CN209929869U - Insulating rod type high-voltage insulated wire peeling device - Google Patents

Abstract

The utility model discloses an insulating rod-type high-voltage insulation wire device of skinning, the mould of skinning contains clamp splice, mould lower clamp splice, square inserted block, barker separation blade, two-way screw rod, cylinder poroid clamp mouth and spacing slide bar on the mould, the two-way screw rod is worn to be equipped with at clamp splice middle part under clamp splice and the mould on the mould, and two-way screw rod respectively with the mould on clamp splice and mould under clamp splice screw-thread fit be connected, clamp splice fixedly connected with square inserted block under the mould is passed to two-way screw rod bottom. The utility model discloses a high tension cable device of skinning can adapt to the cable demand of skinning of different line footpaths, need not to change the mould of skinning when the operation of skinning to the cable of different line footpaths, has improved operation personnel's work efficiency greatly, can let operation personnel keep away from the high tension line simultaneously, ensures operation personnel's safety to the at utmost.

Description

Insulating rod type high-voltage insulated wire peeling device

Technical Field

The utility model relates to a live working technical field, in particular to insulating rod-type high-voltage insulation wire device of skinning.

Background

With the continuous development of power technology and the continuous improvement of requirements of social demands on power supply safety and stability, safe operation is more and more important for each power enterprise. When electric power overhauls, usually need cut open the overhead cable epidermis, clear away outer insulating epidermis back inspection inner structure or carry out the wire connection, consequently the staff often need face high altitude live cable operation needs of skinning, and the epidermis of wire is made by hard insulating material, hardly utilizes ordinary stage property to peel off, especially in high altitude live operation, because the restriction of condition, the operational environment is complicated, the degree of difficulty of getting rid of the cable epidermis further increases.

Most of the existing cable strippers in the market adopt a manual cable stripper for stripping, so that the safety of operators is difficult to ensure.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect that exists among the background art, the utility model aims to provide an insulating rod-type high-voltage insulation wire device of skinning.

In order to realize the purpose, the utility model discloses a technical scheme be: the utility model provides an insulating rod-type high-voltage insulation wire device of skinning, includes skinning mould and gyrator, its characterized in that: the peeling mold comprises an upper mold clamping block, a lower mold clamping block, a square insert block, a peeler baffle, a bidirectional screw, a cylindrical hole-shaped clamping opening and a limiting slide rod, wherein the bidirectional screw penetrates through the middle parts of the upper mold clamping block and the lower mold clamping block and is respectively in threaded fit connection with the upper mold clamping block and the lower mold clamping block, and the bottom of the bidirectional screw penetrates through the lower mold clamping block and is fixedly connected with the square insert block;

two semi-cylindrical through grooves which are bilaterally symmetrical are arranged between the upper clamping block and the lower clamping block of the mold, and form a cylindrical hole-shaped clamping opening for clamping a cable;

two sides of the bidirectional screw are respectively provided with a limiting slide rod, the limiting slide rods respectively penetrate through the upper clamping block and the lower clamping block of the die and are fixedly connected with the square insertion block, and the limiting slide rods respectively slide with the upper clamping block and the lower clamping block of the die;

the gyrator comprises a gear transmission case and a bevel gear transmission case, one side of the gear transmission case is connected with a connecting plate through a second bolt, the other side of the connecting plate, relative to the gear transmission case, is fixedly connected with a type insert block, a bolt is inserted in the outer side of the type insert block, a square insert block at the bottom of the peeling mold is inserted in the type insert block, and the type insert block is provided with a jack matched with the bolt for locking;

the other side of the gear transmission box is connected with the bevel gear transmission box through a gear transmission rod.

In the scheme, the bidirectional screw is provided with an upper thread and a lower thread, the bidirectional screw is in threaded fit connection with the upper clamping block of the mold through the upper thread, and the bidirectional screw is in threaded fit connection with the lower clamping block of the mold through the lower thread;

in the scheme, the gear transmission box comprises a left shell and a right shell, and first-shaped openings are formed in the upper parts of the left shell and the right shell;

a profile gear is arranged at the first-shaped opening at the upper part of the right shell, the profile gear is meshed with a gear assembly arranged at the lower part of the right shell, the gear assembly is sleeved on a gear transmission rod, one end of the gear transmission rod extends out of the outer end face of the right shell, and the other end of the gear transmission rod is provided with a cam assembly;

a first cover shell is further arranged on the end face of the outer side of the first-shaped opening of the right shell, and the first cover shell is fixedly connected with the end face of one side, close to the right shell, of the gear;

and a second cover shell is arranged on the outer side end face of the first-shaped opening of the left shell and fixedly connected with the end face of one side, close to the left shell, of the profile gear.

In the above scheme, the gear assembly includes pawl drive rod cover, gear sleeve and hexagon socket head gear, pawl drive rod cover is established on the gear drive rod, the gear sleeve cover is established at pawl drive rod cover, hexagon socket head gear cover is established on the gear sleeve, hexagon socket head gear and type gear intermeshing.

In the scheme, a square step is arranged on the circumference of the middle part of the gear transmission rod, a first flange is sleeved on the gear transmission rod positioned on one side of the square step and abuts against the end face of the inner side of the right shell, a cam assembly is sleeved on the gear transmission rod positioned on the other side of the square step and consists of a one-way bearing and a cam, the one-way bearing is sleeved on the gear transmission rod, and the cam is sleeved on the one-way bearing;

the pawl transmission rod sleeve is sleeved on the square step of the gear transmission rod, a second flange is further sleeved on one end, provided with the cam component, of the gear transmission rod, and the second flange abuts against the end face of the inner side of the left shell.

In the scheme, a groove is formed in the end face of the outer side of the left shell, an arc bevel gear is arranged in the groove, the arc bevel gear is fixedly connected with the left shell, and the gear tooth part of the arc bevel gear protrudes out of the end face of the outer side of the left shell and is meshed with a third bevel gear;

the lower part of left side shell is equipped with the open slot, the open slot communicates with the recess of left side shell outside terminal surface the open slot top is equipped with shape slider, the one end of shape slider supports to support to lean on at the open slot top and inconsistent with the cam of cam pack, and the other end stretches into in the recess of left side shell outside terminal surface to it is inconsistent with the back of circular arc bevel gear the bottom of open slot is equipped with the spring holder, the bottom and the left shell bottom parallel and level of spring holder to through screw and left shell fixed connection be equipped with first spring between spring holder and the shape slider, the one end and the spring holder of first spring offset, and the other end offsets with shape slider.

In the above scheme, the bevel gear transmission case comprises a bevel gear rod, one end of the bevel gear rod extends into the bevel gear shell and is connected with the first bevel gear, and the other end of the bevel gear rod extends out of the bevel gear shell;

a bearing is arranged below the first bevel gear, an inner ring of the bearing is in interference connection with the bevel gear rod, and an outer ring of the bearing is in interference connection with the inner wall of the first counter bore at the bottom of the bevel gear shell;

the gear transmission rod extends out of one end of the right shell of the gear transmission box, extends into the bevel gear shell and is connected with a second bevel gear, and the second bevel gear is meshed with the first bevel gear;

the bevel gear transmission box is also provided with a bevel gear cover plate, and the bevel gear cover plate is sealed with the bevel gear shell.

In the above scheme, be equipped with second type opening on the type gear the open end both sides of second type opening all are equipped with the step type gear buckle has been set up on the open end both sides step of second type opening, type gear buckle one end passes through bolted connection with open end one side step of second type opening, and the other end is established on the cylinder of open end opposite side step of second type opening through the first cylinder pot head on the type gear buckle, the up end of type gear buckle and a side terminal surface parallel and level that the type gear is close to left shell.

In the scheme, a second counter bore is further formed in the joint of the step on one side of the opening end of the second type opening and the type gear buckle screw, a second spring is arranged in the second counter bore, a first bulge and a second bulge are respectively arranged at two ends of the second spring, the first bulge is inserted into a second cylindrical hole formed in the bottom of the second counter bore, the second bulge is inserted into a third cylindrical hole formed in one end of the type gear buckle, one end of the second spring abuts against the bottom end face of the second counter bore, and the other end of the second spring abuts against the end face of the type gear buckle.

In the above scheme, the connecting plate is in a shape, an arc corresponding to the second-shaped opening of the profile gear is arranged on the short side of the connecting plate, the side edge of the connecting plate is fixedly connected with the second cover shell, the profile gear and the first cover shell in sequence through the second bolt, and a fastening nut is further arranged at one end, connected with the first cover shell, of the second bolt.

In the above scheme, the upper thread and the lower thread on the bidirectional screw are reverse threads.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the high-voltage cable peeling device can adapt to the peeling requirements of cables with different wire diameters, and when the peeling operation is carried out on the cables with different wire diameters, a peeling die does not need to be replaced, the operation is convenient, and the peeling efficiency of operators is greatly improved;

(2) adopt the utility model discloses a high tension cable device of skinning can skin under the circumstances that high-pressure overhead line does not have a power failure and overhauls and maintain safety, lets the operation personnel keep away from the high tension line simultaneously, has guaranteed operation personnel's safety to the at utmost.

Drawings

Fig. 1 is an overall schematic view of the high-voltage cable stripping device of the present invention;

FIG. 2 is a schematic view of the peeling mold and the gyrator disassembled;

FIG. 3 is a structural diagram of the gyrator with an insulated crank type torque transmission rod;

FIG. 4 is a block diagram of a stripper blade;

FIG. 5 is a partial exploded view of a gear box I;

FIG. 6 is a partial exploded view of the gear box II;

FIG. 7 is a coupling arrangement of the gear assembly and cam assembly;

FIG. 8 is an exploded view of the gear assembly and cam assembly of FIG. 7;

FIG. 9 is a partial exploded view of the left housing of the gear box of FIG. 6;

FIG. 10 is an exploded view of the left housing of the gear box of FIG. 9;

FIG. 11 is a view showing a coupling structure of the cam member to the left housing;

FIG. 12 is a partial exploded view I of the gear box coupled to the bevel gear box;

FIG. 13 is a second partial exploded view of the gear box coupled to the bevel gear box;

FIG. 14 is a structural view of a C-type gear;

FIG. 15 is an exploded view from one perspective of the C-shaped gear of FIG. 14;

FIG. 16 is an exploded view of the C-shaped gear of FIG. 14 from another perspective;

fig. 17 is a partial exploded view of the gyrator.

In the figure: 1. peeling the mould; 1.1, clamping blocks are arranged on a die; 1.2, a lower clamping block of the die, 1.3 and a square inserting block; 1.4, a stripper blade; 1.41, screw hole grooves; 1.42, a barker blade, 1.43, a first bolt; 1.5, a bidirectional screw; 1.51, screwing; 1.52, lower thread; 1.6, cylindrical hole-shaped clamping openings; 1.7, limiting the sliding rod; 2. a gyrator; 2.1, a gear transmission case; 2.1.1 left shell; 2.1.1a, a groove; 2.1.1b, open slot; 2.1.2, right housing; 2.1.3, a first C-shaped opening; 2.1.4, C-shaped gear; 2.1.4a, a second C-shaped opening; 2.1.4b, a step; 2.1.4c, a second counter bore; 2.1.5, gear assembly; 2.1.5a, a pawl transmission rod sleeve; 2.1.5b, gear sleeve; 2.1.5c, inner hexagonal gear; 2.1.6, a cam assembly; 2.1.6a, a one-way bearing; 2.1.6b, cam; 2.1.7, a first cover shell; 2.1.8, a second lid shell; 2.1.9, arc bevel gear; 2.1.10, an L-shaped sliding block; 2.1.11, spring seats; 2.1.12, a first spring; 2.1.13, C-shaped gear buckle; 2.1.13a, a third cylindrical hole; 2.1.14, a first cylindrical bore; 2.1.15, a cylinder; 2.1.16, a second spring; 2.1.17, a first protrusion; 2.1.18, a second protrusion; 2.2, a bevel gear transmission case; 2.2.1, a bevel gear rod; 2.2.2, bevel gear housing; 2.2.2a, a first counter bore; 2.2.3, a first bevel gear; 2.2.4, a second bevel gear; 2.2.5, a bearing; 2.2.6, bevel gear cover plate; 2.3, a gear transmission rod; 2.3.1, square steps; 2.3.2, a first flange; 2.3.3, a second flange; 3. a connecting plate; 3.1, arc; 3.2, a U-shaped insert block and 3.3; the bolt, 3.4 and the second bolt; 5. And (5) tightening the nut.

Detailed Description

The invention is described in further detail below with reference to the figures and specific embodiments.

As shown in fig. 1-4, for the utility model provides a pair of insulating rod type high-voltage insulated wire stripping device, including stripping mold 1 and gyrator 2, wherein:

the peeling die 1 comprises an upper die clamping block 1.1, a lower die clamping block 1.2, a square insert block 1.3, a peeler baffle 1.4, a bidirectional screw 1.5, a cylindrical hole-shaped clamping opening 1.6 and a limiting slide bar 1.7, wherein the bidirectional screw 1.5 penetrates through the middle parts of the upper die clamping block 1.1 and the lower die clamping block 1.2, the bidirectional screw 1.5 is respectively in threaded fit connection with the upper die clamping block 1.1 and the lower die clamping block 1.2, and the bottom of the bidirectional screw 1.5 penetrates through the lower die clamping block 1.2 and is fixedly connected with the square insert block 1.3;

two semi-cylindrical through grooves which are bilaterally symmetrical are formed between the upper clamping block 1.1 of the die and the lower clamping block 1.2 of the die, cylindrical hole-shaped clamping openings 1.6 for clamping cables are formed by the two semi-cylindrical through grooves, stripper separation blades 1.4 are installed on the left and right sides of the upper end of the upper clamping block 1.1 of the die, screw holes 1.41 of strip-shaped structures are formed in the upper ends of the stripper separation blades 1.4 of the strippers, the screw holes 1.41 are matched with first bolts 1.43 to be connected with the upper clamping block 1.1 of the die, the lower ends of the stripper separation blades 1.4 of the strippers are connected with stripper cutters 1.42, and the stripper cutters 1.42 penetrate through the upper clamping block 1.1 of the die and are positioned in the cylindrical hole-;

two sides of the bidirectional screw 1.5 are respectively provided with a limiting slide bar 1.7, the limiting slide bars 1.7 respectively penetrate through the upper clamping block 1.1 and the lower clamping block 1.2 of the die and are fixedly connected with the square insertion block 1.3, and the limiting slide bars 1.7 respectively slide with the upper clamping block 1.1 and the lower clamping block 1.2 of the die;

the gyrator 2 contains gear transmission case 2.1 and bevel gear transmission case 2.2, gear transmission case 2.1 one side is connected with connecting plate 3 through second bolt 3.4, the relative gear transmission case 2.1 opposite side fixedly connected with U type inserted block 3.2 of connecting plate 3, it is equipped with bolt 3.3 to insert in the U type inserted block 3.2 outside, the square inserted block 1.3 of 1 bottom of mould of skinning is inserted and is located in U type inserted block 3.2, just be equipped with the jack that cooperation bolt 3.3 locked on the U type inserted block 3.2.

The other side of the gear transmission box 2.1 is connected with the bevel gear transmission box 2.2 through a gear transmission rod 2.3.

The two-way screw 1.5 is provided with an upper thread 1.51 and a lower thread 1.52, the two-way screw 1.5 is in thread fit connection with the upper clamping block 1.1 of the die through the upper thread 1.51, and the two-way screw 1.5 is in thread fit connection with the lower clamping block 1.2 of the die through the lower thread 1.52

As shown in fig. 5 and 6, the gear box 2.1 comprises a left housing 2.1.1 and a right housing 2.1.2, and a first C-shaped opening 2.1.3 is arranged at the upper part of each of the left housing 2.1.1 and the right housing 2.1.2;

a C-shaped gear 2.1.4 is arranged at a first C-shaped opening 2.1.3 at the upper part of the right shell 2.1.2, the C-shaped gear 2.1.4 is meshed with a gear assembly 2.1.5 arranged at the lower part of the right shell 2.1.2, the gear assembly 2.1.5 is sleeved on a gear transmission rod 2.3, one end of the gear transmission rod 2.3 extends out of the outer end face of the right shell 2.1.2, and the other end is provided with a cam assembly 2.1.6;

a first cover shell 2.1.7 is further arranged on the end face of the outer side of the first C-shaped opening 2.1.3 of the right shell 2.1.2, and the first cover shell 2.1.7 is fixedly connected with the end face of one side, close to the right shell 2.1.2, of the C-shaped gear 2.1.4;

a second cover shell 2.1.8 is arranged on the outer side end face of the first C-shaped opening 2.1.3 of the left shell 2.1.1, and the second cover shell 2.1.8 is fixedly connected with the end face of one side of the C-shaped gear 2.1.4 close to the left shell 2.1.1.

As shown in fig. 7 and 8, the gear assembly 2.1.5 includes a pawl transmission rod sleeve 2.1.5a, a gear sleeve 2.1.5b and a hexagon socket gear 2.1.5C, the pawl transmission rod sleeve 2.1.5a is sleeved on the gear transmission rod 2.3, the gear sleeve 2.1.5b is sleeved on the pawl transmission rod sleeve 2.1.5a, the hexagon socket gear 2.1.5C is sleeved on the gear sleeve 2.1.5b, and the hexagon socket gear 2.1.5C is engaged with the C-shaped gear 2.1.4.

A square step 2.3.1 is arranged on the circumference of the middle part of the gear transmission rod 2.3, a first flange 2.3.2 is sleeved on the gear transmission rod 2.3 positioned on one side of the square step 2.3.1, the first flange 2.3.2 is abutted against the end surface of the inner side of the right shell 2.1.2, a cam component 2.1.6 is sleeved on the gear transmission rod 2.3 positioned on the other side of the square step 2.3.1, the cam component 2.1.6 consists of a one-way bearing 2.1.6a and a cam 2.1.6b, the one-way bearing 2.1.6a is sleeved on the gear transmission rod 2.3, and the cam 2.1.6b is sleeved on the one-way bearing 2.1.6 a;

the pawl transmission rod sleeve 2.1.5a is sleeved on the square step 2.3.1 of the gear transmission rod 2.3, the second flange 2.3.3 is further sleeved on one end of the gear transmission rod 2.3, which is sleeved with the cam component 2.1.6, and the second flange 2.3.3 is abutted to the end face of the inner side of the left shell 2.1.1.

As shown in fig. 9 to 11, a groove 2.1.1a is provided on the outer end surface of the left housing 2.1.1, a circular arc bevel gear 2.1.9 is provided in the groove 2.1.1a, the circular arc bevel gear 2.1.9 is fixedly connected with the left housing 2.1.1, and the gear tooth part of the circular arc bevel gear 2.1.9 protrudes from the outer end surface of the left housing 2.1.1 and is engaged with the third bevel gear 1.12;

an open slot 2.1.1b is arranged at the lower part of the left shell 2.1.1, the open slot 2.1.1b is communicated with a groove 2.1.1a on the outer side end face of the left shell 2.1.1, an L-shaped slide block 2.1.10 is arranged at the top of the open slot 2.1.1b, one end of the L-shaped slide block 2.1.10 is abutted against the top of the open slot 2.1.1b and is abutted against a cam 2.1.6b of the cam assembly 2.1.6, the other end of the L-shaped slide block 2.1.10 is inserted into the groove 2.1.1a on the outer side end face of the left shell 2.1.1 and is abutted against the back face of a circular arc bevel gear 2.1.9, a spring seat 2.1.11 is arranged at the bottom of the open slot 2.1.1b, the bottom of the spring 2.1.11 is flush with the bottom of the left shell 2.1.1 and is fixedly connected with the left shell 2.1.1 through a screw, a first spring 2.1.12 is arranged between the spring seat 2. 2.1.11 and the L-shaped slide block 2.1.10, and.

As shown in fig. 12 and 13, the bevel gear transmission case 2.2 includes a bevel gear rod 2.2.1, one end of the bevel gear rod 2.2.1 extends into the bevel gear housing 2.2.2 to be connected with the first bevel gear 2.2.3, and the other end extends out of the bevel gear housing 2.2.2;

a bearing 2.2.5 is arranged below the first bevel gear 2.2.3, an inner ring of the bearing 2.2.5 is in interference connection with the bevel gear rod 2.2.1, and an outer ring of the bearing 2.2.5 is in interference connection with the inner wall of a first counter bore 2.2.2a at the bottom of the bevel gear shell 2.2.2;

the gear transmission rod 2.3 extends out of one end of the right shell 2.1.2 of the gear transmission box 2.1, extends into the bevel gear shell 2.2.2 and is connected with a second bevel gear 2.2.4, and the second bevel gear 2.2.4 is meshed with the first bevel gear 2.2.3;

the bevel gear transmission case 2.2 is also provided with a bevel gear cover plate 2.2.6, and the bevel gear cover plate 2.2.6 is sealed with the bevel gear shell 2.2.2.

As shown in fig. 14 to 16, a second C-shaped opening 2.1.4a is provided on the C-shaped gear 2.1.4, steps 2.1.4b are provided on both sides of the open end of the second C-shaped opening 2.1.4a, a C-shaped gear buckle 2.1.13 is provided on the steps 2.1.4b on both sides of the open end of the second C-shaped opening 2.1.4a, one end of the C-shaped gear buckle 2.1.13 is connected with the step 2.1.4b on one side of the open end of the second C-shaped opening 2.1.4a by a screw, the other end is sleeved on the cylinder 2.1.15 on the step 2.1.4b on the other side of the open end of the second C-shaped opening 2.1.4a by a first cylindrical hole 2.1.14 on the C-shaped gear buckle 2.1.13, and the upper end surface of the C-shaped gear buckle 2.1.13 is flush with the end surface of the C-shaped gear 2.1.4 on one side close to the left housing 2.1.1.

A second counter bore 2.1.4C is further arranged at the screw connection position of the step 2.1.4b on one side of the opening end of the second C-shaped opening 2.1.4a and the C-shaped gear buckle 2.1.13, a second spring 2.1.16 is arranged in the second counter bore 2.1.4C, a first protrusion 2.1.17 and a second protrusion 2.1.18 are respectively arranged at two ends of the second spring 2.1.16, the first protrusion 2.1.17 is inserted into the second cylindrical hole 2.1.4d at the bottom of the second counter bore 2.1.4C, the second protrusion 2.1.18 is inserted into the third cylindrical hole 2.1.13a at one end of the C-shaped gear buckle 2.1.13, one end of the second spring 2.1.16 abuts against the end face at the bottom of the second counter bore 2.1.4C, and the other end abuts against the end face of the C-shaped gear buckle 2.1.13.

As shown in fig. 17, the connecting plate 3 is L-shaped, an arc 3.1 corresponding to the second C-shaped opening 2.1.4a of the C-shaped gear 2.1.4 is provided at the short side of the connecting plate 3, the side of the connecting plate 3 is fixedly connected to the second cover shell 2.1.8, the C-shaped gear 2.1.4 and the first cover shell 2.1.7 in sequence by the second bolt 3.4, and a fastening nut 5 is further provided at one end of the second bolt 3.4 connected to the first cover shell 2.1.7.

Wherein, the upper thread 1.51 and the lower thread 1.52 on the bidirectional screw rod 1.5 are opposite threads.

The opposite sides of the upper clamping block 1.1 and the lower clamping block 1.2 of the die are provided with V-shaped grooves 1.13, so that a cable to be peeled can be clamped conveniently.

The utility model discloses a high tension cable device of skinning concrete operation process as follows: before use, the insulating crank type torsion transmission rod is firstly connected with the gyrator 2: the socket knob at the front end of the insulated crank type torsion transmission rod is pulled out, and the socket knob is inserted into a groove in the main body of the peeling gyrator 2 and fixed in the state;

firstly, rotating a bevel gear rod 2.2.1, and driving a gear assembly 2.1.5 to rotate through the meshing transmission of a first bevel gear 2.2.3 and a second bevel gear 2.2.4 so as to drive a C-shaped gear 2.1.4 to rotate, so that a second C-shaped opening 2.1.4a of the C-shaped gear 2.1.4 rotates to a position consistent with an arc 3.1 on a connecting plate 3; then screwing the bidirectional screw rod 1.5 to rotate, so that the upper clamping block 1.1 and the lower clamping block 1.2 of the mold are gradually opened under the action of the upper thread 1.51 and the lower thread 1.52 which are opposite threads; after the upper clamping block 1.1 and the lower clamping block 1.2 of the die are opened, the stripping device of the utility model is hung on the cable to be stripped, the cable passes through the cylindrical hole-shaped clamping opening 1.6, then the bidirectional screw rod 1.5 is rotated by a hook rod (not shown in the figure), the upper clamping block 1.1 and the lower clamping block 1.2 of the die are gradually closed and clamp the cable to be stripped under the action of the upper thread 1.51 and the lower thread 1.52 which are mutually reverse threads, when the cable to be stripped is clamped, a stripper cutter 1.42 is just propped against the cortex of the cable to be stripped, then a gyrator 2 is rotated, then a crank of an insulating crank type torque transmission rod is operated, the stripping die 1 is rotated by 180 degrees, the stripping die 1 and a nut are rotated by a hook head insulating operation rod to close the stripping die 1 through the bidirectional screw rod 1.5, the crank of the insulating crank type torque transmission rod is operated to carry out the stripping operation of the covering layer, when the coating peeling operation is completed, the nut 1/2-1 of the peeling mold 1 is rotated back, and then the coating is cut off by rotating the crank of the insulated crank type torque transmission rod in the direction of peeling the coated layer.

The above is only the embodiment of the present invention, not the scope of the present invention, all of which utilize the equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied in other related technical fields, all of which are included in the same principle in the protection scope of the present invention.

Claims (10)

1. The utility model provides an insulating rod-type high-voltage insulation wire device of skinning, includes skinning mould (1) and gyrator (2), its characterized in that: the peeling die (1) comprises an upper die clamping block (1.1), a lower die clamping block (1.2), a square insert block (1.3), a peeler baffle (1.4), a bidirectional screw (1.5), a cylindrical hole-shaped clamping opening (1.6) and a limiting slide rod (1.7), the bidirectional screw (1.5) penetrates through the middle of the upper die clamping block (1.1) and the lower die clamping block (1.2), the bidirectional screw (1.5) is respectively in threaded fit connection with the upper die clamping block (1.1) and the lower die clamping block (1.2), and the bottom of the bidirectional screw (1.5) penetrates through the lower die clamping block (1.2) and is fixedly connected with the square insert block (1.3);

the cable stripper is characterized in that two semi-cylindrical through grooves which are bilaterally symmetrical are formed between the upper clamping block (1.1) of the mold and the lower clamping block (1.2) of the mold, cylindrical hole-shaped clamping openings (1.6) for clamping cables are formed by the two semi-cylindrical through grooves, stripper separation blades (1.4) are installed on the upper end of the upper clamping block (1.1) of the mold from left to right, threaded grooves (1.41) of strip-shaped structures are formed in the upper ends of the stripper separation blades (1.4), first bolts (1.43) are matched on the threaded grooves (1.41) to be connected with the upper clamping block (1.1) of the mold, a stripper cutter (1.42) is connected to the lower end of the stripper separation blades (1.4), and the stripper cutter (1.42) penetrates through the upper clamping block (1.1) of the mold and is located in the cylindrical hole-shaped clamping openings;

two sides of the bidirectional screw (1.5) are respectively provided with a limiting slide rod (1.7), the limiting slide rods (1.7) respectively penetrate through the upper clamping block (1.1) and the lower clamping block (1.2) of the die and are fixedly connected with the square insertion block (1.3), and the limiting slide rods (1.7) respectively slide with the upper clamping block (1.1) and the lower clamping block (1.2) of the die;

the gyrator (2) comprises a gear transmission case (2.1) and a bevel gear transmission case (2.2), one side of the gear transmission case (2.1) is connected with a connecting plate (3) through a second bolt (3.4), the other side of the connecting plate (3) opposite to the gear transmission case (2.1) is fixedly connected with a U-shaped insert block (3.2), a bolt (3.3) is inserted into the outer side of the U-shaped insert block (3.2), a square insert block (1.3) at the bottom of the peeling mold (1) is inserted into the U-shaped insert block (3.2), and a jack matched with the bolt (3.3) for locking is arranged on the U-shaped insert block (3.2);

the other side of the gear transmission box (2.1) is connected with the bevel gear transmission box (2.2) through a gear transmission rod (2.3).

2. The insulated rod type high-voltage insulated wire stripping device according to claim 1, wherein: be equipped with on two-way screw rod (1.5) and go up screw thread (1.51) and lower screw thread (1.52), last screw thread (1.51) on two-way screw rod (1.5) and lower screw thread (1.52) are reverse screw thread each other, two-way screw rod (1.5) through last screw thread (1.51) with clamp splice (1.1) screw-thread fit connection on the mould, two-way screw rod (1.5) through lower screw thread (1.52) with clamp splice (1.2) screw-thread fit connection under the mould.

3. The insulated rod type high-voltage insulated wire stripping device according to claim 1, wherein the gear box (2.1) comprises a left shell (2.1.1) and a right shell (2.1.2), and a first C-shaped opening (2.1.3) is arranged at the upper part of each of the left shell (2.1.1) and the right shell (2.1.2);

a C-shaped gear (2.1.4) is arranged at a first C-shaped opening (2.1.3) at the upper part of the right shell (2.1.2), the C-shaped gear (2.1.4) is meshed with a gear assembly (2.1.5) arranged at the lower part of the right shell (2.1.2), the gear assembly (2.1.5) is sleeved on a gear transmission rod (2.3), one end of the gear transmission rod (2.3) extends out of the outer side end face of the right shell (2.1.2), and the other end of the gear transmission rod is provided with a cam assembly (2.1.6);

a first cover shell (2.1.7) is further arranged on the end face of the outer side of the first C-shaped opening (2.1.3) of the right shell (2.1.2), and the first cover shell (2.1.7) is fixedly connected with the end face of one side, close to the right shell (2.1.2), of the C-shaped gear (2.1.4);

and a second cover shell (2.1.8) is arranged on the outer side end face of the first C-shaped opening (2.1.3) of the left shell (2.1.1), and the second cover shell (2.1.8) is fixedly connected with the end face of one side, close to the left shell (2.1.1), of the C-shaped gear (2.1.4).

4. The insulating rod type high-voltage insulated wire stripping device according to claim 3, wherein the gear assembly (2.1.5) comprises a pawl transmission rod sleeve (2.1.5a), a gear sleeve (2.1.5b) and an inner hexagonal gear (2.1.5C), the pawl transmission rod sleeve (2.1.5a) is sleeved on the gear transmission rod (2.3), the gear sleeve (2.1.5b) is sleeved on the pawl transmission rod sleeve (2.1.5a), the inner hexagonal gear (2.1.5C) is sleeved on the gear sleeve (2.1.5b), and the inner hexagonal gear (2.1.5C) is meshed with the C-shaped gear (2.1.4).

5. The insulating rod type high-voltage insulated wire stripping device according to claim 1, characterized in that a square step (2.3.1) is arranged on the circumference of the middle part of the gear transmission rod (2.3), a first flange (2.3.2) is sleeved on the gear transmission rod (2.3) positioned on one side of the square step (2.3.1), the first flange (2.3.2) abuts against the end surface of the inner side of the right housing (2.1.2), a cam assembly (2.1.6) is sleeved on the gear transmission rod (2.3) positioned on the other side of the square step (2.3.1), the cam assembly (2.1.6) consists of a one-way bearing (2.1.6a) and a cam (2.1.6b), the one-way bearing (2.1.6a) is sleeved on the gear transmission rod (2.3), and the cam (2.1.6b) is sleeved on the one-way bearing (2.1.6 a);

the square step (2.3.1) of the gear transmission rod (2.3) is sleeved with a pawl transmission rod sleeve (2.1.5a), one end of the gear transmission rod (2.3) sleeved with the cam component (2.1.6) is further sleeved with a second flange (2.3.3), and the second flange (2.3.3) is abutted to the end face of the inner side of the left shell (2.1.1).

6. The insulated rod type high-voltage insulated wire stripping device according to claim 5, wherein a groove (2.1.1a) is formed in the outer end face of the left housing (2.1.1), a circular arc bevel gear (2.1.9) is arranged in the groove (2.1.1a), the circular arc bevel gear (2.1.9) is fixedly connected with the left housing (2.1.1), and the gear teeth of the circular arc bevel gear (2.1.9) partially protrude out of the outer end face of the left housing (2.1.1) and are meshed with the third bevel gear (1.12);

the lower part of the left shell (2.1.1) is provided with an open slot (2.1.1b), the open slot (2.1.1b) is communicated with a groove (2.1.1a) on the outer side end surface of the left shell (2.1.1), the top of the open slot (2.1.1b) is provided with an L-shaped sliding block (2.1.10), one end of the L-shaped sliding block (2.1.10) is abutted against the top of the open slot (2.1.1b) and is abutted against a cam (2.1.6b) of the cam assembly (2.1.6), the other end of the L-shaped sliding block extends into the groove (2.1.1a) on the outer side end surface of the left shell (2.1.1) and is abutted against the back surface of an arc bevel gear (2.1.9), the bottom of the open slot (2.1.1b) is provided with a spring seat (2.1.11), the bottom of the spring seat (2.1.11) is flush with the bottom of the left shell (2.1.1) and is fixedly connected with the left shell (2.1) through a screw (2.1.12), and a first spring seat (461) is arranged between the first spring seat (34) and a first spring seat (3.5), the other end is propped against the L-shaped sliding block (2.1.10).

7. The insulated rod type high-voltage insulated wire stripping device according to claim 1, wherein the bevel gear transmission case (2.2) comprises a bevel gear rod (2.2.1), one end of the bevel gear rod (2.2.1) extends into the bevel gear housing (2.2.2) to be connected with the first bevel gear (2.2.3), and the other end of the bevel gear rod extends out of the bevel gear housing (2.2.2);

a bearing (2.2.5) is arranged below the first bevel gear (2.2.3), the inner ring of the bearing (2.2.5) is in interference connection with the bevel gear rod (2.2.1), and the outer ring of the bearing (2.2.5) is in interference connection with the inner wall of a first counter bore (2.2.2a) at the bottom of the bevel gear shell (2.2.2);

the gear transmission rod (2.3) extends out of one end of the right shell (2.1.2) of the gear transmission box (2.1), extends into the bevel gear shell (2.2.2) and is connected with a second bevel gear (2.2.4), and the second bevel gear (2.2.4) is meshed with the first bevel gear (2.2.3);

the bevel gear transmission box (2.2) is also provided with a bevel gear cover plate (2.2.6), and the bevel gear cover plate (2.2.6) is sealed with the bevel gear shell (2.2.2).

8. The device for stripping insulated rod-type high-voltage insulated wires of claim 3, wherein, a second C-shaped opening (2.1.4a) is arranged on the C-shaped gear (2.1.4), steps (2.1.4b) are arranged on two sides of the opening end of the second C-shaped opening (2.1.4a), c-shaped gear buckles (2.1.13) are lapped on the steps (2.1.4b) at the two sides of the opening end of the second C-shaped opening (2.1.4a), one end of the C-shaped gear buckle (2.1.13) is connected with a step (2.1.4b) at one side of the open end of the second C-shaped opening (2.1.4a) through a screw, the other end of the C-shaped gear buckle is sleeved on a cylinder (2.1.15) of the step (2.1.4b) at the other side of the open end of the second C-shaped opening (2.1.4a) through a first cylindrical hole (2.1.14) on the C-shaped gear buckle (2.1.13), the upper end face of the C-shaped gear buckle (2.1.13) is flush with the end face of one side, close to the left shell (2.1.1), of the C-shaped gear (2.1.4).

9. The insulation rod type high-voltage insulated wire stripping device as claimed in claim 8, wherein a second counter bore (2.1.4C) is further provided at a screw connection position of the step (2.1.4b) on one side of the open end of the second C-shaped opening (2.1.4a) and the C-shaped gear buckle (2.1.13), a second spring (2.1.16) is provided in the second counter bore (2.1.4C), a first protrusion (2.1.17) and a second protrusion (2.1.18) are respectively provided at two ends of the second spring (2.1.16), the first protrusion (2.1.17) is inserted into the second cylindrical hole (2.1.4d) at the bottom of the second counter bore (2.1.4C), the second protrusion (2.1.18) is inserted into the third cylindrical hole (2.1.13a) at one end of the C-shaped gear buckle (2.1.13), one end of the second spring (2.1.16) abuts against the counter bore (2.1.4C), and the other end abuts against the end surface of the C-shaped gear buckle (2.1.13).

10. The insulation rod type high-voltage insulated wire stripping device according to claim 1, wherein the connecting plate (3) is L-shaped, an arc (3.1) corresponding to the second C-shaped opening (2.1.4a) of the C-shaped gear (2.1.4) is arranged on the short side of the connecting plate (3), the side of the connecting plate (3) is fixedly connected with the second cover shell (2.1.8), the C-shaped gear (2.1.4) and the first cover shell (2.1.7) in sequence through a second bolt (3.4), and a fastening nut (5) is further arranged at one end of the second bolt (3.4) connected with the first cover shell (2.1.7).

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