected with take-up reel 64 to receive beam coil 63, take-up reel 64 is fixed in horn mouth 4 surface, take-up reel 64 and receipts beam coil 63 fixed connection, be provided with the recess on adjusting pole 61, be provided with reset spring 65 in the recess, reset spring 65 one end is fixed in horn mouth 4 surface, the reset spring 65 other end is fixed in on adjusting pole 61.

The number of the adjusting rods 61 in the embodiment is not less than 3, and the adjusting rods 61 are annularly arranged on the inner surface of the bell mouth 4.

The adjustment mechanism 6 in this embodiment further includes a photoelectric sensor 66, an analog-to-digital converter 67, a control chip 68, an electric brush 69 and a protective housing 60, the photoelectric sensor 66 is disposed at one end of the bell mouth 4 far away from the barrel 1, the photoelectric sensor 66 is connected with the analog-to-digital converter 67, the analog-to-digital converter 67 is disposed at the outer surface of the bell mouth 4, the analog-to-digital converter 67 is connected with the control chip 68, the control chip 68 is disposed at the outer surface of the bell mouth 4, the control chip 68 is connected with the electric brush 69, the electric brush 69 is disposed in the winding roll 64, one end of the electric brush 69 is fixed on the winding roll 64, the protective housing 60 is disposed at the outer side of the bell mouth 4, and the protective housing 60 covers the outer surface of the bell mouth 4.

Example 4

A high precision sleeve as shown in fig. 4, comprising: barrel 1, wire stripping sword 2, skinning board 3, horn mouth 4 and location ball 5, barrel 1 is the cylinder, barrel 1 one end is provided with wire stripping sword 2, barrel 1 inside is provided with skinning board 3, skinning board 3 one end sets up in barrel 1 inner surface, skinning board 3 other end sets up in barrel 1 inner space, skinning board 3 is the cylinder in the part of barrel 1 inner space, barrel 1 one end is provided with horn mouth 4, horn mouth 4 inner surface is provided with location ball 5.

The peeling plate 3 in this embodiment is provided with a knife control mechanism 7, the knife control mechanism 7 includes a fixed chute 71, a slide block 72, a speed reducing spring 73, an electromagnet 74, a control circuit 75, a knife control chip 76 and a laser sensor 77, the fixed chute 71 is disposed at one end of the barrel 1, the fixed chute 71 is provided with the slide block 72, the slide block 72 is fixedly provided with the peeling knife 2, one end of the slide block 72 is provided with the speed reducing spring 73, one end of the speed reducing spring 73 is provided with the electromagnet 74, the electromagnet 74 is connected with the control circuit 75, the control circuit 75 is disposed at the inner surface of the barrel 1, the control circuit 75 is connected with the knife control chip 76, the knife control chip 76 is disposed at the inner surface of the barrel 1, the knife control chip 76 is connected with the laser sensor 77, and the laser sensor 77 is disposed at the inner surface of the barrel 1; the slider 72 is made of a metal material.

The control circuit 75 in this embodiment includes a spotlight and a photoresistor, where the spotlight is disposed on one side of the photoresistor, and the light of the spotlight is aimed at the photoresistor.

The foregoing is merely a preferred embodiment of the invention, and it should be noted that modifications could be made by those skilled in the art without departing from the principles of the invention, which modifications would also be considered to be within the scope of the invention.

Claims (7)

1. A high-precision sleeve, characterized in that: comprising the following steps: the wire stripper comprises a barrel body (1), a wire stripper (2), a stripping plate (3), a horn mouth (4) and positioning balls (5), wherein the barrel body (1) is cylindrical, the wire stripper (2) is arranged at one end of the barrel body (1), the stripping plate (3) is arranged inside the barrel body (1), one end of the stripping plate (3) is arranged on the inner surface of the barrel body (1), the other end of the stripping plate (3) is arranged in the inner space of the barrel body (1), the part of the stripping plate (3) located in the inner space of the barrel body (1) is cylindrical, the horn mouth (4) is arranged at one end of the barrel body (1), and the positioning balls (5) are arranged on the inner surface of the horn mouth (4); the peeling plate (3) comprises a fixing section (31), a peeling section (32) and a peeling section (33), wherein the fixing section (31) is fixed on the inner surface of the barrel body (1), the fixing section (31) is arranged on one side of the peeling knife (2), the peeling section (32) is arranged at one end of the fixing section (31), the peeling section (32) is cylindrical, the port at one end of the peeling section (32) is provided with an inclination, the peeling section (33) is arranged at one end of the peeling section (32), the cross section of the peeling section (33) is in a flying wing shape, and the peeling section (33) and the peeling section (32) are connected with each other at the boundary of the contact surface and are in smooth transition; the utility model provides a horn mouth (4) on be provided with adjustment mechanism (6), adjustment mechanism (6) are including adjusting pole (61), friction ball (62), receipts coil (63), take-up reel (64) and reset spring (65), adjust pole (61) and set up in horn mouth (4) one end, adjust pole (61) pass horn mouth (4), adjust pole (61) one end and be provided with friction ball (62), adjust the pole (61) other end and be provided with receipts coil (63), receipts coil (63) are connected with take-up reel (64), take-up reel (64) are fixed in horn mouth (4) surface, take-up reel (64) and receipts coil (63) fixed connection, be provided with the recess on adjusting pole (61), be provided with reset spring (65) in the recess, reset spring (65) one end is fixed in horn mouth (4) surface, reset spring (65) other end are fixed in on adjusting pole (61).

2. A high precision bushing as claimed in claim 1, wherein: the number of the adjusting rods (61) is not less than 3, and the adjusting rods (61) are annularly arranged on the inner surface of the bell mouth (4).

3.A high precision bushing as claimed in claim 1, wherein: the utility model provides an adjusting mechanism (6) still include photoelectric sensor (66), analog-to-digital converter (67), control chip (68), brush (69) and shell (60), photoelectric sensor (66) set up in horn mouth (4) keep away from the one end of stack shell (1), analog-to-digital converter (67) are connected to photoelectric sensor (66), analog-to-digital converter (67) set up in horn mouth (4) surface, control chip (68) are connected to analog-to-digital converter (67), control chip (68) set up in horn mouth (4) surface, control chip (68) connect brush (69), brush (69) set up in reel (64), brush (69) one end is fixed in on reel (64), horn mouth (4) outside is provided with shell (60), shell (60) cover horn mouth (4) surface.

4. A high precision bushing according to claim 3, wherein: the peeling plate (3) in be provided with knife control mechanism (7), knife control mechanism (7) include fixed spout (71), slider (72), speed reducing spring (73), electro-magnet (74), control circuit (75), knife control chip (76) and laser sensor (77), fixed spout (71) set up in barrel (1) one end, be provided with slider (72) on fixed spout (71), be fixed with wire peeling knife (2) on slider (72), slider (72) one end is provided with speed reducing spring (73), speed reducing spring (73) one end is provided with electro-magnet (74), electro-magnet (74) are connected with control circuit (75), control circuit (75) are provided in barrel (1) internal surface, control circuit (75) are connected with knife control chip (76), knife control chip (76) are provided in barrel (1) internal surface, knife control chip (76) are connected with laser sensor (77), laser sensor (77) are provided in barrel (1) internal surface. The sliding block (72) is made of metal materials.

5. A high precision bushing as defined in claim 4, wherein: the control circuit (75) comprises a spotlight and a photoresistor, the spotlight is arranged on one side of the photoresistor, and the light of the spotlight is aimed at the photoresistor.

6. A process for machining a high-precision sleeve according to claim 5, comprising adjusting the position of a workpiece to be machined, characterized in that: the method specifically comprises the following steps:

step one: determining the size of a workpiece, wherein the light of the photoelectric sensor (66) is blocked, and the photoelectric sensor (66) sends a response signal to the analog-to-digital converter (67);

step two: the analog-to-digital converter (67) converts the response signal into an electric signal and transmits the electric signal to the control chip (68);

Step three: the control chip (68) controls the electric brush (69) to rotate the winding roll (64) to shrink the beam-shrinking coil (63) so that the adjusting rod (61) moves inwards;

Step four: and the control chip (68) controls the electric brush (69) to reversely rotate the winding drum (64) and release the beam-collecting coil (63) so that the adjusting rod (61) moves outwards.

7. The processing technology of the high-precision sleeve according to claim 6, comprising the step of adjusting the position of the wire stripping knife (2), and is characterized in that: the method specifically comprises the following steps:

Step one: determining the position of a workpiece to be processed, wherein the laser sensor (77) emits laser, and transmits light signals with different intensities reflected by different materials to the knife control chip (76), and the knife control chip (76) confirms the processing position;

And secondly, moving the wire stripping knife (2), wherein the knife control chip (76) is electrified to the electromagnet (74) through the control circuit (75), and the electromagnet (74) attracts the sliding block to move so as to drive the wire stripping knife (2) to move.