CN110265934B

CN110265934B - Coaxial cable peeling all-in-one machine and peeling method thereof

Info

Publication number: CN110265934B
Application number: CN201910744519.3A
Authority: CN
Inventors: 钱亮; 张同井; 王廷华; 徐雪峰; 吴涛; 张敏; 许洪进; 张晓龙; 盛来娣
Original assignee: Changzhou Suxun Electronics Co Ltd
Current assignee: Changzhou Suxun Electronics Co Ltd
Priority date: 2019-08-13
Filing date: 2019-08-13
Publication date: 2019-12-24
Anticipated expiration: 2039-08-13
Also published as: CN110265934A

Abstract

The invention relates to a coaxial cable peeling all-in-one machine and a peeling method thereof, and the coaxial cable peeling all-in-one machine comprises a main machine body, a feeding assembly, a peeling assembly, a linkage assembly and a discharging hopper, wherein the feeding assembly, the peeling assembly, the linkage assembly and the discharging hopper are arranged on the main machine body, the feeding assembly comprises a placing table, a pressing block and a downward pressing cylinder, the pressing block and the downward pressing cylinder are arranged above the placing table, the peeling assembly comprises two clamping jaws, a finger cylinder, a sliding block and a second driving cylinder, the linkage assembly comprises a supporting plate, a sliding rod and a third driving cylinder, the second driving block is fixedly connected with the first driving cylinder, the first coupler, the second coupler, a sliding chute and a sliding sleeve through a connecting plate, and the third driving cylinder is used for driving the second driving block to slide along the sliding rod. The coaxial cable peeling all-in-one machine is high in coaxiality, good in peeling effect, simple in structure and low in manufacturing cost.

Description

Coaxial cable peeling all-in-one machine and peeling method thereof

Technical Field

The invention relates to the field of peeling of cables, in particular to a coaxial cable peeling all-in-one machine and a peeling method thereof.

Background

In the electric power engineering, need lay the cable regularly, handle the lead wire end of cable, current cable treatment work generally uses the wall paper sword, handles very inconveniently, and the staff is the fish tail easily in the work moreover, and work load is big, inefficiency.

To solve this problem, there are several cable stripping devices on the market that can meet partial work in terms of function, but the problem that exists is: the cable has the advantages of complex structure, high manufacturing cost, low coaxiality and easy scratch of the inner core of the cable.

Application number is CN 201711463939.1's a novel automatic crimping machine of shelling of high accuracy cable, when this product utilized drive slider upward movement, the wire passed through wire conveyer and at first sent into the workspace (on the quiet module), when drive slider from top to bottom movement, drive the pay-off finger by the rocking arm and send the connector into behind the workspace, the movable module compresses tightly with quiet module, accomplish the processing of product, because its movable module and quiet module group combination are unstable, lead to extremely easily hindering the cable inner core when skinning, the device structure is complicated in addition, high in manufacturing cost, be not convenient for promote.

The application number is CN201811115098.X a high-efficient peeler for cable, this product utilizes the pneumatic cylinder to promote the fixing base downstream, it contradicts fixing base down to go up the fixing base, it cuts into in the cable insulation layer to go up the cutting knife, two push rods insert respectively in the L shape through-hole down, press the slide downstream, drive first piston downstream, promote two second pistons and be close to each other, it is close to drive two trapezoidal sliders, it cuts in the cable insulation layer to promote cutting knife upward movement down, it combines together with cutting knife down to go up the cutting knife, break cable insulation layer, but go up the axiality when can't guarantee to skin after cutting knife and the cutting knife down, thereby lead to incising the cable inner core easily.

The utility model provides a control cable device of skinning of CN201710325069.5 rotates the gyro wheel that two press from both sides tight cable through step motor, drives the cable and removes from a back support frame side direction pulling subassembly direction, also is difficult to guarantee to cut the axiality of back pulling process, injures the cable inner core easily.

Therefore, the invention is urgently needed to provide a cable stripping device with simple structure, low manufacturing cost, high coaxiality and good stripping effect.

Disclosure of Invention

The invention aims to provide a coaxial cable peeling all-in-one machine and a peeling method thereof, aiming at the defects of the prior art, and the coaxial cable peeling all-in-one machine is simple in structure, low in manufacturing cost, high in coaxiality and good in peeling effect.

The invention is realized by the following technical scheme: the coaxial cable peeling all-in-one machine comprises a main machine body, a feeding assembly, a peeling assembly, a linkage assembly and a discharging hopper, wherein the feeding assembly, the peeling assembly, the linkage assembly and the discharging hopper are arranged on the main machine body.

The most necessary to solve is the coaxiality problem of the cable sheath in the drawing process after the cable sheath is cut open, and the cutting tool and the drawing device are ensured to be on the same axis. In the prior art, according to the thickness of a cable, the cable is directly scratched or cut by using an upper cutter and a lower cutter, but the drawing coaxiality and linkage of the cable after the upper cutter and the lower cutter are cut are not considered, and practical experience shows that the inner core of the cable is easy to scratch due to the low cutting and drawing and peeling coaxiality, so that the quality of the inner core of the cable is influenced.

Therefore, how to make the cable have high coaxiality of skin cutting and skin peeling, good linkage, simple structure and low manufacturing cost is the technical problem to be solved by the invention.

The feeding assembly comprises a placing table, a pressing block and a pressing cylinder, wherein the pressing block and the pressing cylinder are arranged above the placing table, the placing table is fixed on the main machine body, the pressing block is arranged above the placing table and connected with the pressing cylinder, and the pressing cylinder is used for driving the pressing block to press a cable on the placing table.

The invention designs a special linkage combination device of the skin cutting component, the skin peeling component and the linkage component, the skin cutting assembly comprises a first movable arm, a second movable arm, a first driving block and a first driving cylinder, the front end of the first movable arm is provided with an upper cutter, the front end of the second movable arm is provided with a lower cutter, the upper cutter and the lower cutter cover are combined to form a leather cutting hole, the bark cutting hole is arranged on one side of the discharge hole of the placing table, the middle part of the first movable arm and the middle part of the second movable arm are respectively provided with a first coupler and a second coupler, the rear ends of the first movable arm and the second movable arm are respectively hinged on the first driving block through a connecting rod, the first driving block is provided with a sliding chute and slides along the sliding chute through the sliding chute, the first driving cylinder is connected with the first driving block and can drive the first movable arm and the second movable arm to rotate, so that the upper cutter and the lower cutter can cut the cable sheath.

The subassembly of skinning includes that two clamping jaws, finger cylinder, slider and second drive actuating cylinder, two clamping jaws respectively with the finger cylinder is connected and through the tight cable of finger cylinder clamp, the slider is fixed at finger cylinder rear end, has cup jointed the sliding sleeve on the slider, and the slider both ends are equipped with third stopper and fourth stopper respectively, thereby the second drives actuating cylinder bridging in the sliding sleeve below and with be connected the drive finger cylinder through fourth stopper and finger cylinder and slide along the sliding sleeve, the second drives actuating cylinder and is connected and accessible slider drive finger cylinder and slide along the sliding sleeve, and the second drives and is equipped with the first photoelectric switch that is used for detecting the slider position on the actuating cylinder, first photoelectric switch is equipped with a plurality of, the second photoelectric switch is equipped with a plurality of.

The linkage subassembly includes that backup pad, slide bar and third drive actuating cylinder, the backup pad sets up in first swing arm top, the slide bar is fixed in the backup pad, but sliding connection has the second to drive the piece on the slide bar, the second drive piece pass through the connecting plate respectively with first drive actuating cylinder, first shaft coupling, second shaft coupling, spout and sliding sleeve fixed connection, the third drives actuating cylinder and is used for driving the second and drives the piece and slide along the slide bar, and the slide bar both ends are equipped with fifth stopper and sixth stopper respectively, the third drives actuating cylinder bridging on the fifth stopper, the third is driven and is equipped with the second photoelectric switch that is used for detecting the second and drives actuating block position on actuating cylinder.

The discharge hopper is arranged on the main machine body and used for receiving the peeled cable.

In order to facilitate cutting of cables with different diameters, the first movable arm and the second movable arm are detachably connected with an upper module and a lower module respectively, the upper module is used for fixing an upper cutter, the lower module is used for fixing a lower cutter, and cable sheaths with different diameters can be cut by replacing the upper cutter and the lower cutter which are different.

In order to improve the coaxiality of the cable during cutting, an upper guide sheet and a lower guide sheet are respectively arranged on one sides, close to the placing table, of the upper cutter and one side, close to the placing table, of the lower cutter, the upper guide sheet and the lower guide sheet are respectively fixed on the upper module and the lower module and cover the upper module and the lower module to form guide holes, and the guide holes and the skin cutting holes are coaxially arranged.

In order to enhance the friction force and facilitate peeling, insections are arranged on the opposite surfaces of the two clamping jaws.

The coaxiality of cable peeling is further improved, a placing groove is arranged on the placing table and used for placing cables.

The cable peeling device further improves the cable peeling accuracy, a first limiting block and a second limiting block are arranged at the two ends of the slide respectively, the first limiting block is fixed on the first driving cylinder, and the second limiting block and the slide are integrally formed.

In order to conveniently and efficiently strip the sheath of the cable, the invention provides a method for stripping the cable by a coaxial cable stripping all-in-one machine, which comprises the following steps: the cable is placed on the placing table, the third driving cylinder drives the first movable arm and the second movable arm to move forwards close to the placing table through the second driving block and the connecting plate, the first driving cylinder drives the first driving block to enable the first movable arm and the second movable arm to rotate, so that the upper cutter and the lower cutter cut the cable sheath, the finger cylinder drives the two clamping jaws to clamp the cable sheath tightly, the second driving cylinder drives the clamping jaws to move backwards along the sliding sleeve, and meanwhile, the third driving cylinder drives the upper cutter, the lower cutter and the clamping jaws to simultaneously move backwards in a linkage mode to skin the cable sheath.

The invention has the beneficial effects that: the coaxial cable peeling all-in-one machine and the peeling method thereof have the advantages that the coaxiality is high, the peeling effect is good, the structure is simple, and the manufacturing cost is low.

Drawings

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

FIG. 2 is a schematic structural view of a feed assembly of the present invention;

FIG. 3 is a schematic view of an assembly structure of the skin cutting assembly, the skin peeling assembly and the linkage assembly of the present invention;

FIG. 4 is a schematic view of the skin cutting assembly of the present invention;

FIG. 5 is a schematic view of an assembly structure of an upper module, a lower module, an upper cutter, a lower cutter, an upper guide sheet and a lower guide sheet according to the present invention;

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

FIG. 7 is a schematic structural view of a linkage assembly of the present invention;

in the figure: 1. a main body; 2. a feed assembly; 21. a placing table; 211. a placement groove; 22. a compression block; 23. pressing down the air cylinder; 3. a skin cutting assembly; 31. a first movable arm; 32. a second movable arm; 33. a first driving block; 331. a chute; 332. a slideway; 333. a first stopper; 334. a second limiting block; 335. a connecting rod; 34. a first driving cylinder; 35. an upper cutter; 351. an upper module; 352. an upper guide plate; 353. cutting a skin hole; 36. a lower cutter; 361. a lower module; 362. a lower guide plate; 37. a first coupling; 38. a second coupling; 4. a peeling assembly; 41. a clamping jaw; 411. insection; 42. a finger cylinder; 43. a slider; 431. a third limiting block; 432. a fourth limiting block; 44. a second driving cylinder; 45. a first photoelectric switch; 46. a sliding sleeve; 5. a linkage assembly; 51. a support plate; 52. a slide bar; 521. a fifth limiting block; 522. a sixth limiting block; 53. a third driving cylinder; 54. a second driving block; 55. a second photoelectric switch; 56. a connecting plate; 6. a discharge hopper.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention more readily understood by those skilled in the art, and thus will more clearly and distinctly define the scope of the invention. The directional terms used in the present invention, such as "up", "down", "front", "back", "left", "right", "top", "bottom", etc., refer to the directions of the attached drawings. Accordingly, the directional terms used are used for explanation and understanding of the present invention, and are not used for limiting the present invention.

As shown in fig. 1, the coaxial cable peeling all-in-one machine comprises a main machine body 1, and a feeding assembly 2, a peeling assembly 3, a peeling assembly 4, a linkage assembly 5 and a discharging hopper 6 which are arranged on the main machine body 1.

As shown in fig. 1 and 2, the feeding assembly 2 includes a placing table 21, and a pressing block 22 and a pressing cylinder 23 disposed above the placing table 21, the placing table 21 is fixed on the main body 1, in order to improve the coaxiality of cable peeling, a placing groove 211 is disposed on the placing table 21, the placing groove 211 is used for placing a cable, the cable enters the peeling assembly 3 from the placing groove 211, the pressing block 22 is disposed above the placing table 21 and connected with the pressing cylinder 23, and the pressing cylinder 23 is used for driving the pressing block 22 to press the cable on the placing table 21.

As shown in fig. 1 to 5, the peeling assembly 3 includes a first movable arm 31, a second movable arm 32, a first driving block 33 and a first driving cylinder 34, the first movable arm 31 is provided at a front end thereof with an upper cutter 35, the second movable arm 32 is provided at a front end thereof with a lower cutter 36, the upper cutter 35 and the lower cutter 36 are covered and combined to form a peeling hole 353, the peeling hole 353 is provided at a discharge port side of the placing table 21, in order to facilitate cutting of cables having different diameters, the first movable arm 31 and the second movable arm 32 are respectively detachably connected with an upper module 351 and a lower module 361, the upper module 351 is used for fixing the upper cutter 35, the lower module 361 is used for fixing the lower cutter 36, in order to facilitate cutting of cables having different diameters, the upper cutter 35 and the lower cutter 36 are replaced with different upper cutters 35 and lower cutters 36, in order to improve coaxiality of the cables when cutting, the upper cutter 35 and the lower cutter 36 are respectively provided with an upper guide 352 and a lower guide 362, the upper and lower guide plates 352 and 362 are fixed to the upper and lower modules 351 and 361 respectively and cover to form guide holes, the guide hole and the skin cutting hole 353 are coaxially arranged, the middle part of the first movable arm 31 and the middle part of the second movable arm 32 are respectively provided with a first coupler 37 and a second coupler 38, the rear end of the first movable arm 31 and the rear end of the second movable arm 32 are respectively hinged on the first driving block 33 through a connecting rod 335, the first driving block 33 is provided with a sliding chute 331 and slides along a sliding rail 332 through the sliding chute 331, the first driving cylinder 34 is connected to the first driving block 33 and drives the first movable arm 31 and the second movable arm 32 to rotate so that the upper cutter 35 and the lower cutter 36 cut the cable sheath, further improving the cable stripping accuracy, a first limiting block 333 and a second limiting block 334 are respectively arranged at two ends of the slideway 332, the first limit block 333 is fixed on the first driving cylinder 34, and the second limit block 334 and the slideway 332 are integrally formed.

As shown in fig. 3 and 6, the peeling assembly 4 includes two clamping jaws 41, a finger cylinder 42, a sliding block 43 and a second driving cylinder 44, the two clamping jaws 41 are respectively connected with the finger cylinder 42 and clamp the cable through the finger cylinder 42, in order to enhance the friction force and facilitate peeling, the opposite surfaces of the two clamping jaws 41 are provided with insections 411, the sliding block 43 is fixed at the rear end of the finger cylinder 42, the sliding block 43 is sleeved with a sliding sleeve 46, the second driving cylinder 44 is connected with the sliding block 43 and can drive the finger cylinder 42 to slide along the sliding sleeve 46 through the sliding block 43, in order to improve the accuracy of peeling the cable, the two ends of the sliding block 43 are respectively provided with a third stopper 431 and a fourth stopper 432, the second driving cylinder 44 is bridged below the sliding sleeve 46 and connected with the finger cylinder 42 through the fourth stopper 432 so as to drive the finger cylinder 42 to slide along the sliding sleeve 46, in order to accurately control peeling of the cable, the second driving cylinder 44 is provided with a first photoelectric switch 45 for detecting the position of the sliding block 43, and the first photoelectric switch 45 is provided with a plurality of switches.

As shown in fig. 3 and 7, the linkage assembly 5 includes a support plate 51, a slide rod 52 and a third driving cylinder 53, the supporting plate 51 is arranged above the first movable arm 31, the sliding rod 52 is fixed on the supporting plate 51, the sliding rod 52 is slidably connected with a second driving block 54, the cable stripping accuracy is further improved, a fifth limiting block 521 and a sixth limiting block 522 are respectively arranged at two ends of the sliding rod 52, the third driving cylinder 53 is connected to the fifth limiting block 521 in a bridging manner, the second driving block 54 is fixedly connected with the first driving cylinder 34, the first coupling 37, the second coupling 38, the chute 331 and the sliding sleeve 46 through a connecting plate 56, the third driving cylinder 53 is used for driving the second driving block 54 to slide along the slide rod 52, a plurality of second photoelectric switches 55 are arranged on the third driving cylinder 53 and used for detecting the position of the second driving block 54, and the number of the second photoelectric switches 55 is several.

As shown in fig. 1, the discharge hopper 6 is provided on the main body 1 and receives a stripped cable, which drops on the discharge hopper 6.

As shown in fig. 1 to 7, in order to strip the cable sheath efficiently, the invention provides a method for stripping the cable by a coaxial cable stripping all-in-one machine, which has the working principle that: the cable is placed on the placing table 21 and extends to the sheath cutting hole 353, the lower pressing cylinder 23 drives the lower pressing block to press the cable, the third driving cylinder 53 drives the second driving block 54 to slide along the sliding rod 52, at the same time, the second photoelectric switch 55 detects that the second driving block 54 slides to the sixth limiting block 522, the telescopic rod on the first driving cylinder 34 drives the first driving block 33 to approach the first coupler 37 and the second coupler 38 along the sliding chute 331, at the same time, the first movable arm 31 and the second movable arm 32 rotate along the first coupler 37 and the second coupler 38 respectively, so that the upper cutter 35 and the lower cutter 36 cut the sheath, at the same time, the PLC controls the second driving cylinder 44 to drive the sliding block 43 to drive the finger cylinder 42 to slide forwards along the sliding sleeve 46, the finger cylinder 42 drives the clamping jaw 41 to clamp the cable, after the first photoelectric switch 45 detects that the sliding sleeve 46 abuts against the third limiting block 431, the second driving cylinder 44 drives the sliding block 43 to slide backwards along the sliding sleeve 46, meanwhile, as the second driving block 54 is fixedly connected with the first driving cylinder 34, the first coupler 37, the second coupler 38, the sliding chute 331 and the sliding sleeve 46 through the connecting plate 56, when the third driving cylinder 53 drives the second driving block 54 to move close to the fifth limiting block 521, the first driving cylinder 34 drives the first movable arm 31 and the second movable arm 32 to rotate reversely around the first coupler 37 and the second coupler 38, respectively, so as to drive the upper cutter 35 and the lower cutter 36 to release the cable sheath, and meanwhile, the clamping jaw 41 clamps the cable sheath to slide backwards along the sliding chute 331, so as to pull and strip the sheath.

The invention is characterized in that a photoelectric switch is used in multiple places, and the peeling of the cable is controlled simultaneously through a PLC and the photoelectric switch.

Compared with the prior art, the coaxial cable peeling all-in-one machine is high in coaxiality, good in peeling effect, simple in structure, low in manufacturing cost, good in peeling effect and simple to operate.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims

1. The utility model provides a coaxial cable all-in-one of skinning which characterized in that: comprises a main machine body (1), and a feeding assembly (2), a skin cutting assembly (3), a skin peeling assembly (4), a linkage assembly (5) and a discharge hopper (6) which are arranged on the main machine body (1);

the feeding assembly (2) comprises a placing table (21), and a pressing block (22) and a pressing cylinder (23) which are arranged above the placing table (21), wherein the placing table (21) is fixed on the main machine body (1), the pressing block (22) is arranged above the placing table (21) and is connected with the pressing cylinder (23), and the pressing cylinder (23) is used for driving the pressing block (22) to press a cable on the placing table (21);

the skin cutting assembly (3) comprises a first movable arm (31), a second movable arm (32), a first driving block (33) and a first driving cylinder (34), an upper cutter (35) is arranged at the front end of the first movable arm (31), a lower cutter (36) is arranged at the front end of the second movable arm (32), the upper cutter (35) and the lower cutter (36) are covered to form a skin cutting hole (353), the skin cutting hole (353) is formed in one side of a discharge hole of the placing table (21), a first coupler (37) and a second coupler (38) are respectively arranged in the middle of the first movable arm (31) and the middle of the second movable arm (32), the rear end of the first movable arm (31) and the rear end of the second movable arm (32) are respectively hinged to the first driving block (33) through connecting rods (335), a sliding groove (331) is formed in the first driving block (33) and slides along a sliding way (332) through the sliding groove (331), the first driving air cylinder (34) is connected with the first driving block (33) and can drive the first movable arm (31) and the second movable arm (32) to rotate so as to enable the upper cutter (35) and the lower cutter (36) to cut the cable sheath;

the peeling assembly (4) comprises two clamping jaws (41), a finger air cylinder (42), a sliding block (43) and a second driving air cylinder (44), the two clamping jaws (41) are respectively connected with the finger air cylinder (42) and clamp the cable through the finger air cylinder (42), the sliding block (43) is fixed at the rear end of the finger cylinder (42), the sliding sleeve (46) is sleeved on the sliding block (43), a third limiting block (431) and a fourth limiting block (432) are respectively arranged at the two ends of the sliding block (43), the second driving air cylinder (44) is erected below the sliding sleeve (46) and is connected with the finger air cylinder (42) through a fourth limiting block (432) so as to drive the finger air cylinder (42) to slide along the sliding sleeve (46), the second driving air cylinder (44) is connected with the sliding block (43) and can drive the finger air cylinder (42) to slide along the sliding sleeve (46) through the sliding block (43), and a first photoelectric switch (45) for detecting the position of the sliding block (43) is arranged on the second driving air cylinder (44);

the linkage component (5) comprises a supporting plate (51), a sliding rod (52) and a third driving cylinder (53), the support plate (51) is arranged above the first movable arm (31), the slide rod (52) is fixed on the support plate (51), the slide rod (52) is connected with a second driving block (54) in a sliding way, the second driving block (54) is respectively and fixedly connected with the first driving cylinder (34), the first coupling (37), the second coupling (38), the chute (331) and the sliding sleeve (46) through a connecting plate (56), the third driving cylinder (53) is used for driving the second driving block (54) to slide along the slide rod (52), a fifth limiting block (521) and a sixth limiting block (522) are respectively arranged at two ends of the slide rod (52), the third driving air cylinder (53) is erected on a fifth limiting block (521), and a second photoelectric switch (55) for detecting the position of the second driving block (54) is arranged on the third driving air cylinder (53);

the discharging hopper (6) is arranged on the main machine body (1) and used for receiving the peeled cable.

2. The coaxial cable stripping all-in-one machine of claim 1, wherein: the first movable arm (31) and the second movable arm (32) are detachably connected with an upper module (351) and a lower module (361) respectively, the upper module (351) is used for fixing an upper cutter (35), and the lower module (361) is used for fixing a lower cutter (36).

3. The coaxial cable stripping all-in-one machine of claim 2, wherein: the upper cutter (35) and the lower cutter (36) are respectively provided with an upper guide sheet (352) and a lower guide sheet (362) at one side close to the placing table (21), the upper guide sheet (352) and the lower guide sheet (362) are respectively fixed on the upper module (351) and the lower module (361) and are covered to form guide holes, and the guide holes and the bark cutting holes (353) are coaxially arranged.

4. The coaxial cable stripping all-in-one machine of claim 1, wherein: the opposite surfaces of the two clamping jaws (41) are provided with insections (411).

5. The coaxial cable stripping all-in-one machine of claim 1, wherein: the placing table (21) is provided with a placing groove (211), and the placing groove (211) is used for placing cables.

6. The coaxial cable stripping all-in-one machine of claim 1, wherein: the two ends of the slide way (332) are respectively provided with a first limiting block (333) and a second limiting block (334), the first limiting block (333) is fixed on the first driving cylinder (34), and the second limiting block (334) and the slide way (332) are integrally formed.

7. A method for stripping cables by using the coaxial cable stripping all-in-one machine as claimed in any one of claims 1 to 6, characterized in that: the cable is placed on a placing table (21), a third driving air cylinder (53) drives a first movable arm (31) and a second movable arm (32) to move forwards to be close to the placing table (21) through a second driving block (54) and a connecting plate (56), the first driving air cylinder (34) drives a first driving block (33) to enable the first movable arm (31) and the second movable arm (32) to rotate, so that an upper cutter (35) and a lower cutter (36) cut the cable sheath, at the moment, a finger air cylinder (42) drives two clamping jaws (41) to clamp the cable sheath, a second driving air cylinder (44) drives the clamping jaws (41) to move backwards along a sliding sleeve (46), and meanwhile, the third driving air cylinder (53) drives the upper cutter (35), the lower cutter (36) and the clamping jaws (41) to move backwards in a linkage mode simultaneously to strip the cable.