CN114825183A

CN114825183A - Cable peeling device of integrated insulation wiring device

Info

Publication number: CN114825183A
Application number: CN202210361735.1A
Authority: CN
Inventors: 谭海铭; 覃明生; 王海霖; 谭永真; 覃仕星; 余热闹; 黄国荣
Original assignee: Hechi Power Supply Bureau of Guangxi Power Grid Co Ltd
Current assignee: Hechi Power Supply Bureau of Guangxi Power Grid Co Ltd
Priority date: 2022-04-07
Filing date: 2022-04-07
Publication date: 2022-07-29
Anticipated expiration: 2042-04-07

Abstract

The invention discloses a cable peeling device of an integrated insulating wiring device, wherein a cable peeling limiting clamping structure is formed between a base plate peeling cutter disc on a base plate inner arc-shaped cutter roller and a top seat plate peeling cutter disc on a top seat plate inner arc-shaped cutter roller, and arc-shaped structures are formed between a plurality of base plate peeling cutter discs on the base plate inner arc-shaped cutter roller and a plurality of top seat plate peeling cutter discs on the top seat plate inner arc-shaped cutter roller. Under initial condition, two sets of cables that two sets of cables milled the spacing subassembly bottom of skin are skinned and are milled the skin subassembly and diverge, and when the extension push pedal was from advancing, the extension push pedal was relieved and is milled the control at the spacing subassembly top of skin to two sets of cables, and under the effect of bedplate top spring, two sets of cables that two sets of cables milled the spacing subassembly bottom of skin were skinned and are milled the skin subassembly and close. Aiming at the traditional spiral improvement, the invention adopts a rolling-off pre-cutting and skin-milling treatment mode, well solves the problem that the subsequent wiring operation is influenced by the blockage during skin stripping in the prior art, and has good practical value.

Description

Cable peeling device of integrated insulation wiring device

Technical Field

The invention belongs to the technical field of cable stripping, and particularly relates to a cable stripping device of an integrated insulated wiring device.

Background

The integrated insulated wiring device integrates cable peeling and wire clamp installation, has the characteristics of high tool overall design degree, simple operation, high operation quality, light whole machine weight and the like, can finish the whole operation process at one time, and can obviously reduce the complexity of the operation process, shorten the operation time, lighten the operation intensity and the safety risk and improve the operation quality and efficiency.

10kV distribution network electrified operation integrated mounting tool (LR-JCWD-1001) that connects fire of prior art gathers that the cable is skinned and the fastener installation is as an organic whole, adopts the carry formula operation mode during the wiring, but its cable structure of skinning is spiral structure mostly, and this kind of structure leads to the cable to skin the jam when peeling off, influences subsequent wiring operation easily, consequently urgently needs to improve prior art, solves above-mentioned problem.

Disclosure of Invention

The invention aims to provide a cable peeling device of an integrated insulating wiring device, which can solve the problem that a spiral structure in the prior art easily causes blockage when a cable is peeled off and skin is generated, and subsequent wiring operation is influenced.

The purpose of the invention is realized by the following technical scheme:

the cable peeling device of the integrated insulating wiring device comprises an integrated insulating wiring body 1 and an auxiliary supporting arm 7, wherein a cable peeling limiting base assembly 2 is arranged on one side of the top of the integrated insulating wiring body 1, a cable peeling limiting top seat assembly 3 is arranged right above the cable peeling limiting base assembly 2, a self-adaptive pushing assembly 4 is arranged on the top of the cable peeling limiting top seat assembly 3 in a tensioning and sliding mode, two groups of cable skin milling limiting assemblies 5 are rotatably arranged at an operation position at the front end of the cable peeling limiting top seat assembly 3, and the two groups of cable skin milling limiting assemblies 5 are of a cross structure; a cable peeling and skin milling component 6 is arranged at the bottom of the cable skin milling limiting component 5 in a pushing mode; a cable peeling limiting clamping structure is formed between the cable peeling limiting base assembly 2 and the cable peeling limiting top base assembly 3, and the position of the cable peeling milling assembly 6 corresponds to the cable peeling limiting clamping structure; the one end that spacing base subassembly 2 was skinned to the cable and the one end that spacing footstock subassembly 3 was skinned to the cable pass through auxiliary stay 7 elastic connection, and the other end that spacing base subassembly 2 was skinned to the cable and the other end that spacing footstock subassembly 3 was skinned to the cable have the side to put the clearance.

Further, the cable peeling limiting base assembly 2 comprises a U-shaped peeling limiting base plate 201, two side walls of the U-shaped peeling limiting base plate 201 are rotatably connected with a base plate rotating shaft rod 202, and a driving motor 205 for driving the base plate rotating shaft rod 202 to rotate is arranged on the outer side of one side wall of the U-shaped peeling limiting base plate 201; a base plate inner arc type knife roller 203 is fixedly arranged on the base plate rotating shaft rod 202, and a plurality of base plate peeling cutterheads 204 are fixedly arranged on the base plate inner arc type knife roller 203; a base plate chassis 206 and a base plate guide slide bar 207 are fixedly arranged at the top of one side wall of the U-shaped peeling limit base plate 201, a base plate top plate 208 is fixedly arranged at the top of the base plate guide slide bar 207, and a base plate bottom spring 209 and a base plate top spring 210 are sleeved on the base plate guide slide bar 207.

Further, the cable peeling limiting top seat assembly 3 comprises a U-shaped peeling limiting top seat plate 301, two side walls of the U-shaped peeling limiting top seat plate 301 are rotatably connected with a top seat plate rotating shaft rod 302, and a top seat plate inner arc-shaped knife roller 304 and a first bevel gear 303 are fixedly arranged on the top seat plate rotating shaft rod 302; a plurality of top seat plate peeling cutterheads 305 are fixedly arranged on the top seat plate inner arc-shaped knife rollers 304, and a rotatable top seat plate vertical shaft rod 306 penetrates through the top wall of the U-shaped peeling limiting top seat plate 301; the top and the bottom of the top seat plate vertical shaft rod 306 are respectively and fixedly provided with a third conical gear 307 and a second conical gear 308; the second bevel gear 308 is meshed with the first bevel gear 303; two top seat plate fixing vertical plates 309 fixedly connected with the U-shaped peeling limiting top seat plate 301 are arranged on the U-shaped peeling limiting top seat plate 301, a top seat plate transverse shaft rod 310 is rotatably arranged between the two top seat plate fixing vertical plates 309, a fourth conical gear 312 is fixedly arranged at one end of the top seat plate transverse shaft rod 310, and a self-adaptive pushing gear 311 is fixedly arranged in the middle of the top seat plate transverse shaft rod; the fourth bevel gear 312 is meshed with the third bevel gear 307; a top seat plate guiding circular rail pipe 315 is fixedly arranged at the upper part of the top wall of the U-shaped peeling limiting top seat plate 301, the top seat plate guiding circular rail pipe 315 is positioned between two top seat plate fixing vertical plates 309, and a top seat plate tensioning spring 313 is arranged in the top seat plate guiding circular rail pipe 315; the lower part of the top wall of the U-shaped peeling limit top seat plate 301 is provided with a top seat plate connecting support rod 316, two ends of the top seat plate connecting support rod 316 are both fixedly provided with a support rod pushing disc 317, two ends of the top seat plate connecting support rod 316 are both sleeved with a top seat plate jacking spring 318 between the support rod pushing discs 317, the bottom of the top seat plate guide circular rail pipe 315 is fixedly provided with a top seat plate support rod 314, the bottom of the top seat plate support rod 314 is fixedly provided with a top seat plate shaft pin rod 319, the bottom of one side wall of the U-shaped peeling limit top seat plate 301 is fixedly provided with a top seat plate side disc 320, and the center of the top seat plate side disc 320 is provided with a top seat plate side disc sliding hole 321; the U-shaped peeling limit top seat plate 301 is sleeved on the base plate guide slide bar 207 through the top seat plate side disc slide hole 321 and is positioned between the base plate bottom spring 209 and the base plate top spring 210.

Further, the self-adaptive pushing assembly 4 comprises a self-adaptive pushing slide bar 401, and a self-adaptive pushing advancing tooth 402 and an expanding push plate 403 are respectively and fixedly arranged at two ends of the self-adaptive pushing slide bar 401; the self-adaptive pushing advancing tooth 402 is meshed with the self-adaptive pushing gear 311.

Further, the middle part that the cable mills the spacing subassembly 5 of skin sets up and mills skin and rotate central siphon 501, mills skin and rotates central siphon 501 and mills the spacing subassembly 5 of skin with the cable and divide into two parts: a skin-milling jacking bottom vertical plate 503 and a skin-milling jacking vertical plate 504 are tightly pressed, and a skin-milling rotating shaft tube 501 is fixedly connected with the skin-milling jacking bottom vertical plate 503 and the skin-milling jacking vertical plate 504 through skin-milling supporting rods 502 respectively; a milled leather bottom vertical plate guiding sliding hole 505 is formed in one end, away from the milled leather rotating shaft tube 501, of the milled leather top vertical plate 503, and a milled leather top vertical plate guiding vertical groove 506 is formed in the milled leather top vertical plate 504; the two groups of cable milling limiting assemblies 5 are respectively and rotatably connected to the top bedplate shaft pin rod 319 through milling rotary shaft tubes 501 and are in a cross structure; the milling skin top vertical plate guide vertical grooves 506 of the two groups of cable milling skin limiting assemblies 5 are sleeved on the top seat plate connecting support rods 316 in a sliding mode and are located between the two top seat plate jacking springs 318; the space between the skin milling and abutting bottom vertical plates 503 of the two groups of cable skin milling limiting assemblies 5 is used for placing the expansion push plate 403.

Further, the cable peeling and skin milling assembly 6 comprises two arc-shaped cable peeling and milling cutters 601, a milling cutter pushing slide rod 602 is fixedly arranged on the outer side of each arc-shaped cable peeling and milling cutter 601, a milling cutter limiting ball head 604 is fixedly arranged at one end, far away from the arc-shaped cable peeling and milling cutter 601, of the milling cutter pushing slide rod 602, and a milling cutter pushing spring 603 is sleeved on the milling cutter pushing slide rod 602; the two groups of cable skin-milling limiting assemblies 5 are respectively sleeved on the milling cutter pushing slide rod 602 in a sliding manner through a skin-milling bottom vertical plate guide slide hole 505 and are positioned between the milling cutter pushing spring 603 and the milling cutter limiting ball head 604.

Further, the top end of the auxiliary supporting arm 7 is rotatably connected with one side wall of the U-shaped peeling limiting top seat plate 301 through a shaft pin and a shaft hole, and the bottom end of the auxiliary supporting arm 7 is rotatably connected with one side wall of the U-shaped peeling limiting base plate 201 through a shaft pin and a shaft hole.

Further, form the cable between base plate skin cutter disc 204 and the roof plate skin cutter disc 305 and skin spacing clamp structure, and the base plate skin cutter disc 204 that a plurality of was arranged together and the roof plate skin cutter disc 305 that a plurality of was arranged together are by arranging the center to grow gradually to both ends size, form the spacing clamp structure of skinning of arc type cable.

Further, when the expanding push plate 403 on the self-adaptive pushing assembly 4 is pushed forward, the expanding push plate 403 is abutted between the two milling-skin pushing bottom vertical plates 503, and the top and the bottom of the two groups of cable milling-skin limiting assemblies 5 form a diverging structure.

Further, the top seat plate supporting rod 314 is arranged on the driving motor, and the circumferential peeling processing of the cable between the two groups of closed cable peeling and skin milling assemblies 6 is realized through the bidirectional swinging of the driving motor.

According to the cable peeling device of the integrated insulating wiring device, cable peeling limiting clamping structures are formed between the base plate peeling cutterheads on the base plate inner arc-shaped knife roller and the top seat plate peeling cutterheads on the top seat plate inner arc-shaped knife roller, arc-shaped structures are formed between the base plate peeling cutterheads on the base plate inner arc-shaped knife roller and the top seat plate peeling cutterheads on the top seat plate inner arc-shaped knife roller, and meanwhile, side-placing gaps exist between the cable peeling limiting clamping structures through the pushing of the base plate bottom springs and the base plate top springs, so that the cable peeling side-placing during hanging type wiring operation is facilitated. When the peeling device is used, the driving motor drives the arc-shaped knife roller in the base plate to rotate, and the advancing displacement of the peeling device on a cable is realized. At this time, the self-rotation of the top seat plate transverse shaft rod is realized through the engagement of the second bevel gear and the first bevel gear and the engagement of the third bevel gear and the fourth bevel gear. The self-adaptive pushing slide rod slides in a guide circular rail pipe of the jacking plate in a reciprocating mode, the self-adaptive pushing gear pushes the gear to be meshed with the self-adaptive pushing advancing teeth, the self-adaptive pushing slide rod is advanced, further, the advancing of the expanding push plate is realized, in an initial state of the device, the expanding push plate is located between the tops of the two groups of cable milling leather limiting assemblies, in an initial state, the two groups of cables at the bottoms of the two groups of cable milling leather limiting assemblies are peeled and milled and opened, when the expanding push plate advances automatically, the expanding push plate removes control over the tops of the two groups of cable milling leather limiting assemblies, under the action of a jacking spring of the jacking plate, the two groups of cables at the bottoms of the two groups of cable milling leather limiting assemblies are peeled and milled and closed, a leather milling structure for the cables is formed between the two groups of closed cables, and the leather milling processing of the leather structure is realized through the advancing of the integral device. The invention relates to an improvement on the traditional spiral type, and a rolling-away pre-cutting and skin milling treatment mode is adopted, so that the problem that the subsequent wiring operation is influenced by the blockage during skin stripping in the prior art can be well solved. Has good practical value.

Drawings

Fig. 1 is an overall perspective view of a cable stripping device of the integrated insulated wire connection device of the present invention;

FIG. 2 is a partial perspective view of one of the cable stripping devices of the integrated insulated conductor assembly of the present invention;

fig. 3 is a second partial perspective view of the cable stripping device of the integrated insulated wire connection device of the present invention;

FIG. 4 is an exploded view of a partial perspective view of the cable stripping device of the integrated insulated wiring device of the present invention;

fig. 5 is a perspective view of the cable stripping stop base assembly of the present invention;

fig. 6 is a perspective view of the cable stripping limiting top mount assembly of the present invention;

FIG. 7 is a perspective view of the self-adaptive incremental launching assembly of the present invention;

FIG. 8 is a perspective view of a cable skin milling limit assembly and a cable skin stripping and milling assembly of the present invention;

FIG. 9 is a perspective view of a cable mill skin stop assembly of the present invention;

fig. 10 is a perspective view of the cable stripping skin milling assembly of the present invention.

The reference numerals are explained below: 1. an integrated insulated wiring body; 2. a cable stripping limiting base assembly; 201. a U-shaped peeling limit base plate; 202. the base plate rotating shaft lever; 203. the arc-shaped knife roll is arranged in the base plate; 204. a peeling cutter head of the base plate; 205. a drive motor; 206. a base plate chassis; 207. the base plate guides the slide bar; 208. a base plate top plate; 209. a base plate bottom spring; 210. a base plate top spring; 3. a cable stripping limiting top seat assembly; 301. a U-shaped peeling limit jacking plate; 302. the top seat plate rotates the shaft lever; 303. a first bevel gear; 304. an arc-shaped knife roll is arranged in the top seat plate; 305. a peeling cutter head of the top seat plate; 306. a top seat plate vertical shaft rod; 307. a third bevel gear; 308. a second bevel gear; 309. the vertical plate is fixed on the top seat plate; 310. a top seat plate transverse shaft rod; 311. a self-adapting push gear; 312. a fourth bevel gear; 313. the spring is tensioned by the top seat plate; 314. the top seat plate supports the supporting rod; 315. the top seat plate is guided to the circular rail pipe; 316. the top seat board is connected with the supporting rod; 317. the supporting rod pushes the disc; 318. the jacking plate tightly props the spring; 319. a top deck pin shaft; 320. a top seat plate side plate; 321. a side plate sliding hole of the top seat plate; 4. a self-adapting pushing assembly; 401. self-adaptive pushing sliding rods; 402. self-adaptive pushing advancing teeth; 403. an expanding push plate; 5. a cable skin milling limiting component; 501. milling a skin rotating shaft tube; 502. milling a leather supporting rod; 503. milling a leather and tightly pushing a bottom vertical plate; 504. milling a skin and tightly jacking a vertical plate; 505. milling a vertical plate guide sliding hole of the leather bottom; 506. milling a vertical guide groove of a leather top vertical plate; 6. peeling and milling a skin assembly of the cable; 601. an arc-shaped cable peeling milling cutter; 602. pushing the slide rod by the milling cutter; 603. pushing a spring by the milling cutter; 604. a milling cutter limiting ball head; 7. an auxiliary support arm.

Detailed Description

The embodiments of the present disclosure are described in detail below with reference to the accompanying drawings.

The embodiments of the present disclosure are described below with specific examples, and other advantages and effects of the present disclosure will be readily apparent to those skilled in the art from the disclosure in the specification. It is to be understood that the described embodiments are merely illustrative of some, and not restrictive, of the embodiments of the disclosure. The disclosure may be embodied or carried out in various other specific embodiments, and various modifications and changes may be made in the details within the description without departing from the spirit of the disclosure. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without inventive step, are intended to be within the scope of the present disclosure.

Example one

The cable peeling device of the integrated insulating wiring device comprises an integrated insulating wiring body 1, wherein a cable peeling limiting base assembly 2 is arranged on one side of the top of the integrated insulating wiring body 1, a cable peeling limiting top seat assembly 3 is arranged right above the cable peeling limiting base assembly 2, a self-adaptive pushing assembly 4 is arranged on the top of the cable peeling limiting top seat assembly 3 in a tensioning and sliding mode, two groups of cable skin milling limiting assemblies 5 are rotatably arranged at an operation position at the front end of the cable peeling limiting top seat assembly 3, and the two groups of cable skin milling limiting assemblies 5 are of a cross structure. The bottom of the cable skin milling limiting assembly 5 is pushed and pushed to be provided with a cable skin milling assembly 6. The cable peeling limiting base assembly 2 and the cable peeling limiting top base assembly 3 form a cable peeling limiting clamping structure, and the cable peeling milling assembly 6 is corresponding to the cable peeling limiting clamping structure. The one end that spacing base subassembly 2 was skinned to the cable and the one end that spacing footstock subassembly 3 was skinned to the cable pass through auxiliary support arm 7 elastic connection, and there is the side to put the clearance the other end that spacing base subassembly 2 was skinned to the cable and the other end that spacing footstock subassembly 3 was skinned to the cable, and the side of skinning when making things convenient for the formula of hanging wiring operation is put.

Further, the cable peeling limiting base assembly 2 comprises a U-shaped peeling limiting base plate 201, two side walls of the U-shaped peeling limiting base plate 201 are rotated to be connected with a base plate rotating shaft rod 202, and a side wall outer side of the U-shaped peeling limiting base plate 201 is provided with a driving motor 205 for driving the base plate rotating shaft rod 202 to rotate. The base plate rotating shaft rod 202 is fixedly provided with a base plate inner arc knife roller 203, and the base plate inner arc knife roller 203 is fixedly provided with a plurality of base plate peeling cutterheads 204. A base plate chassis 206 and a base plate guide slide bar 207 are fixedly arranged at the top of one side wall of the U-shaped peeling limit base plate 201, a base plate top plate 208 is fixedly arranged at the top of the base plate guide slide bar 207, and a base plate bottom spring 209 and a base plate top spring 210 are sleeved on the base plate guide slide bar 207.

Further, cable is skinned spacing footstock subassembly 3 includes that the U type is skinned spacing footstock board 301, and two lateral walls that the U type was skinned spacing footstock board 301 rotate and connect footstock board rotating shaft 302, and fixed arc knife roll 304 and the first bevel gear 303 in being provided with the footstock board on the footstock board rotating shaft 302, and fixed being provided with a plurality of footstock board blade disc 305 of skinning on the arc knife roll 304 in the footstock board, the U type is skinned spacing footstock board 301 roof and is run through and set up rotatable footstock board vertical axis pole 306. The top and bottom of the top seat plate vertical shaft rod 306 are respectively and fixedly provided with a third cone gear 307 and a second cone gear 308. Second bevel gear 308 is meshed with first bevel gear 303. The U-shaped peeling limiting top seat plate 301 is provided with two top seat plate fixing vertical plates 309 fixedly connected with the U-shaped peeling limiting top seat plate 301, a top seat plate transverse shaft rod 310 is rotatably arranged between the two top seat plate fixing vertical plates 309, one end of the top seat plate transverse shaft rod 310 is fixedly provided with a fourth conical gear 312, and the middle of the top seat plate transverse shaft rod is fixedly provided with a self-adaptive pushing gear 311. The fourth bevel gear 312 is meshed with the third bevel gear 307. The U-shaped peeling limiting top seat plate 301 is fixedly provided with a top seat plate guiding circular rail pipe 315 on the top wall, the top seat plate guiding circular rail pipe 315 is located between two top seat plate fixing vertical plates 309, and a top seat plate tensioning spring 313 is arranged inside the top seat plate guiding circular rail pipe 315. U type is skinned spacing ejector plate 301 roof lower part and is set up ejector plate joint support pole 316, ejector plate joint support pole 316's both ends are all fixed and are provided with ejector plate top push tray 317, and ejector plate joint support pole 316's both ends all overlap and be equipped with ejector plate top tension spring 318 between ejector plate top push tray 317, ejector plate direction circular rail pipe 315's bottom is fixed and is provided with ejector plate support branch 314, ejector plate support branch 314's bottom is fixed and is provided with ejector plate axle pin pole 319, U type is skinned the fixed ejector plate side dish 320 that is provided with in bottom of spacing ejector plate 301 lateral wall, ejector plate side dish 320 center sets up ejector plate side dish slide opening 321. The U-shaped peeling limit top seat plate 301 is sleeved on the base plate guide slide rod 207 through the top seat plate side disc slide hole 321 and is positioned between the base plate bottom spring 209 and the base plate top spring 210.

Further, the self-adaptive pushing assembly 4 includes a self-adaptive pushing slide bar 401, and two ends of the self-adaptive pushing slide bar 401 are respectively and fixedly provided with a self-adaptive pushing forward tooth 402 and an expanding push plate 403. The self-adaptive pushing advancing tooth 402 is meshed with the self-adaptive pushing gear 311.

Further, the middle part that the cable mills the spacing subassembly 5 of skin sets up and mills skin rotation central siphon 501, mills skin rotation central siphon 501 and mills the spacing subassembly 5 of skin with the cable and divide into two parts: a skin-milling jacking bottom vertical plate 503 and a skin-milling jacking vertical plate 504 are tightly pressed, and a skin-milling rotating shaft tube 501 is fixedly connected with the skin-milling jacking bottom vertical plate 503 and the skin-milling jacking vertical plate 504 through skin-milling supporting rods 502 respectively. The end, away from the skin-milling rotating shaft tube 501, of the skin-milling top tight bottom vertical plate 503 is provided with a skin-milling bottom vertical plate guiding sliding hole 505, and a skin-milling top vertical plate guiding vertical groove 506 is formed in the skin-milling top tight top vertical plate 504. The two groups of cable milling limiting assemblies 5 are respectively connected to the top bedplate shaft pin rod 319 in a rotating mode through milling rotating shaft tubes 501 in a crossed mode. The vertical guide grooves 506 of the milling top vertical plates of the two groups of cable milling limiting assemblies 5 are slidably sleeved on the top seat plate connecting support rods 316 and are positioned between the two top seat plate jacking springs 318. The space between the skin milling and abutting bottom vertical plates 503 of the two groups of cable skin milling limiting assemblies 5 is used for placing the expansion push plate 403.

Further, the cable peeling and skin milling assembly 6 includes two arc-shaped cable peeling and milling cutters 601, a milling cutter pushing slide rod 602 is fixedly disposed on the outer side of the arc-shaped cable peeling and milling cutter 601, a milling cutter limiting ball head 604 is fixedly disposed at one end, away from the arc-shaped cable peeling and milling cutter 601, of the milling cutter pushing slide rod 602, and a milling cutter pushing spring 603 is sleeved on the milling cutter pushing slide rod 602. The two groups of cable skin-milling limiting assemblies 5 are respectively sleeved on the milling cutter pushing slide rod 602 in a sliding manner through a skin-milling bottom vertical plate guide slide hole 505 and are positioned between the milling cutter pushing spring 603 and the milling cutter limiting ball head 604.

Further, the cable is skinned spacing base subassembly 2 and the cable is skinned spacing footstock subassembly 3 with the same side rotation and is provided with auxiliary support arm 7, auxiliary support arm 7's top is skinned a lateral wall rotation of spacing footstock board 301 through pivot and shaft hole and U type and is connected, auxiliary support arm 7's bottom is skinned a lateral wall rotation of spacing bed plate 201 through pivot and shaft hole and U type and is connected.

In this embodiment, the self-adaptive pushing sliding rod 401 slides back and forth in the top plate guiding circular rail tube 315, and the self-adaptive pushing gear 311 is engaged with the self-adaptive pushing forward tooth 402.

In this embodiment, the self-adaptive pushing sliding rod 401 naturally draws the rear end of the guide circular rail tube 315 of the top seat plate toward the rear end of the top seat plate by tensioning the top seat plate tensioning spring 313.

In this embodiment, the skin-milling rotating shaft tube 501 on the two sets of cable skin-milling limiting assemblies 5 rotates on the top seat plate shaft pin rod 319, the top seat plate connecting support rod 316 runs through with the skin-milling top vertical plate guiding vertical groove 506 through milling, and two ends of the top seat plate jacking spring 318 respectively abut against the skin-milling top vertical plate 504 and the support rod jacking disc 317.

In this embodiment, the two ends of the base plate bottom spring 209 abut against the base plate bottom plate 206 and the top plate side plate 320, respectively, and the two ends of the base plate top spring 210 abut against the base plate top plate 208 and the top plate side plate 320, respectively.

In this embodiment, a cable peeling limiting and clamping structure is formed between the base plate peeling cutter disc 204 and the top seat plate peeling cutter disc 305, and the plurality of base plate peeling cutter discs 204 and the plurality of top seat plate peeling cutter discs 305 gradually increase in size from the center to both ends, so that an arc-shaped cable peeling limiting and clamping structure is formed.

In this embodiment, when the expanding push plate 403 on the self-adaptive pushing assembly 4 pushes forward, the expanding push plate 403 abuts between the two vertical plates 503 tightly pushing the bottom of the milling skin, and the top and the bottom of the two sets of cable milling skin limiting assemblies 5 form a diverging structure.

The integrated insulated wiring body 1 of the invention is a known technology which is widely applied and used in daily life and is disclosed, and the model number is LR-JCWD-1001.

The working principle and the using process of the invention are as follows: when the invention is used, a cable peeling limiting and clamping structure is formed between the base plate peeling cutterhead 204 on the base plate inner arc-shaped knife roller 203 and the top seat plate peeling cutterhead 305 on the top seat plate inner arc-shaped knife roller 304, arc-shaped structures are formed between the base plate peeling cutterhead 204 on the base plate inner arc-shaped knife roller 203 and the top seat plate peeling cutterhead 305 on the top seat plate inner arc-shaped knife roller 304, meanwhile, a side release gap is formed between the cable peeling limiting and clamping structures through the pushing of the base plate bottom spring 209 and the base plate top spring 210, the cable peeling side release during hanging type wiring operation is convenient, when the invention is used, the driving motor 205 drives the rotation of the base plate inner arc-shaped knife roller 203 to realize the advancing displacement of a peeling device on a cable, at the moment, the second cone-shaped gear 308 is meshed with the first cone-shaped gear 303, and the third cone-shaped gear 307 is meshed with the fourth cone-shaped gear 312, the self-rotation of the transverse shaft rod 310 of the top seat plate is realized, and the self-adaptive pushing slide rod 401 slides in the guide circular rail pipe 315 of the top seat plate in a reciprocating manner, so that the self-adaptive pushing gear 311 is meshed with the self-adaptive pushing advancing gear 402, the forward advancing of the self-adaptive pushing slide rod 401 is realized, and the advancing of the expanding push plate 403 is further realized. In the initial state of the device, the expanding push plate 403 is located between the tops of the two groups of cable skin milling limiting assemblies 5. Under initial state, two sets of cables at the bottom of the two sets of cable milling limiting assemblies 5 are peeled and milled by the skin milling assemblies 6 and are forked, and the jacking plate is compressed to jack the spring 318. When the extension push pedal 403 advances, the extension push pedal 403 relieves the control over the top of the two sets of cable skin milling limiting assemblies 5, under the action of the jacking plate jacking spring 318, the two sets of cables skin milling limiting assemblies 5 are peeled and the skin milling assemblies 6 are closed, the two sets of closed cables skin and the skin milling assemblies 6 form a skin milling structure for the cables, and the skin milling processing of the skin milling structure is realized through the advancing of the integral device. In the invention, the outer skin is pre-cut in a rolling way by the base plate peeling cutter disc 204 and the top seat plate peeling cutter disc 305, and the two arc-shaped cable peeling cutters 601 mill the outer skin. As another embodiment of the present invention, the top seat plate supporting rod 314 may be disposed on the driving motor, and the circumferential peeling process of the cable between the two groups of closed cable peeling and skin milling assemblies 6 is realized through the bidirectional swing of the driving motor.

In the description of the present invention, it is to be understood that the terms "intermediate", "length", "upper", "lower", "front", "rear", "vertical", "horizontal", "inner", "outer", "radial", "circumferential", and the like, indicate orientations and positional relationships that are based on the orientations and positional relationships shown in the drawings, are used for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the first feature may be "on" the second feature in direct contact with the second feature, or the first and second features may be in indirect contact via an intermediate. "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise explicitly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being permanently connected, detachably connected, or integral; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The above description is for the purpose of illustrating embodiments of the invention and is not intended to limit the invention, and it will be apparent to those skilled in the art that any modification, equivalent replacement, or improvement made without departing from the spirit and principle of the invention shall fall within the protection scope of the invention.

Claims

1. The cable peeling device of the integrated insulating wiring device is characterized by comprising an integrated insulating wiring body (1) and an auxiliary supporting arm (7), wherein a cable peeling limiting base component (2) is arranged on one side of the top of the integrated insulating wiring body (1), a cable peeling limiting top seat component (3) is arranged right above the cable peeling limiting base component (2), a self-adaptive pushing component (4) is arranged on the top of the cable peeling limiting top seat component (3) in a tensioning and sliding mode, two groups of cable skin milling limiting components (5) are arranged at the operating position of the front end of the cable peeling limiting top seat component (3) in a rotating mode, and the two groups of cable skin milling limiting components (5) are of a cross structure; a cable peeling and skin milling component (6) is arranged at the bottom of the cable skin milling limiting component (5) in a pushing mode; a cable peeling limiting clamping structure is formed between the cable peeling limiting base component (2) and the cable peeling limiting top seat component (3), and the position of the cable peeling milling component (6) corresponds to the cable peeling limiting clamping structure; one end of the cable peeling limiting base assembly (2) and one end of the cable peeling limiting top seat assembly (3) are connected through the auxiliary supporting arm (7) in an elastic mode, and the other end of the cable peeling limiting base assembly (2) and the other end of the cable peeling limiting top seat assembly (3) are laterally placed in a gap.

2. The cable peeling device of the integrated insulated wiring device as claimed in claim 1, wherein the cable peeling limiting base assembly (2) comprises a U-shaped peeling limiting base plate (201), two side walls of the U-shaped peeling limiting base plate (201) are rotatably connected with a base plate rotating shaft rod (202), and a driving motor (205) for driving the base plate rotating shaft rod (202) to rotate is arranged outside one side wall of the U-shaped peeling limiting base plate (201); the base plate rotating shaft lever (202) is fixedly provided with a base plate inner arc knife roller (203), and the base plate inner arc knife roller (203) is fixedly provided with a plurality of base plate peeling cutterheads (204); a base plate chassis (206) and a base plate guide sliding rod (207) are fixedly arranged at the top of one side wall of the U-shaped peeling limiting base plate (201), a base plate top plate (208) is fixedly arranged at the top of the base plate guide sliding rod (207), and a base plate bottom spring (209) and a base plate top spring (210) are sleeved on the base plate guide sliding rod (207).

3. The cable peeling device of the integrated insulated wiring device as claimed in claim 2, wherein the cable peeling limiting top seat assembly (3) comprises a U-shaped peeling limiting top seat plate (301), two side walls of the U-shaped peeling limiting top seat plate (301) are rotatably connected with a top seat plate rotating shaft rod (302), and a top seat plate inner arc knife roller (304) and a first cone gear (303) are fixedly arranged on the top seat plate rotating shaft rod (302); a plurality of top seat plate peeling cutterheads (305) are fixedly arranged on the top seat plate inner arc-shaped knife roller (304), and a rotatable top seat plate vertical shaft rod (306) penetrates through the top wall of the U-shaped peeling limiting top seat plate (301); the top and the bottom of the vertical shaft rod (306) of the top seat plate are respectively and fixedly provided with a third bevel gear (307) and a second bevel gear (308); the second bevel gear (308) is meshed with the first bevel gear (303); two top seat plate fixing vertical plates (309) fixedly connected with the U-shaped peeling limiting top seat plate (301) are arranged on the U-shaped peeling limiting top seat plate (301), a top seat plate transverse shaft rod (310) is rotatably arranged between the two top seat plate fixing vertical plates (309), a fourth conical gear (312) is fixedly arranged at one end of the top seat plate transverse shaft rod (310), and a self-adaptive pushing gear (311) is fixedly arranged in the middle of the top seat plate transverse shaft rod; the fourth bevel gear (312) is meshed with the third bevel gear (307); a top seat plate guide circular rail pipe (315) is fixedly arranged at the upper part of the top wall of the U-shaped peeling limit top seat plate (301), the top seat plate guide circular rail pipe (315) is positioned between two top seat plate fixed vertical plates (309), and a top seat plate tensioning spring (313) is arranged in the top seat plate guide circular rail pipe (315); the lower part of the top wall of the U-shaped peeling limiting top seat plate (301) is provided with a top seat plate connecting support rod (316), two ends of the top seat plate connecting support rod (316) are respectively and fixedly provided with a support rod pushing disc (317), the two ends of the top seat plate connecting support rod (316) and a top seat plate jacking spring (318) are respectively sleeved between the support rod pushing discs (317), the bottom of a guide circular rail pipe (315) of the top seat plate is fixedly provided with a top seat plate supporting rod (314), the bottom of the top seat plate supporting rod (314) is fixedly provided with a top seat plate shaft pin rod (319), the bottom of one side wall of the U-shaped peeling limiting top seat plate (301) is fixedly provided with a top seat plate side disc (320), and the center of the top seat plate side disc (320) is provided with a top seat plate side disc sliding hole (321); the U-shaped peeling limit top seat plate (301) is sleeved on the base plate guide sliding rod (207) through the top seat plate side disc sliding hole (321) and is positioned between the base plate bottom spring (209) and the base plate top spring (210).

4. The cable stripping device of the integrated insulated wiring device according to claim 3, wherein the self-adaptive pushing assembly (4) comprises a self-adaptive pushing slide rod (401), and a self-adaptive pushing advancing tooth (402) and an expanding push plate (403) are fixedly arranged at two ends of the self-adaptive pushing slide rod (401) respectively; the self-adaptive pushing forward tooth (402) is meshed with the self-adaptive pushing gear (311).

5. The cable peeling device of the integrated insulated wiring device as claimed in claim 4, wherein a sheath milling rotating shaft tube (501) is arranged in the middle of the cable sheath milling limiting component (5), and the sheath milling rotating shaft tube (501) divides the cable sheath milling limiting component (5) into two parts: a skin-milling jacking bottom vertical plate (503) and a skin-milling jacking vertical plate (504) are tightly pressed, and a skin-milling rotating shaft tube (501) is fixedly connected with the skin-milling jacking bottom vertical plate (503) and the skin-milling jacking vertical plate (504) through skin-milling supporting rods 502 respectively; a leather-milling bottom vertical plate guiding sliding hole (505) is formed in one end, away from the leather-milling rotating shaft tube (501), of the leather-milling top vertical plate (503), and a leather-milling top vertical plate guiding vertical groove (506) is formed in the leather-milling top vertical plate (504); the two groups of cable milling limiting assemblies (5) are respectively and rotatably connected to a top bedplate shaft pin rod (319) through a milling rotary shaft tube (501) and are of a cross structure; the milling skin top vertical plate guide grooves (506) of the two groups of cable milling skin limiting assemblies (5) are sleeved on the top seat plate connecting support rods (316) in a sliding mode and are located between two top seat plate jacking springs (318); the space between the milling leather top tight bottom vertical plates (503) of the two groups of cable milling leather limiting assemblies (5) is used for placing an expansion push plate (403).

6. The cable peeling device of the integrated insulated wiring device as claimed in claim 5, wherein the cable peeling and skin milling assembly (6) comprises two arc-shaped cable peeling and milling cutters (601), a milling cutter pushing slide rod (602) is fixedly arranged on the outer side of the arc-shaped cable peeling and milling cutters (601), a milling cutter limiting ball head (604) is fixedly arranged at one end of the milling cutter pushing slide rod (602) far away from the arc-shaped cable peeling and milling cutters (601), and a milling cutter pushing spring (603) is sleeved on the milling cutter pushing slide rod (602); the two groups of cable leather-milling limiting assemblies (5) are respectively sleeved on the milling cutter pushing sliding rod (602) in a sliding manner through a leather-milling bottom vertical plate guiding sliding hole (505) and are positioned between the milling cutter pushing spring (603) and the milling cutter limiting ball head (604).

7. The cable stripping device of the integrated insulated wiring device as claimed in claim 3, wherein the top end of the auxiliary supporting arm (7) is rotatably connected with one side wall of the U-shaped stripping limiting top seat plate (301) through a shaft pin and a shaft hole, and the bottom end of the auxiliary supporting arm (7) is rotatably connected with one side wall of the U-shaped stripping limiting base plate (201) through a shaft pin and a shaft hole.

8. The cable peeling device of the integrated insulated wiring device as claimed in claim 3, wherein a cable peeling limiting clamping structure is formed between the base plate peeling cutterhead (204) and the top seat plate peeling cutterhead (305), and the sizes of a plurality of base plate peeling cutterheads (204) arranged together and a plurality of top seat plate peeling cutterheads (305) arranged together are gradually increased from the arrangement center to two ends to form an arc-shaped cable peeling limiting clamping structure.

9. The cable stripping device of the integrated insulated wiring device according to claim 5, wherein when the expanding push plate (403) on the self-adaptive pushing component (4) is pushed forward, the expanding push plate (403) abuts between two milling-skin pushing bottom risers (503), and the top and the bottom of the two sets of cable milling-skin limiting components (5) form a diverging structure.

10. The cable stripping device of the integrated insulated wiring device as claimed in claim 3, wherein the top seat plate supporting rod (314) is arranged on a driving motor, and circumferential stripping processing of the cable between the two closed cable stripping and skin milling assemblies (6) is realized through bidirectional swinging of the driving motor.