CN214589661U - Stripping equipment for cable aluminum foil - Google Patents

Abstract

The utility model provides a cable aluminium foil strip equipment, should strip equipment includes: the device comprises a laser, a rotating mechanism, a wire skin clamping mechanism and a cable locking mechanism, wherein the cable locking mechanism is used for locking a cable; the cable sheath clamping mechanism is used for clamping the outer insulating sheath at the front end of the cable; the rotating mechanism is connected with the thread sheath clamping mechanism and is used for driving the thread sheath clamping mechanism to rotate; the rotating mechanism is connected with the laser and used for driving the laser to rotate. Through the utility model discloses, alleviated the great technical problem of the degree of difficulty that strips the cable aluminium foil.

Description

Stripping equipment for cable aluminum foil

Technical Field

The utility model relates to a technical field that cable processing was equipped especially relates to a equipment strips of cable aluminium foil.

Background

In order to prevent the electromagnetic interference of the high-voltage cable to the outside and ensure the stability of high-speed data transmission, at present, the high-voltage electric energy transmission cable and the high-speed data transmission cable both adopt shielding nets to shield the electromagnetic interference. The structure of the cable 1 sequentially comprises a cable core 11, an inner insulating skin 12, a cable shielding net 13, an aluminum foil 14 and a cable outer insulating skin 15 from inside to outside, wherein the aluminum foil is usually wound outside the cable shielding net and used for preventing the cable shielding net and the cable outer insulating skin from being adhered during processing.

During the cable processing, sometimes the aluminum foil needs to be stripped, and the aluminum foil to be stripped is usually cut by a blade. The aluminum foil is thin, so that the situation that the aluminum foil cannot be stripped or the shielding net is damaged due to too deep cutting is easy to occur, and the difficulty in stripping the aluminum foil is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cable aluminium foil strip equipment to alleviate the great technical problem of the degree of difficulty that strips the cable aluminium foil.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a cable aluminium foil strip equipment, include:

a laser;

a rotation mechanism;

a cable locking mechanism for locking the cable;

the cable sheath clamping mechanism is used for clamping the outer insulating sheath at the front end of the cable;

the rotating mechanism is connected with the thread sheath clamping mechanism and is used for driving the thread sheath clamping mechanism to rotate; the rotating mechanism is connected with the laser and used for driving the laser to rotate.

In a preferred embodiment, the rotating mechanism comprises a rotating spindle, the thread skin clamping mechanism is arranged at the end part of the rotating spindle, and the laser is arranged at the outer side of the thread skin clamping mechanism.

In a preferred embodiment, the wire skin gripping mechanism rotates synchronously with the laser.

In a preferred embodiment, the stripping apparatus includes a first translation mechanism, and the first translation mechanism is connected to the laser and configured to drive the laser to translate along a radial direction of the rotation mechanism.

In a preferred embodiment, the first translation mechanism includes a translation seat and a translation guide rail arranged along a radial direction of the rotation mechanism, the translation seat is mounted on the rotation mechanism through the translation guide rail, and the laser is mounted on the translation seat.

In a preferred embodiment, the thread sheath clamping mechanism comprises a first driving mechanism and at least two first clamping jaws arranged oppositely, and the first driving mechanism is connected with the two first clamping jaws and is used for driving the opposite first clamping jaws to move close to or away from each other.

In a preferred embodiment, the first jaw is provided with a first clamping groove configured for accommodating a cable.

In a preferred embodiment, the first clamping groove has at least two first clamping slopes arranged oppositely, and the two first clamping slopes arranged oppositely extend obliquely to both sides along the direction from the groove bottom to the groove opening.

In a preferred embodiment, the first clamping jaw is provided with a plurality of first clamping teeth, and the first clamping teeth of two oppositely arranged first clamping jaws are staggered.

In a preferred embodiment, the cable locking mechanism comprises a second driving mechanism and at least two second clamping jaws arranged oppositely, and the second driving mechanism is connected with the two second clamping jaws and used for driving the opposite second clamping jaws to move close to or away from each other.

In a preferred embodiment, the second jaw is provided with a second clamping groove configured for accommodating a cable.

In a preferred embodiment, the second clamping groove has at least two oppositely disposed second clamping slopes, and the two oppositely disposed second clamping slopes extend obliquely to both sides along a direction from the groove bottom to the groove opening.

In a preferred embodiment, the second clamping jaw is provided with a plurality of second clamping teeth, and the second clamping teeth of two oppositely arranged second clamping jaws are arranged in a staggered manner.

In a preferred embodiment, the stripping apparatus comprises a second translation mechanism connected to the cable locking mechanism for driving the cable locking mechanism to move in an axial direction of the rotation mechanism.

The utility model discloses a characteristics and advantage are:

peeling off the outer insulating skin at the initial position of the part of the cable to be stripped of the aluminum foil to expose the aluminum foil; installing a cable into the stripping equipment, fixing the cable through a cable locking mechanism, then driving a laser to rotate around the cable through a rotating mechanism, starting the laser to work, and carrying out rotary cutting on the aluminum foil by using the laser; the cable skin clamping mechanism clamps the outer insulating skin at the front end of the cable, and the outer insulating skin is already stripped and the aluminum foil is already cut by laser, so that the cable skin clamping mechanism can drive the outer insulating skin and the aluminum foil to rotate together under the driving of the rotating mechanism, and the outer insulating skin and the aluminum foil are separated from the cable together to be stripped.

The laser instrument is cut the aluminium foil in rotatory limit of cable on the limit, and through the laser energy size of control laser instrument, can guarantee to open the aluminium foil and avoid haring the cable shielding net in the aluminium foil, can adapt to the circumstances of aluminium foil and cable center decentraction, guarantees the homogeneity of aluminium foil cutting, has increased the stability that the aluminium foil stripped treatment effect, has also improved degree of automation and production efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a cable aluminum foil stripping apparatus provided by the present invention;

fig. 2 and 3 are schematic views of a sheath clamping mechanism in the cable aluminum foil stripping apparatus shown in fig. 1 in a clamping state;

fig. 4 and 5 are schematic views of the sheath clamping mechanism in the cable aluminum foil stripping apparatus shown in fig. 1 in a released state;

fig. 6 and 7 are schematic views of a cable locking mechanism in a clamped state in the cable aluminum foil stripping apparatus shown in fig. 1;

fig. 8 and 9 are schematic views of the cable locking mechanism in the cable aluminum foil stripping apparatus shown in fig. 1 in a released state.

The reference numbers illustrate:

1. a cable; 11. a cable core; 12. an inner insulating skin; 13. a cable shielding mesh; 14. aluminum foil; 15. an outer insulating skin;

2. a laser;

3. a rotation mechanism; 31. rotating the main shaft; 32. rotating the base; 33. a balancing weight;

4. a first translation mechanism; 41. a translation seat; 42. a translation guide rail;

5. a bobbin clamping mechanism; 51. a first drive mechanism; 52. a first jaw; 53. a first clamping groove; 54. a first clamping ramp; 55. a first clamping tooth;

6. a cable locking mechanism;

61. a second drive mechanism; 611. a left translation mechanism; 612. a right translation mechanism;

62. a second jaw; 63. a second clamping groove; 64. a second clamping ramp; 65. a second clamping tooth;

7. a second translation mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a stripping equipment for cable aluminum foil, as shown in figure 1, include: the device comprises a laser 2, a rotating mechanism 3, a cable locking mechanism 6 and a cable sheath clamping mechanism 5, wherein the cable locking mechanism 6 is used for locking a cable 1; the cable sheath clamping mechanism 5 is used for clamping an outer insulating sheath 15 at the front end of the cable 1; the rotating mechanism 3 is connected with the bobbin clamping mechanism 5 and is used for driving the bobbin clamping mechanism 5 to rotate; the rotating mechanism 3 is connected with the laser 2 and used for driving the laser 2 to rotate.

Peeling off an outer insulating skin 15 of the cable 1 at the initial position of the front end part of the aluminum foil 14 to be peeled off to expose the aluminum foil 14; installing the cable 1 into the stripping equipment, fixing the cable 1 through a cable locking mechanism 6, then driving a laser 2 to rotate around the cable 1 by a rotating mechanism 3, starting the laser 2 to work, and carrying out rotary cutting on the aluminum foil 14 by laser; the cable sheath clamping mechanism 5 clamps the outer insulating sheath 15 at the front end of the cable 1, and as the outer insulating sheath 15 is already stripped and the aluminum foil 14 is already cut by laser, the cable sheath clamping mechanism 5 can drive the outer insulating sheath 15 and the aluminum foil 14 at the front end part to rotate together under the driving of the rotating mechanism 3, so that the outer insulating sheath 15 and the aluminum foil 14 at the front end part are separated from the cable 1 together for stripping.

2 cutting to aluminium foil 14 on the limit around 1 rotatory limits of cable of laser instrument, through the laser energy size of control laser instrument 2, can guarantee to cut aluminium foil 14 and avoid damaging the cable shielding net 13 in the aluminium foil 14, can adapt to the not concentric condition in center of aluminium foil 14 and cable 1, guarantee the homogeneity of aluminium foil 14 cutting, improved aluminium foil 14 and stripped the stability of treatment effect, also improved degree of automation and production efficiency.

As shown in fig. 1, the rotating mechanism 3 includes a rotating spindle 31, and the rotating spindle 31 is rotated by a power unit, which may be a servo motor. The tip of rotatory main shaft 31 is located to line skin fixture 5, and the outside of line skin fixture 5 is located to laser instrument 2, makes things convenient for like this that laser instrument 2 is rotatory in order to carry out rotary cutting to aluminium foil 14 around cable 1 and line skin fixture 5 carries out the centre gripping to the tip of cable 1, and the laser instrument 2 of being convenient for carries out overall arrangement and both cooperation actions with line skin fixture 5 on the space.

The thread-skin gripping mechanism 5 and the laser 2 may be rotated in synchronization with each other or independently. In the case where the thread skin gripping mechanism 5 and the laser 2 rotate synchronously, the thread skin gripping mechanism 5 and the laser 2 may be connected to the same rotating spindle 31 in the rotating mechanism 3.

Under the condition that the thread skin clamping mechanism 5 and the laser 2 rotate independently, the rotating mechanism 3 can comprise two rotating main shafts 31, the two rotating main shafts 31 are respectively connected with a servo motor, the thread skin clamping mechanism 5 and the laser 2 are respectively connected with the two rotating main shafts 31 in a one-to-one correspondence manner, and the two rotating main shafts 31 can rotate independently so as to drive the thread skin clamping mechanism 5 and the laser 2 to rotate independently; preferably, the axes of the two rotating spindles 31 are arranged concentrically. When the stripping equipment works, the cable locking mechanism 6 and the wire sheath clamping mechanism 5 can simultaneously lock the cable 1, and then the laser 2 performs rotary cutting on the aluminum foil 14 on the cable 1, so that the position of the cable 1 is kept stable when the cable 1 is cut.

Under the condition that line skin fixture 5 independently rotates with laser instrument 2, rotary mechanism 3 can include clutching mechanism, line skin fixture 5 is connected with rotary main shaft 31, laser instrument 2 passes through clutching mechanism and is connected with rotary main shaft 31, when needs line skin fixture 5 and laser instrument 2 synchro rotation, clutching mechanism starts, make rotary main shaft 31 can drive line skin fixture 5 and laser instrument 2 synchro rotation, when the aluminium foil cutting is accomplished, need make the outer insulation skin 15 of front end portion and aluminium foil 14 break away from with cable 1 together, clutching mechanism pine takes off, rotary main shaft 31 can only drive line skin fixture 5 and rotate.

Preferably, the thread sheath clamping mechanism 5 and the laser 2 rotate synchronously, which is beneficial to simplifying the structure of the rotating mechanism 3 and improving the working stability of the stripping device. As shown in fig. 1, the rotating mechanism 3 includes a rotating spindle 31 and a rotating base 32, and the rotating base 32 is sleeved on the periphery of the rotating spindle 31 and rotates together with the rotating spindle 31; the wire sheath clamping mechanism 5 is arranged on the end face of the rotating base 32 facing the cable 1, and the wire sheath clamping mechanism 5 is concentric with the rotating main shaft 31; the laser 2 is mounted on a rotating base 32. The cable 1 to be processed is installed in the stripping equipment, the cable 1 and the rotating mechanism 3 are concentric, and the laser 2 performs rotary cutting, so that the situation that the energy of the upper cutting point and the energy of the lower cutting point of the cable 1 are inconsistent is avoided.

In one embodiment, the stripping apparatus includes a first translation mechanism 4, and the first translation mechanism 4 is connected to the laser 2 and configured to drive the laser 2 to translate along a radial direction of the rotation mechanism 3. Through first translation mechanism 4, can finely tune the focus of laser instrument 2, adjust the focus and the energy of laser cutting aluminium foil 14, can save focus and energy of adjustment on laser instrument 2 like this for can adopt fixed focus laser instrument 2 to realize the cutting, be favorable to reducing equipment cost.

Further, the first translation mechanism 4 includes a translation seat 41 and a translation guide rail 42 arranged along the radial direction of the rotation mechanism 3, the translation seat 41 is installed on the rotation base 32 in the rotation mechanism 3 through the translation guide rail 42, the laser 2 is installed on the translation seat 41, the translation seat 41 drives the laser 2 to make translation movement on the rotation base 32, the translation guide rail 42 plays a guiding role in the movement of the translation seat 41, and the translation movement of the translation seat 41 can be powered by a servo motor. As shown in fig. 1, the translation guide 42 is mounted on the plane of the rotating base 32 facing the cable 1 with the laser emitting head of the laser 2 facing the central axis of the cable 1.

Furthermore, the stripping equipment comprises a balancing weight 33, wherein the balancing weight 33 is installed on the plane of the rotating base 32 facing the cable 1 and is symmetrically arranged with the translation base 41 and the laser 2, and the stability of the rotating base 32 and the first translation mechanism 4 during rotation is favorably guaranteed through the balancing weight 33.

In some embodiments, the wire clamping mechanism 5 comprises a first driving mechanism 51 and at least two first clamping jaws 52 arranged oppositely, and the first driving mechanism 51 is connected with the two first clamping jaws 52 and is used for driving the opposite first clamping jaws 52 to approach or move away. As shown in fig. 2 to 5, the first driving mechanism 51 drives the two first jaws 52 to reciprocate in the radial direction to open or close so as to clamp and release the outer insulating sheath 15 at the front end of the cable 1. The first driving mechanism 51 may be an air cylinder or an electric cylinder, and is capable of driving the two first clamping jaws 52 to extend or retract simultaneously. The first driving mechanism 51 can be fixed on the rotating base 32, the two first clamping jaws 52 clamp the front end of the cable 1 by the cut aluminum foil 14 and the outer insulating sheath 15, and the sheath clamping mechanism 5 rotates along with the rotating base 32, so that the aluminum foil 14 and the cable 1 rotate relatively and are separated.

As shown in fig. 2 and 4, the first clamping jaw 52 is provided with a first clamping groove 53, the first clamping groove 53 is configured to accommodate the cable 1, the openings of the first clamping grooves 53 of the two oppositely arranged first clamping jaws 52 are oppositely arranged, the cable 1 can extend between the two first clamping grooves 53, the inner wall of the first clamping groove 53 is in contact with the outer insulating skin 15 of the cable 1, the cable 1 can be surrounded, the outer insulating skin 15 can be clamped more firmly, the first clamping jaw 52 can drive the outer insulating skin 15 and the aluminum foil 14 to rotate together, and the reliability of the operation is improved.

Further, the first clamping groove 53 has at least two first clamping inclined planes 54 which are oppositely arranged, the two first clamping inclined planes 54 which are oppositely arranged extend obliquely towards two sides along the direction from the groove bottom to the groove opening respectively, as shown in fig. 4, one first clamping inclined plane 54 inclines obliquely downwards along the direction from the groove bottom to the groove opening, the other first clamping inclined plane 54 inclines obliquely upwards along the direction from the groove bottom to the groove opening, when the two first clamping inclined planes 54 are contacted with the outer insulating skin 15, an obliquely upwards acting force and an obliquely downwards acting force are respectively exerted on the outer insulating skin 15, as shown in fig. 2, the two first clamping claws are matched, the acting forces exerted on the outer insulating skin 15 by the 4 first clamping inclined planes 54 form a balance, and the clamping firmness of the outer insulating skin 15 is further improved. As shown in fig. 2 and 4, the 4 first clamping teeth 55 form a rhombus structure, and when the two first clamping jaws 52 are relatively close to each other, the rhombus structure is reduced, so that the wire sheath clamping mechanism 5 is favorably matched with the cables 1 with different wire diameters, the flexibility of the wire sheath clamping mechanism 5 is improved, and the operation of replacing the tool is favorably reduced.

As shown in fig. 3 and 5, the first clamping jaw 52 is provided with a plurality of first clamping teeth 55, the first clamping teeth 55 of two first clamping jaws 52 which are oppositely arranged are staggered, a clamping tooth slot is formed between two adjacent first clamping teeth 55, the first clamping teeth 55 can extend into the clamping tooth slot of the opposite first clamping jaw 52, and the two first clamping jaws 52 make opening and closing movement, which is beneficial to clamping the outer insulating skin 15 more firmly.

In some embodiments, the cable locking mechanism 6 includes a second driving mechanism 61 and at least two second jaws 62 disposed oppositely, the second driving mechanism 61 is connected to the two second jaws 62 for driving the opposite second jaws 62 to move closer to or away from each other, as shown in fig. 6-9, and the second driving mechanism 61 drives the two second jaws 62 to reciprocate in a radial direction to realize opening or closing so as to clamp and release the cable 1. Specifically, the second driving mechanism 61 includes a left-side translation mechanism 611 and a right-side translation mechanism 612, and the left-side translation mechanism 611 and the right-side translation mechanism 612 are respectively connected to one of the second clamping jaws 62 and respectively drive the one of the second clamping jaws 62 to reciprocate in the radial direction. The left translation mechanism 611 and the right translation mechanism 612 may employ an air cylinder or an electric cylinder.

As shown in fig. 6 and 8, the second clamping jaw 62 is provided with a second clamping groove 63, the second clamping groove 63 is configured to accommodate the cable 1, the openings of the second clamping grooves 63 of the two oppositely arranged second clamping jaws 62 are oppositely arranged, the cable 1 can extend through between the two second clamping grooves 63, the inner wall of the second clamping groove 63 is in contact with the cable 1, the cable 1 can be enclosed, the cable 1 can be clamped more firmly, the position of the cable 1 is kept stable, and the reliability of the work is improved.

Further, the second clamping groove 63 has at least two second clamping inclined surfaces 64 which are oppositely arranged, the two second clamping inclined surfaces 64 which are oppositely arranged extend obliquely towards two sides along the direction from the groove bottom to the groove opening respectively, as shown in fig. 8, one second clamping inclined surface 64 inclines upwards along the direction from the groove bottom to the groove opening, the other second clamping inclined surface 64 inclines downwards along the direction from the groove bottom to the groove opening, when the two second clamping inclined surfaces 64 are contacted with the cable 1, an upward oblique acting force and a downward oblique acting force are respectively exerted on the cable 1, as shown in fig. 6, the two second clamping claws are matched, and the acting forces exerted on the cable 1 by the 4 second clamping inclined surfaces 64 are balanced, so that the clamping firmness is further improved. As shown in fig. 6 and 8, the 4 second clamping teeth 65 form a rhombus structure, and when the two second clamping jaws 62 are relatively close to each other, the rhombus structure is reduced, so that the cable locking mechanism 6 is adapted to cables 1 with different wire diameters, the flexibility of the cable locking mechanism 6 is improved, and the operation of replacing the tool is reduced.

As shown in fig. 7 and 8, the second clamping jaw 62 is provided with a plurality of second clamping teeth 65, the second clamping teeth 65 of two oppositely arranged second clamping jaws 62 are arranged in a staggered manner, a clamping tooth slot is formed between two adjacent second clamping teeth 65, the second clamping teeth 65 can extend into the clamping tooth slot of the opposite second clamping jaw 62, and the two second clamping jaws 62 perform opening and closing movements, which is beneficial to clamping the outer insulating skin 15 more firmly.

After the outer insulating sheath 15 and the aluminum foil 14 are cut, the cable 1 is rotated to be separated from the cable 1. In some cases, after the outer insulation sheath 15 and the aluminum foil 14 are separated from the cable 1 together, the outer insulation sheath 15 and the aluminum foil 14 are moved longitudinally on the cable 1 by a manual operation, so that the outer insulation sheath 15 and the aluminum foil 14 are removed from the cable 1. In other cases, the stripping apparatus comprises a second translation mechanism 7, the second translation mechanism 7 can be connected with the cable locking mechanism 6 and also can be connected with the cable sheath clamping mechanism 5, and the second translation mechanism 7 drives the longitudinal relative movement between the outer insulating sheath 15 and the cable 1, so that the outer insulating sheath 15 and the aluminum foil 14 are removed from the cable 1 together.

Preferably, the second translation mechanism 7 is connected to the cable lock mechanism 6 to drive the cable lock mechanism 6 to move in the axial direction of the rotation mechanism 3. As shown in fig. 1, 6 and 8, the second driving mechanism 61 is installed on the second translation mechanism 7, the wire sheath clamping mechanism 5 clamps the outer insulating sheath 15 at the end part, and the cut outer insulating sheath 15 and the aluminum foil 14 are rotated by the driving of the rotation mechanism 3; the cable locking mechanism 6 clamps the cable 1 to prevent the cable 1 from rotating, and the cable 1 is driven by the second translation mechanism 7 to move longitudinally, so that the cut outer insulating layer 15 and the aluminum foil 14 translate relative to the cable 1 while rotating, the cut outer insulating layer 15 and the cut aluminum foil 14 can be removed from the cable 1 more smoothly, and reliability and working efficiency are improved. On the other hand, the second translation mechanism 7 drives the cable locking mechanism 6 to reciprocate, and the position of the cable locking mechanism 6 can be adjusted, so that the cable 1 can be conveniently installed on the cable locking mechanism 6, and the loading is convenient. Specifically, the second translation mechanism 7 may be a cylinder or an electric cylinder.

Further, this equipment of peeling off includes the waste material groove, and the waste material groove sets up in the below of line skin fixture 5, and the back is peeled off from cable 1 to outer insulating skin 15 and aluminium foil 14, can fall into the waste material groove, conveniently collects the outer insulating skin 15 and the aluminium foil 14 of peeling off, avoids peeling off outer insulating skin 15 and the aluminium foil 14 that drops and gets into mechanical mechanism in, influences the normal operating of mechanism.

The laser 2 can adopt a fiber laser, a ruby laser or a blue-violet laser, and the working mode is preferably a continuous laser, the power is 30W-300W, and the wavelength is 100 nm-1300 nm. The stripping equipment comprises a controller, wherein the controller can receive sensor signals of the laser 2, the rotating mechanism 3, the wire sheath clamping mechanism 5 and the cable locking mechanism 6, monitor the running of a program and control the action of each driving unit.

The working steps of using the stripping device to strip the cable aluminum foil comprise:

step S10, the cable 1 with the outer insulating skin 15 stripped is put into the stripping equipment, after the equipment detects that the cable 1 is in place, the cable 1 is clamped at the center of the equipment by the cable locking mechanism 6, and then the cable 1 is moved to a processing position by the second translation mechanism 7;

step S20, the first translation mechanism 4 moves the laser 2 to a set position, so that the laser beam can cut the aluminum foil 14 with enough energy to avoid damaging the cable shielding net 13 in the aluminum foil 14;

step S30, the rotating mechanism 3 drives the laser 2 to rotate around the cable 1, meanwhile, the laser 2 is opened, the laser cuts the aluminum foil 14, and after the cutting is finished, the laser 2 is closed;

step S40, the cable sheath clamping mechanism 5 clamps the outer insulating sheath 15 at the front end of the cable 1 and rotates under the drive of the rotating mechanism 3, so that the outer insulating sheath 15 drives the aluminum foil 14 to rotate together, and meanwhile, under the drive of the second translation mechanism 7, the cable locking mechanism 6 drives the cable 1 to move backwards, so that the outer insulating sheath 15 and the aluminum foil 14 are stripped from the cable 1;

step S50, the rotation mechanism 3 stops rotating, the wire skin clamping mechanism 5 loosens the clamping jaw, and the outer insulating skin 15 and the aluminum foil 14 fall into a waste material groove together;

in step S60, the cable lock mechanism 6 is released, and the cable 1 is taken out from the stripping apparatus.

The above description is only for the embodiments of the present invention, and those skilled in the art can make various changes or modifications to the embodiments of the present invention according to the disclosure of the application document without departing from the spirit and scope of the present invention.

Claims (14)

1. A stripping device for a cable aluminum foil is characterized by comprising:

a laser;

a rotation mechanism;

a cable locking mechanism for locking the cable;

the cable sheath clamping mechanism is used for clamping the outer insulating sheath at the front end of the cable;

the rotating mechanism is connected with the thread sheath clamping mechanism and is used for driving the thread sheath clamping mechanism to rotate; the rotating mechanism is connected with the laser and used for driving the laser to rotate.

2. The apparatus for stripping cable aluminum foil according to claim 1, wherein the rotating mechanism comprises a rotating spindle, the sheath holding mechanism is disposed at an end of the rotating spindle, and the laser is disposed outside the sheath holding mechanism.

3. The cable aluminum foil stripping apparatus of claim 1, wherein the sheath gripping mechanism rotates synchronously with the laser.

4. The apparatus for stripping cable aluminum foil according to claim 1, wherein the stripping apparatus comprises a first translation mechanism, and the first translation mechanism is connected with the laser and is used for driving the laser to translate along the radial direction of the rotation mechanism.

5. The apparatus for stripping cable aluminum foil according to claim 4, wherein the first translation mechanism comprises a translation seat and a translation guide rail arranged along a radial direction of the rotation mechanism, the translation seat is mounted on the rotation mechanism through the translation guide rail, and the laser is mounted on the translation seat.

6. The cable aluminum foil stripping apparatus according to claim 1, wherein the sheath clamping mechanism comprises a first driving mechanism and at least two first clamping jaws arranged oppositely, the first driving mechanism is connected with the two first clamping jaws and is used for driving the opposite first clamping jaws to approach or move away.

7. The apparatus for stripping cable aluminum foil according to claim 6, wherein the first clamping jaw is provided with a first clamping groove configured for receiving a cable.

8. The cable aluminum foil stripping apparatus of claim 7, wherein the first clamping groove has at least two oppositely disposed first clamping slopes, and the two oppositely disposed first clamping slopes extend obliquely to both sides along the groove bottom toward the groove opening.

9. The cable aluminum foil stripping apparatus as claimed in claim 6, wherein said first jaws are provided with a plurality of first clamping teeth, and said first clamping teeth of two oppositely disposed first jaws are staggered.

10. The apparatus for stripping cable aluminum foil according to claim 1, wherein the cable locking mechanism comprises a second driving mechanism and at least two second jaws disposed oppositely, the second driving mechanism is connected with the two second jaws for driving the opposite second jaws to approach or move away.

11. The apparatus for stripping cable aluminum foil of claim 10, wherein the second jaw is provided with a second clamping groove configured to receive a cable.

12. The cable aluminum foil stripping apparatus of claim 11, wherein the second clamping groove has at least two oppositely disposed second clamping slopes, and the two oppositely disposed second clamping slopes extend obliquely to both sides along the groove bottom toward the groove opening.

13. The cable aluminum foil stripping apparatus as claimed in claim 10, wherein said second jaw is provided with a plurality of second gripping teeth, and said second gripping teeth of two of said second jaws disposed oppositely are disposed in a staggered manner.

14. The apparatus for stripping cable aluminum foil according to claim 1, wherein the stripping apparatus comprises a second translation mechanism connected with the cable locking mechanism for driving the cable locking mechanism to move along the axial direction of the rotation mechanism.

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