CN117317907A - Cable end peeling device - Google Patents

Abstract

The invention relates to a cable end peeling device which comprises a base, peeling modules, handles and fixing modules, wherein the base is of an L-shaped structure, the peeling modules are arranged between the upper ends of the base through bolts, the handles are symmetrically arranged in the middle of the peeling modules through bolts, and the fixing modules are arranged in the middle of the upper ends of the peeling modules. The invention can realize the function of peeling the cable end, is convenient for the quick butt joint of the cable in the laying process, can realize the automatic separation of the cable sheath by cutting the cable sheath and the filler respectively, prevents the damage to the inner wire core when the cable is peeled and cut, realizes the complete peeling of the cable end, can directly connect the peeled cable, and improves the working efficiency.

Description

Cable end peeling device

Technical Field

The application relates to the technical field of cable peeling, in particular to a cable end peeling device.

Background

In the laying process of the cable, if the length is insufficient, two sections of the cable are required to be butted, the outer skin of the cable is required to be removed in the butting process, the outer skin of each wire core in the cable is required to be removed, and the butt joint operation can be performed only by exposing the wires.

In the prior art, for example, in chinese patent with publication number CN213782755U, a cable end peeling apparatus is disclosed, specifically, the apparatus comprises an adjusting mechanism, a rotating cylinder, a rotating block, a screw rod, a sliding block, a blade and a fixing mechanism, the rotating cylinder rotates and is connected with the screw rod, one end of the screw rod extending to the outer side of the rotating cylinder is fixed on the rotating block, the sliding block is fixed with the blade, the sliding block is in threaded connection with the screw rod, when in use, the rotating block rotates the screw rod, so that the screw rod drives the sliding block to slide in the rotating cylinder, the blade slides in the rotating cylinder under the driving of the sliding block, thereby controlling the thickness of the cable sheath to be cut, and then the rotating cylinder is rotated, so that the blade is used for marking a circle on the cable sheath, thereby facilitating the falling of the cable end sheath.

In the prior art, the function of peeling the cable end can be realized, but in the first aspect, when the cable end is peeled, the blade can only scratch a circle on the outer skin of the cable, so that the outer skin is still wrapped on the cable, the outer skin of the filler and the wire core in the cable can not be cut off, and the filler and the wire core in the cable still need to be manually removed, so that the operation difficulty is high, the labor intensity of workers is improved, and the working efficiency is reduced; secondly, in the prior art, when the cable end is peeled, the screw is required to be manually screwed, the feeding amount is not easy to control, the wire is easy to damage when the outer skin is cut, the use after the cable connection is affected, and the safety problem can occur; based on this, there is room for improvement over existing cable termination decortication techniques.

Disclosure of Invention

In order to realize the function of peeling the cable end, the cable of being convenient for is in the quick butt joint of laying in-process, this application provides a cable end peeling apparatus.

The application provides a cable end peeling apparatus adopts following technical scheme:

the utility model provides a cable end peeling apparatus, includes base, peeling module, handle and fixed module, the base is L shape structure, installs peeling module through the bolt between the base upper end, and peeling module installs the handle through the bolt symmetry in the middle part, and peeling module upper end mid-mounting has fixed module.

The peeling module comprises a shell, electric sliding blocks, a peeling unit and an inner peeling unit, wherein the shell is arranged between the upper ends of the bases through bolts, the electric sliding blocks are uniformly arranged on the inner walls of the shell, the peeling unit is arranged between the electric sliding blocks, and the inner peeling unit is arranged at the lower end of the peeling unit.

The inner skin removing unit comprises a connecting component, a cylindrical frame, a power component, a rotating frame, a first gear, an inner skin removing component, a positioning component and a traction frame, wherein the connecting component is arranged at the lower end of the outer skin removing unit, the cylindrical frame is arranged in the middle of the connecting component, a mounting groove is formed in the lower end of the middle of the cylindrical frame, the power component is arranged in the mounting groove, a guiding groove is uniformly formed in the cylindrical frame, a dividing groove is formed in the middle of the guiding groove, the lower end of the dividing groove is provided with the rotating frame through a bearing, the first gear is arranged at the lower end of the rotating frame, the first gear is matched with the power component, the inner skin removing component is arranged at the middle of the rotating frame, the positioning component is symmetrically arranged at the upper end of the inner side of the dividing groove, and the traction frame is arranged at the upper end of the cylindrical frame.

Preferably, the skin removing unit comprises an annular frame, an electric rotating disc, a cutter rest, an outer cutter, an electric push rod and a pressing cutter, wherein the annular frame is arranged between the electric sliding blocks, the cross section of the annular frame is of a U-shaped structure, the electric rotating disc is arranged at the upper end of the inner side of the annular frame, the cutter rest is uniformly arranged on the inner side surface of the electric rotating disc, the outer cutter is arranged on the cutter rest, the electric push rod is uniformly arranged at the lower end of the inner side of the annular frame, the pressing cutter is arranged at the top end of the electric push rod through a flange, the inner side of the pressing cutter is of an arc-shaped structure, and the endothelial removing unit is arranged at the lower end of the annular frame.

Preferably, the connecting assembly comprises a connecting rod and a sliding frame, the connecting rod is uniformly arranged at the lower end of the crust removing unit, the sliding frame is arranged between the lower ends of the connecting rods, the rotating roller is arranged at the end part of the sliding frame, the limiting groove is uniformly arranged on the inner wall of the shell, the rotating roller is positioned in the limiting groove, and the cylinder frame is arranged at the middle part of the upper end of the sliding frame.

Preferably, the power assembly comprises a driving motor and a gear II, the driving motor is installed in the installation groove through a motor seat, the gear II is installed on an output shaft of the driving motor, and the gear II is meshed with the gear I.

Preferably, the inner removing plate assembly comprises a rotating disc, a third gear, a fourth gear, rack plates, sliding blocks, a tool rest and an inner cutter, wherein the rotating groove is formed in the middle of the rotating frame, the rotating disc is installed inside the rotating groove through a bearing, the third gear is installed in the middle of the outer side of the rotating disc, a connecting groove is formed in the rotating frame, the fourth gear is rotationally connected with the fourth gear, the fourth gear is meshed with the third gear, the rack plates are installed in the middle of the cutting groove and matched with the fourth gear, planar threads are arranged on the upper end face of the rotating disc, sliding grooves are uniformly formed in the upper end of the rotating groove, the sliding blocks are connected in the sliding grooves in a sliding mode, the thread grooves matched with the planar threads are formed in the lower end face of the sliding blocks, the tool rest is installed at the upper end of the sliding blocks, and the inner cutter is installed inside the tool rest.

Preferably, the locating component includes rectangular plate, locating lever, locating plate, hold-down bar and compression spring, the rectangular plate is installed to the inside upper end of cutting the inslot, and rectangular plate middle part sliding connection has the locating lever, and the locating plate is installed in the locating lever outside, and the locating plate outside is the arc structure, and the locating plate up end is the slope structure, and the locating lever inboard is provided with the slide hole, and the downthehole sliding connection has the hold-down bar, installs compression spring between hold-down bar and the slide hole.

Preferably, the traction frame is of a conical structure, traction grooves are uniformly formed in the traction frame and are communicated with the traction grooves, V-shaped blocks are uniformly mounted on the traction frame, the middle parts of the V-shaped blocks are of smooth inclined structures, and the V-shaped blocks correspond to the traction grooves.

Preferably, the fixed module includes rectangle frame, T shape pole and fixed plate, peeling module upper end mid-mounting has the rectangle frame, is provided with the feed chute on the rectangle frame, and the feed chute is linked together with peeling module, and rectangle frame middle part outside symmetry is provided with the screw groove, and the screw groove swivelling joint has T shape pole, and the fixed plate is installed through the bearing to T shape pole inboard, and the screw groove inboard is provided with the rectangular channel, and the fixed plate is located the rectangular channel, and the fixed plate lateral surface is the arc structure.

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

1. the outer skin removing unit is arranged in the invention, the electric sliding block drives the annular frame to move upwards, the outer cutter moves upwards synchronously along with the annular frame, and at the moment, the outer cutter cuts the outer skin of the cable into uniform strips; when the electric sliding block moves to the uppermost part, the electric rotating disc starts to rotate, the external cutter synchronously rotates along with the electric rotating disc through the cutter frame, so that the external cutter performs annular cutting on the cable sheath, the cable sheath falls off, then the electric push rod drives the pressing cutter to extrude and cut off the filler in the cable, the filler falls off, the electric push rod drives the pressing cutter to reset, the cable sheath and the filler are respectively cut, the automatic separation of the cable sheath can be realized, and the damage to an inner wire core during peeling and cutting of the cable is prevented;

2. according to the wire core cutting machine, the inner removing component is arranged, the gear IV rotates synchronously along with the rotating frame, when the gear IV rotates to be meshed with the rack plate, the gear IV rotates, the gear IV drives the rotating disc to rotate through the meshed gear III, the rotating disc enables the sliding block to move towards the inside of the cutting groove in a threaded fit mode, the inner cutter moves synchronously along with the sliding block towards the inside of the cutting groove to realize gradual feeding, then the rotating inner cutter performs annular cutting on the wire core outer skin, after the cutting is completed, the electric sliding block drives the cylinder frame to move downwards, the inner cutter cuts the wire core outer skin, the cut wire core outer skin falls, wire core end peeling is realized, the inner cutter can be fed step by step to prevent damage to a wire, the wire core outer skin can be accurately cut, convenience and rapidness are realized, and the working efficiency is improved;

3. in the invention, the positioning assembly is arranged, when the wire core enters the guide groove, the end part of the wire core presses the positioning plate, the positioning plate contracts towards the inside of the slitting groove, and the compression spring is gradually compressed at the moment; when the sinle silk continues to follow and draw the silo down to remove, compression spring drives the locating plate and resets for the sinle silk is in between two locating plates, and the sinle silk is in the exact central point position of draw the silo this moment, realizes the locate function of sinle silk, conveniently goes the skin that endothelial subassembly can be accurate to the core and cuts.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a schematic cross-sectional structure of the present application.

FIG. 3 is a schematic cross-sectional view of a peeling module of the present application.

Fig. 4 is a schematic cross-sectional structure among the housing, the electric slider and the skinning unit of the present application.

FIG. 5 is a schematic cross-sectional view of the endothelial cell removal unit of the present application.

Fig. 6 is a schematic view of a cross-sectional structure between the housing, the electric slider, the ring frame, the electric push rod and the pressing and cutting knife of the present application.

Fig. 7 is a schematic cross-sectional view of the cylinder frame, the power assembly, the rotating frame, the first gear, the inner removing assembly and the positioning assembly.

Fig. 8 is a schematic cross-sectional structure of the fixing module of the present application.

Fig. 9 is a schematic view of a partial cross-sectional structure of the connection assembly, cylinder frame, power assembly, turret, gear-one and endothelial removal assembly of the present application.

Reference numerals illustrate: 1. a base; 2. a peeling module; 21. a housing; 22. an electric slide block; 23. a crust removing unit; 231. an annular frame; 232. an electric turntable; 233. a cutter rest; 234. an outer cutter; 235. an electric push rod; 236. pressing a cutter; 24. removing endothelial cells; 241. a connection assembly; 2411. a connecting rod; 2412. a carriage; 242. a cylinder frame; 243. a power assembly; 2431. a driving motor; 2432. a second gear; 244. a rotating frame; 245. a first gear; 246. a endothelial removal assembly; 2461. a rotating disc; 2462. a third gear; 2463. a fourth gear; 2464. rack plate; 2465. a sliding block; 2466. a tool holder; 2467. an inner cutter; 247. a positioning assembly; 2471. a rectangular plate; 2472. a positioning rod; 2473. a positioning plate; 2474. a pressing rod; 2475. a compression spring; 248. a traction frame; 2481. a V-shaped block; 3. a handle; 4. a fixed module; 41. a rectangular frame; 42. a T-bar; 43. and a fixing plate.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-9.

The embodiment of the application discloses cable end peeling apparatus can realize the excision to cable end crust and sinle silk crust to carry out the function of excision to the filler in the cable.

Referring to fig. 1, the cable end peeling apparatus disclosed in this embodiment includes a base 1, peeling modules 2, a handle 3 and a fixing module 4, the base 1 has an L-shaped structure, the peeling modules 2 are mounted between the upper ends of the base 1 through bolts, the handles 3 are symmetrically mounted in the middle of the peeling modules 2 through bolts, and the fixing module 4 is mounted in the middle of the upper end of the peeling module 2.

Referring to fig. 3, the peeling module 2 includes a housing 21, electric sliders 22, a peeling unit 23 and an inner peeling unit 24, wherein the housing 21 is mounted between the upper ends of the base 1 through bolts, the electric sliders 22 are uniformly mounted on the inner wall of the housing 21, the peeling unit 23 is mounted between the electric sliders 22, and the inner peeling unit 24 is mounted at the lower end of the peeling unit 23.

In the actual use, when needing to dock the cable, the manual work inserts the cable end from fixed module 4 to shell 21 middle part for cable crust and removing crust unit 23 hugs closely, twist fixed module 4 and fix the cable, electronic slider 22 drives and removes crust unit 23 upward movement, remove endothelial unit 24 and follow and remove crust unit 23 synchronous upward movement, remove crust unit 23 and cut the exodermis when upwards moving, cut the cable crust into the strip, the sinle silk is respectively through endothelial unit 24, when electronic slider 22 moves to the top, remove crust unit 23 rotation and carry out annular cutting to the cable crust, the cable crust of cutting drops from shell 21 inside, afterwards remove crust unit 23 and cut the filler in the cable crust, the filler drops, at this moment, remove endothelial unit 24 and carry out annular cutting to the core, electronic slider 22 drives and removes crust unit 23 and remove endothelial unit 24 synchronous downward movement after annular cutting is accomplished, remove endothelial unit 24 and cut the sinle silk, the sinle silk drops, accomplish the cable end and peel, peel module 2 can be peeled completely, the cable end, need not to carry out other processing manually, the quick connection of cable has been favorable to.

Referring to fig. 4, the peeling unit 23 includes an annular frame 231, an electric turntable 232, a cutter frame 233, an external cutter 234, an electric push rod 235 and a cutter pressing 236, wherein the annular frame 231 is installed between the electric sliders 22, the cross section of the annular frame 231 is in a U-shaped structure, the electric turntable 232 is installed at the upper end of the inner side of the annular frame 231, the cutter frame 233 is uniformly installed on the inner side surface of the electric turntable 232, the external cutter 234 is installed on the cutter frame 233, the electric push rod 235 is uniformly installed at the lower end of the inner side of the annular frame 231, the cutter pressing 236 is installed at the top end of the electric push rod 235 through a flange, the inner side of the cutter pressing 236 is in an arc-shaped structure, and the peeling unit 24 is installed at the lower end of the annular frame 231.

In the actual use process, the cable end is manually inserted into the middle of the shell 21 from the fixed module 4, so that the cable sheath is tightly attached to the external cutter 234, the electric sliding block 22 drives the annular frame 231 to move upwards, the external cutter 234 moves upwards synchronously along with the annular frame 231, and at the moment, the external cutter 234 cuts the cable sheath into uniform strips; when the electric sliding block 22 moves to the uppermost, the electric rotating disc 232 starts to rotate, the outer cutter 234 synchronously rotates along with the electric rotating disc 232 through the cutter rest 233, so that the outer cutter 234 performs annular cutting on the cable sheath, the cable sheath falls off, then the electric push rod 235 drives the pressing cutter 236 to extrude and cut off the filler inside the cable, the filler falls off, the electric push rod 235 drives the pressing cutter 236 to reset, the automatic separation of the cable sheath and the filler can be realized through cutting the cable sheath and the filler respectively, and damage to an inner wire core during peeling and cutting of the cable is prevented.

It should be noted that, the pressing and cutting knife 236 is symmetrically provided with an arc structure matched with the wire core, when the cable is manually placed inside the shell, the wire core inside the cable corresponds to the arc structure on the pressing and cutting knife 236, so that the pressing and cutting knife 236 can only press and cut the filler when the filler is extruded and cut off, and the pressing and cutting knife 236 is prevented from damaging the wire core.

Referring to fig. 5, the inner removing unit 24 includes a connecting component 241, a cylindrical frame 242, a power component 243, a rotating frame 244, a first gear 245, an inner removing component 246, a positioning component 247 and a traction frame 248, the lower end of the outer removing unit 23 is provided with the connecting component 241, the middle part of the connecting component 241 is provided with the cylindrical frame 242, the middle lower end of the cylindrical frame 242 is provided with a mounting groove, the power component 243 is provided in the mounting groove, the cylindrical frame 242 is uniformly provided with a guiding groove, the middle part of the guiding groove is provided with a partial cutting groove, the lower end of the cutting groove is provided with the rotating frame 244 through a bearing, the lower end of the rotating frame 244 is provided with the first gear 245, the first gear 245 is matched with the power component 243, the middle part of the rotating frame 244 is provided with the inner removing component 246, the upper end of the inside of the cutting groove is symmetrically provided with the positioning component 247, and the upper end of the cylindrical frame 242 is provided with the traction frame 248.

In the actual use process, when the electric slide block 22 drives the crust removing unit 23 to move upwards, the connecting component 241 drives the cylinder frame 242 to synchronously move upwards, the traction frame 248 pulls the wire core into the guide groove, and the positioning component 247 positions the wire core so that the wire core is positioned at the right center position of the guide groove; when the connecting component 241 moves to the uppermost side along with the peeling unit 23, the power component 243 drives the peeling component 246 to rotate through the first gear 245, the peeling component 246 gradually feeds inwards and performs annular cutting on the wire core outer skin, then the connecting component 241 moves downwards along with the peeling unit 23, the wire core outer skin is vertically cut when the peeling component 246 moves downwards, the wire core outer skin falls after being cut into strips, all peeling of the end part of a cable is achieved, the peeled cable can be directly connected, the working efficiency is improved, and the quick connection of the cable is facilitated.

Referring to fig. 5, the connecting assembly 241 includes a connecting rod 2411 and a sliding frame 2412, the connecting rod 2411 is uniformly installed at the lower end of the crust removing unit 23, the sliding frame 2412 is installed between the lower ends of the connecting rods 2411, the end of the sliding frame 2412 is provided with a rotating roller, the inner wall of the housing 21 is uniformly provided with a limit groove, the rotating roller is located in the limit groove, and the middle of the upper end of the sliding frame 2412 is provided with a cylinder frame 242.

In the actual use process, when the electric sliding block 22 drives the crust removing unit 23 to move, the connecting rod 2411 drives the sliding frame 2412 to synchronously move, the sliding frame 2412 drives the cylindrical frame 242 to move along with the connecting rod 2411, and the limiting groove plays a role in limiting the sliding frame 2412, so that the sliding frame 2412 is prevented from shaking in the moving process.

Referring to fig. 7, the power assembly 243 includes a driving motor 2431 and a gear two 2432, the driving motor 2431 is installed in the installation slot through a motor base, the gear two 2432 is installed on an output shaft of the driving motor 2431, and the gear two 2432 is meshed with the gear one 245.

In the actual use process, when peeling is carried out on the wire core, the driving motor 2431 rotates positively to drive the gear II 2432 to rotate, the cylindrical frame 242 rotates synchronously through the gear I245 and the gear II 2432, the endothelial removing assembly 246 rotates along with the cylindrical frame 242, the endothelial removing assembly 246 stretches out to carry out annular cutting on the outer skin of the wire core, the electric sliding block 22 drives the cylindrical frame 242 to move downwards after the cutting is finished, the wire core outer skin is vertically cut when the endothelial removing assembly 246 moves downwards synchronously, the outer skin falls off, and finally, the driving motor 2431 rotates reversely to drive the endothelial removing assembly 246 to retract.

Referring to fig. 7, the inner removing plate assembly 246 includes a rotating disc 2461, a third gear 2462, a fourth gear 2463, a rack plate 2464, a sliding block 2465, a tool rest 2466 and an inner cutter 2467, a rotating groove is formed in the middle of the rotating frame 244, the rotating disc 2461 is mounted in the rotating groove through a bearing, the third gear 2462 is mounted in the middle of the outer side of the rotating disc 2461, a connecting groove is formed in the rotating frame 244, the fourth gear 2463 is rotationally connected in the connecting groove, the fourth gear 2463 is meshed with the third gear 2462, the rack plate 2464 is mounted in the middle of the cutting groove, the rack plate 2464 is matched with the fourth gear 2463, planar threads are formed on the upper end face of the rotating disc 2461, sliding grooves are uniformly formed in the upper end of the rotating groove, the sliding block 2465 is provided with thread grooves matched with the planar threads, the tool rest 2466 is mounted on the upper end of the sliding block 2465, and the inner cutter 2467 is mounted in the inner side of the tool rest 2466.

In the practical use process, when the rotating frame 244 rotates, the gear IV 2463 rotates synchronously along with the rotating frame 244, when the gear IV 2463 rotates to be meshed with the rack plate 2464, the gear IV 2463 rotates, and the gear IV 2463 drives the rotating disc 2461 to rotate through the meshed gear IV 2462, the rotating disc 2461 enables the sliding block 2465 to move towards the inside of the slitting groove in a threaded fit mode, the inner cutter 2467 moves towards the inside of the slitting groove synchronously along with the sliding block 2465, gradual feeding is achieved, afterwards, the rotating inner cutter 2467 performs annular cutting on the wire core outer skin, the electric sliding block 22 drives the cylinder frame 242 to move downwards after cutting is completed, the inner cutter 2467 cuts the wire core outer skin, the cut wire core outer skin falls, peeling of the wire core end is achieved, the inner cutter 2467 can prevent damage to a wire in a gradual feeding mode, the wire core outer skin can be accurately cut, convenience and rapidness are achieved, and working efficiency is improved.

Referring to fig. 7, the positioning assembly 247 includes a rectangular plate 2471, a positioning rod 2472, a positioning plate 2473, a pressing rod 2474 and a compression spring 2475, the rectangular plate 2471 is installed at the upper end of the inside of the slitting groove, the positioning rod 2472 is slidably connected with the middle of the rectangular plate 2471, the positioning plate 2473 is installed on the outer side of the positioning rod 2472, the outer side of the positioning plate 2473 is in an arc-shaped structure, the upper end surface of the positioning plate 2473 is in an inclined structure, a sliding hole is formed in the inner side of the positioning rod 2472, the pressing rod 2474 is slidably connected in the sliding hole, and the compression spring 2475 is installed between the pressing rod 2474 and the sliding hole.

In the actual use process, when the wire core enters the guide groove, the end part of the wire core presses the positioning plate 2473, the positioning plate 2473 contracts towards the slitting groove, and the compression spring 2475 is gradually compressed; when the wire core continues to move downwards along the guide groove, the compression spring 2475 drives the positioning plates 2473 to reset, so that the wire core is positioned between the two positioning plates 2473, and at the moment, the wire core is positioned at the right center of the guide groove, so that the positioning function of the wire core is realized, and the inner skin removing assembly 246 can accurately cut the outer skin of the wire core.

Referring to fig. 5, the traction frame 248 is in a conical structure, traction grooves are uniformly formed in the traction frame 248, the traction grooves are communicated with the traction grooves, V-shaped blocks 2481 are uniformly mounted on the traction frame 248, the middle of each V-shaped block 2481 is in a smooth inclined structure, and the V-shaped blocks 2481 correspond to the traction grooves.

In the in-service use process, the position of the traction groove corresponds to the position of the wire core, when the traction frame 248 moves upwards, the wire core can accurately enter the traction groove, the traction groove can enable the end portion of the wire core to move along the track of the traction groove, and when the end portion of the wire core moves to the middle of the V-shaped block 2481, the smooth inclined structure of the middle of the V-shaped block 2481 can send the end portion of the wire core into the traction groove, so that the wire core is pulled.

Referring to fig. 8, the fixing module 4 includes a rectangular frame 41, a T-shaped rod 42 and a fixing plate 43, the rectangular frame 41 is mounted in the middle of the upper end of the peeling module 2, a feeding groove is provided on the rectangular frame 41 and is communicated with the peeling module 2, a thread groove is symmetrically provided on the outer side of the middle of the rectangular frame 41, the T-shaped rod 42 is rotationally connected in the thread groove, the fixing plate 43 is mounted on the inner side of the T-shaped rod 42 through a bearing, a rectangular groove is provided on the inner side of the thread groove, the fixing plate 43 is located in the rectangular groove, and the outer side of the fixing plate 43 is of an arc structure.

In the actual use process, when the cable end is manually inserted into the middle part of the shell 21 from the feed chute, the cable sheath is tightly attached to the external cutter 234, the T-shaped rod 42 is manually screwed, the T-shaped rod 42 pushes the fixing plate 43 to move towards the middle part of the feed chute, and then the fixing plate 43 clamps the cable, so that the cable fixing function is realized.

The implementation principle of the embodiment is as follows:

1: the positioning and fixing are carried out, the cable end is manually inserted into the middle of the shell 21 from the feeding groove, the cable sheath is tightly attached to the external cutter 234, the T-shaped rod 42 is manually screwed, the T-shaped rod 42 pushes the fixing plate 43 to move towards the middle of the feeding groove, and then the fixing plate 43 clamps the cable.

2: cutting off the cable sheath, the electric slide block 22 drives the annular frame 231 to move upwards, and the external cutter 234 moves upwards synchronously along with the annular frame 231, and at the moment, the external cutter 234 cuts the cable sheath into uniform strips; when the electric slider 22 moves to the uppermost, the electric turntable 232 starts to rotate, the outer cutter 234 synchronously rotates along with the electric turntable 232 through the cutter rest 233, so that the outer cutter 234 performs annular cutting on the cable sheath, the cable sheath drops, then the electric push rod 235 drives the pressing cutter 236 to extrude and cut off the filler inside the cable, the filler drops, and the electric push rod 235 drives the pressing cutter 236 to reset.

3: when the wire core outer skin is cut off and the rotating frame 244 rotates, the gear IV 2463 rotates synchronously with the rotating frame 244, when the gear IV 2463 rotates to be meshed with the rack plate 2464, the gear IV 2463 rotates, the gear IV 2463 drives the rotating disc 2461 to rotate through the meshed gear III 2462, the rotating disc 2461 enables the sliding block 2465 to move towards the inside of the cutting groove in a threaded fit mode, the inner cutter 2467 moves towards the inside of the cutting groove synchronously with the sliding block 2465, progressive feeding is achieved, the rotating inner cutter 2467 performs annular cutting on the wire core outer skin, the electric sliding block 22 drives the cylinder frame 242 to move downwards after cutting is completed, the inner cutter 2467 cuts the wire core outer skin, and the cut wire core outer skin falls.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (8)

1. The utility model provides a cable end peeling apparatus, includes base (1), peeling module (2), handle (3) and fixed module (4), its characterized in that, base (1) are L shape structure, install peeling module (2) through the bolt between base (1) upper end, peeling module (2) middle part is through bolt symmetry installs handle (3), peeling module (2) upper end mid-mounting has fixed module (4), wherein:

the peeling module (2) comprises a shell (21), electric sliding blocks (22), peeling units (23) and peeling units (24), wherein the shell (21) is arranged between the upper ends of the bases (1) through bolts, the electric sliding blocks (22) are uniformly arranged on the inner wall of the shell (21), the peeling units (23) are arranged between the electric sliding blocks (22), and the peeling units (24) are arranged at the lower ends of the peeling units (23);

the inner skin removing unit (24) comprises a connecting component (241), a cylindrical frame (242), a power component (243), a rotating frame (244), a first gear (245), an inner skin removing component (246), a positioning component (247) and a traction frame (248), wherein the connecting component (241) is installed at the lower end of the outer skin removing unit (23), the cylindrical frame (242) is installed in the middle of the connecting component (241), a mounting groove is formed in the lower end of the middle of the cylindrical frame (242), the power component (243) is installed in the mounting groove, a guiding groove is uniformly formed in the cylindrical frame (242), a parting groove is formed in the middle of the guiding groove, the rotating frame (244) is installed at the lower end of the parting groove through a bearing, the first gear (245) is installed at the lower end of the rotating frame (244), the first gear (245) is matched with the power component (243), the inner skin removing component (246) is installed in the middle of the rotating frame (244), the positioning component (247) is symmetrically installed at the upper end of the inside of the parting groove, and the traction frame (248) is installed at the upper end of the cylindrical frame (242).

2. A cable termination peeling apparatus as defined in claim 1, wherein: the crust removing unit (23) comprises an annular frame (231), an electric rotating disc (232), a cutter frame (233), an external cutter (234), an electric push rod (235) and a pressing cutter (236), wherein the annular frame (231) is installed between the electric sliding blocks (22), the cross section of the annular frame (231) is of a U-shaped structure, the electric rotating disc (232) is installed at the upper end of the inner side of the annular frame (231), the cutter frame (233) is uniformly installed on the inner side surface of the electric rotating disc (232), the external cutter (234) is installed on the cutter frame (233), the electric push rod (235) is uniformly installed at the lower end of the inner side of the annular frame (231), the pressing cutter (236) is installed at the top end of the electric push rod (235) through a flange, the inner side surface of the pressing cutter (236) is of an arc-shaped structure, and the endothelial removing unit (24) is installed at the lower end of the annular frame (231).

3. A cable termination peeling apparatus as defined in claim 1, wherein: the connecting assembly (241) comprises a connecting rod (2411) and a sliding frame (2412), the connecting rod (2411) is uniformly arranged at the lower end of the crust removing unit (23), the sliding frame (2412) is arranged between the lower ends of the connecting rod (2411), the rotating roller is arranged at the end part of the sliding frame (2412), the limiting groove is uniformly arranged on the inner wall of the shell (21), the rotating roller is positioned in the limiting groove, and the cylinder frame (242) is arranged at the middle part of the upper end of the sliding frame (2412).

4. A cable termination peeling apparatus as defined in claim 1, wherein: the power assembly (243) comprises a driving motor (2431) and a gear II (2432), the driving motor (2431) is installed in the installation groove through a motor base, the gear II (2432) is installed on an output shaft of the driving motor (2431), and the gear II (2432) is meshed with the gear I (245).

5. A cable termination peeling apparatus as defined in claim 1, wherein: the inner removing plate assembly comprises a rotating disc (2461), a gear III (2462), a gear IV (2463), a rack plate (2464), a sliding block (2465), a cutter rest (2466) and an inner cutter (2467), wherein a rotating groove is formed in the middle of the rotating frame (244), the rotating disc (2461) is installed in the rotating groove through a bearing, the gear III (2462) is installed in the middle of the outer side of the rotating disc (2461), a connecting groove is formed in the rotating frame (244), the gear IV (2463) is rotationally connected with the gear IV (2463), the gear IV (2463) is meshed with the gear IV (2462), the rack plate (2464) is matched with the gear IV (2463), planar threads are arranged on the upper end face of the rotating disc (2461), a sliding groove is uniformly formed in the upper end of the rotating groove, the sliding block is connected with the sliding block (2465), a threaded groove matched with the planar threads is formed in the lower end face of the sliding block (2465), the cutter rest (2466) is installed on the upper end of the sliding block (2465), and the cutter rest (2466) is installed in the inner side of the cutter rest (2466).

6. A cable termination peeling apparatus as defined in claim 1, wherein: the utility model provides a locating component (247) is including rectangular plate (2471), locating lever (2472), locating plate (2473), clamp bar (2474) and compression spring (2475), rectangular plate (2471) are installed to the inside upper end of slitting groove, and rectangular plate (2471) middle part sliding connection has locating lever (2472), and locating plate (2473) are installed in locating lever (2472) outside, and locating plate (2473) outside is the arc structure, and locating plate (2473) up end is the slope structure, and locating lever (2472) inboard is provided with the slide hole, and the slide is downthehole to be connected with clamp bar (2474) in the slide, installs compression spring (2475) between clamp bar (2474) and the slide hole.

7. A cable termination peeling apparatus as defined in claim 1, wherein: traction frame (248) is conical structure, evenly is provided with traction groove on traction frame (248), and traction groove is linked together with the traction groove, evenly installs V-arrangement piece (2481) on traction frame (248), and V-arrangement piece (2481) middle part is smooth slope structure, and V-arrangement piece (2481) corresponds with traction groove.

8. A cable termination peeling apparatus as defined in claim 1, wherein: the utility model provides a peeling machine, including fixed module (4), fixed plate (43) are fixed in fixed module (4), fixed plate (43) are installed to fixed module (42) including rectangle frame (41), peeling module (2) upper end mid-mounting has rectangle frame (41), be provided with the feed chute on rectangle frame (41), the feed chute is linked together with peeling module (2), rectangle frame (41) middle part outside symmetry is provided with the screw groove, the screw groove internal rotation is connected with T shape pole (42), fixed plate (43) are installed through the bearing to T shape pole (42) inboard, the screw groove inboard is provided with the rectangular channel, fixed plate (43) are located the rectangular channel, fixed plate (43) lateral surface is the arc structure.