CN109004582B

CN109004582B - Longitudinal and transverse cutter type insulating stripper

Info

Publication number: CN109004582B
Application number: CN201810719380.2A
Authority: CN
Inventors: 孙华忠; 李金宝; 张金良; 张凯; 辛洪杰; 乔丕凡; 陈增顺; 张兆慧; 刘炳仁; 李国强; 于金亮; 毕盛伟; 尹磊; 段磊; 赵荣升; 刘一平; 姜颖先; 马献辉; 于欣; 高兴琳
Original assignee: State Grid Corp of China SGCC; Weifang Power Supply Co of State Grid Shandong Electric Power Co Ltd
Current assignee: State Grid Corp of China SGCC; Weifang Power Supply Co of State Grid Shandong Electric Power Co Ltd
Priority date: 2018-07-02
Filing date: 2018-07-02
Publication date: 2020-06-23
Anticipated expiration: 2038-07-02
Also published as: CN109004582A

Abstract

A cross-cutter insulation stripper comprising: lower base, last slide, a plurality of nail of skinning, go up slide actuating mechanism, slide rail, cutting knife I, slide actuating mechanism and two radial cutting mechanism. The upper sliding seat driving mechanism drives the upper sliding seat to move upwards, then a lead to be stripped is inserted into an area between the upper groove and the lower groove, the upper sliding seat driving mechanism drives the upper sliding seat to move downwards, the stripping nail is contacted with the outer surface of the lead, the sliding seat driving mechanism drives the sliding seat to slide along the sliding rail, the cutting knife I cuts an insulating layer of the lead along the axial direction, the two radial cutting mechanisms act to cut the two sides of the insulating layer with the length to be cut along the radial direction in a surrounding manner, after the cutting is finished, the lead is pulled along the axial direction, and the insulating layer at the cutting part is propped by the stripping nail, so the stripped lead can be pulled out of the round hole, and.

Description

Longitudinal and transverse cutter type insulating stripper

Technical Field

The invention relates to the field of electric power construction tools, in particular to a longitudinal and transverse cutter type insulation stripper.

Background

In order to improve the reliability of the line, most of the current distribution networks use a conductor with an insulating layer. In live operation, the insulation layer needs to be peeled off by introducing current to the user. The insulating layer barker used in the operation of the present insulating bucket is operated manually, and the weight of the insulating barker adopted by the operation method of the insulating rod is large, so that the insulating barker and the insulating rod can not be used universally.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a method which is simple to operate and can be used for solving the problems that

The technical scheme adopted by the invention for overcoming the technical problems is as follows:

a cross-cutter insulation stripper comprising:

the upper end of the lower base is provided with a lower groove with a semicircular cross section along the length direction, and the inner wall of the lower groove is provided with a plurality of peeling nails along the axial direction;

the upper sliding seat is positioned at the upper end of the lower base, the lower end of the upper sliding seat is provided with an upper groove with a semicircular cross section along the length direction, and the inner wall of the upper groove is provided with a plurality of peeling nails along the axial direction;

the upper sliding seat driving mechanism drives the upper sliding seat to vertically slide relative to the lower base along the vertical direction, when the upper sliding seat moves to the lowest end and the lower end surface of the upper sliding seat contacts with the upper end surface of the lower base, the upper groove and the lower groove are butted to form a round hole, and the inner diameter of the round hole is larger than the outer diameter of the lead;

the sliding rail is arranged in the lower base along the horizontal direction, and a sliding seat is arranged on the sliding rail in a sliding manner;

the cutting knife I is arranged on the sliding seat, and the knife tip part of the upper end of the cutting knife I is positioned in the lower groove;

the sliding seat driving mechanism is arranged in the lower base and drives the sliding seat to slide along the sliding rail; and

and the two radial cutting mechanisms are respectively positioned at the left end and the right end of the sliding seat, and the radial cutting mechanisms are arranged in the round holes in a surrounding manner and are used for cutting the insulating layer of the wire in the round hole in a surrounding manner along the circumferential direction.

Furthermore, go up slide holder actuating mechanism including vertical guiding hole, the cartridge that sets up on last slide holder in the guiding hole and the lower extreme is fixed in the guide arm on the base and through II vertical rotation screw rods I of installing on the base of bearing, be provided with on the upper slide with I assorted screw holes of screw rod, screw rod I upper end is fit in the screw of upper slide soon.

Further, the slide seat driving mechanism comprises a screw rod II, a bevel gear I, a rotating shaft and a bevel gear II, wherein two ends of the screw rod II are horizontally rotatably installed in the lower base through a bearing I, the bevel gear I is installed on the screw rod II, the rotating shaft is vertically rotatably installed in the lower base through a bearing III, a screw hole matched with the screw rod II is formed in the slide seat, the screw rod II is screwed in the screw hole in the slide seat, a slot matched with an electric wrench is formed in the lower end of the rotating shaft, the bevel gear II is connected with the rotating shaft and the screw rod I through a clutch mechanism, when the bevel gear II moves upwards to be meshed with the bevel gear I, the bevel gear II is in transmission connection with the rotating shaft through the clutch mechanism, when the bevel gear II moves downwards to be not meshed with the bevel gear I, the bevel gear II is disconnected.

Preferably, still including setting up in the fixed block of upper end of upper slide, the top of guide arm is connected with the fixed block, and the top of screw rod I is rotated and is installed in the fixed block.

The radial cutting mechanism comprises a semicircular arc groove I, a semicircular arc groove II, a semicircular gear ring I, a semicircular gear ring II and a gear I, wherein the semicircular arc groove I is arranged in a lower base by taking a round hole axis as a center, the semicircular arc groove II is arranged in an upper sliding seat by taking the round hole axis as the center, the semicircular gear ring I is positioned in the arc groove I, the gear I is arranged on a screw rod I and is meshed with the gear ring I, the gear ring I and the gear ring II are made of magnetic materials with opposite magnetism, the gear ring I and the gear ring II are attracted to form a circular gear, the left side and the right side of the gear ring I and the left side and the right side of the gear ring II are respectively provided with annular grooves along the circumferential direction, two ends of the arc groove I are respectively provided with a pin shaft I inserted into the annular groove of the gear ring I, two ends of.

Furthermore, the clutch mechanism comprises a spline hole arranged at the lower end of the bevel gear II along the axial direction, a shaft head arranged at the upper end of the bevel gear II along the axial direction, an insertion hole arranged at the lower end of the screw rod I along the axial direction, a pin hole III horizontally arranged on the rotating shaft, a pin hole IV horizontally arranged at the lower end of the bevel gear II, a pin hole I horizontally arranged on the shaft head and a pin hole II horizontally arranged on the screw rod I, wherein the upper end of the rotating shaft is coaxially inserted into the spline hole through a spline shaft, the shaft head is coaxially inserted into the insertion hole, when the bevel gear II moves upwards to be meshed with the bevel gear I, the pin hole III is the same as the pin hole IV, the pin shaft is inserted into the pin hole III and the pin hole IV, and when the bevel gear II moves downwards to be.

The invention has the beneficial effects that: the upper sliding seat driving mechanism drives the upper sliding seat to move upwards, then a lead to be stripped is inserted into an area between the upper groove and the lower groove, the upper sliding seat driving mechanism drives the upper sliding seat to move downwards, the stripping nail is contacted with the outer surface of the lead, the sliding seat driving mechanism drives the sliding seat to slide along the sliding rail, the cutting knife I cuts an insulating layer of the lead along the axial direction, the two radial cutting mechanisms act to cut the two sides of the insulating layer with the length to be cut along the radial direction in a surrounding manner, after the cutting is finished, the lead is pulled along the axial direction, and the insulating layer at the cutting part is propped by the stripping nail, so the stripped lead can be pulled out of the round hole, and.

Drawings

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

FIG. 2 is a schematic sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic view of the cross-sectional structure along the line B-B in FIG. 1;

FIG. 4 is a schematic view of a ring gear portion;

in the drawing, 1, a lower base 2, an upper sliding seat 3, a lower groove 4, an upper groove 5, a fixed block 6, a screw I7, a screw II 8, a bearing I9, a sliding rail 10, a sliding seat 11, a cutting knife I12, a peeling nail 13, a gear I14, an arc groove I15, an arc groove II 16, a gear ring I17, a gear ring II 18, a pin shaft I19, a pin shaft II 20, a bevel gear I21, a bevel gear II 22, a cutting knife II 23, a guide rod 24, a guide hole 25, a bearing II 26, an insertion hole 27, a shaft head 28, a spline hole 29, a rotating shaft 30, a bearing III 31, an insertion groove 32, a pin hole I33, a pin hole II 34, a pin hole III 35, a.

Detailed Description

The invention will be further described with reference to fig. 1, fig. 2, fig. 3 and fig. 4.

A cross-cutter insulation stripper comprising: the upper end of the lower base 1 is provided with a lower groove 3 with a semicircular cross section along the length direction, and the inner wall of the lower groove 3 is provided with a plurality of peeling nails 12 along the axial direction; the upper sliding seat 2 is positioned at the upper end of the lower base 1, the lower end of the upper sliding seat is provided with an upper groove 4 with a semicircular cross section along the length direction, and the inner wall of the upper groove 4 is provided with a plurality of peeling nails 12 along the axial direction; the upper sliding seat driving mechanism drives the upper sliding seat 2 to vertically slide relative to the lower base 1, when the upper sliding seat 2 moves to the lowest end and the lower end surface of the upper sliding seat contacts with the upper end surface of the lower base 1, the upper groove 4 and the lower groove 3 are butted to form a circular hole, and the inner diameter of the circular hole is larger than the outer diameter of the lead; the sliding rail 9 is arranged in the lower base 1 along the horizontal direction, and a sliding seat 10 is arranged on the sliding rail 9 in a sliding manner; the cutting knife I11 is arranged on the sliding seat 10, and the knife tip part of the upper end of the cutting knife I11 is positioned in the lower groove 3; the sliding seat driving mechanism is arranged in the lower base 1 and drives the sliding seat 10 to slide along the sliding rail 9; and the two radial cutting mechanisms are respectively positioned at the left end and the right end of the sliding seat 10, and the radial cutting mechanisms are arranged in the circular holes in a surrounding manner and are used for cutting the insulating layer of the lead in the circular hole in a surrounding manner along the circumferential direction. When the wire stripping device is used, the upper sliding seat driving mechanism drives the upper sliding seat 2 to move upwards firstly, then a wire to be stripped is inserted into an area between the upper groove 4 and the lower groove 3, the upper sliding seat driving mechanism drives the upper sliding seat 2 to move downwards, the stripping nail 12 is in contact with the outer surface of the wire, the sliding seat driving mechanism drives the sliding seat 10 to slide along the sliding rail 9, the cutting knife I11 cuts an insulating layer of the wire along the axial direction, two radial cutting mechanisms act to cut the two sides of the insulating layer with the length to be cut along the radial direction in a surrounding manner, after the cutting is completed, the wire is pulled along the axial direction, and the insulating layer at the cutting part is propped by the stripping nail 12, so the stripped wire can be pulled out from.

The upper sliding seat driving mechanism can be of a structure comprising a guide hole 24 vertically arranged on the upper sliding seat 2, a guide rod 23 inserted into the guide hole 24 and with the lower end fixed on the lower base 1, and a screw rod I6 vertically and rotatably arranged on the lower base 1 through a bearing II 25, wherein a screw hole matched with the screw rod I6 is formed in the upper sliding seat 2, and the upper end of the screw rod I6 is screwed in the screw hole of the upper sliding seat 2. When the screw I6 rotates, the screw I drives the upper sliding seat 2 to slide upwards under the guidance of the guide hole 24 through threaded connection, and when the screw I6 rotates reversely, the upper sliding seat 2 slides downwards. Preferably, still including setting up in the fixed block 5 of upper end of upper slide 2, the top of guide arm 23 is connected with fixed block 5, and the top of screw rod I6 is rotated and is installed in fixed block 5, and fixed block 5 plays the fixed effect to guide arm 23 and the fixed effect in I6 upper end of screw rod, prevents that guide arm 23 and I6 atress of screw rod are crooked.

The slide seat driving mechanism can be of a structure comprising a screw II 7 with two ends horizontally rotatably arranged in the lower base 1 through a bearing I8, a bevel gear I20 arranged on the screw II 7, a rotating shaft 29 vertically rotatably arranged in the lower base 1 through a bearing III 30 and a bevel gear II 21, wherein a screw hole matched with the screw II 7 is arranged in the slide seat 10, the screw II 7 is screwed in the screw hole in the slide seat 10, the lower end of the rotating shaft 29 is provided with a slot 31 matched with an electric wrench, the bevel gear II 21 is connected with the rotating shaft 29 and the screw I6 through a clutch mechanism, when the bevel gear II 21 moves upwards and is meshed with the bevel gear I20, the clutch mechanism enables the bevel gear II 21 to be in transmission connection with the rotating shaft 29, the screw I6 is disconnected with the rotating shaft 29, when the bevel gear II 21 moves downwards and is not meshed with the bevel gear I, the clutch mechanism disconnects the bevel gear II 21 from the rotating shaft 29, and the screw I6 is in transmission connection with the rotating shaft 29. The clutch mechanism is used for driving the sliding seat 10 to slide and driving the upper sliding seat 2 to move by utilizing the electric wrench, when the upper sliding seat 2 needs to be driven to move, the bevel gear II 21 moves downwards until the bevel gear II is not meshed with the bevel gear I20, the electric wrench drives the rotating shaft 29 to rotate after being inserted into the rotating shaft 29, and the rotating shaft 29 drives the screw I6 to rotate, so that the upper sliding seat 2 can slide up and down. When the sliding seat 10 needs to be driven to move transversely, the bevel gear II 21 moves upwards to be meshed with the bevel gear I20, and when the electric wrench drives the rotating shaft 29 to rotate, the bevel gear II 21 drives the screw rod II 7 to rotate through the bevel gear I20, so that the sliding seat 10 slides transversely along the sliding rail 9. The clutch mechanism comprises a spline hole 28 arranged at the lower end of the bevel gear II 21 along the axial direction, a shaft head 27 arranged at the upper end of the bevel gear II 21 along the axial direction, a jack 26 arranged at the lower end of the screw I6 along the axial direction, a pin hole III 34 horizontally arranged on the rotating shaft 29, a pin hole IV horizontally arranged at the lower end of the bevel gear II 21, a pin hole I32 horizontally arranged on the shaft head 27 and a pin hole II 33 horizontally arranged on the screw I6, wherein the upper end of the rotating shaft 29 is coaxially inserted into the spline hole 28 through a spline shaft, and the shaft head 27. When the bevel gear II 21 moves upwards to be meshed with the bevel gear I20, the pin hole III 34 is coaxial with the pin hole IV, and the pin shaft 35 is inserted into the pin hole III 34 and the pin hole IV. At the moment, the locking of the position of the bevel gear II 21 is realized, when the rotating shaft 29 rotates, the bevel gear II 21 is driven to rotate through spline connection, so that the screw II 7 is driven, at the moment, the shaft head 27 idles in the jack 26, and the screw I6 cannot rotate. When the bevel gear II 21 moves downwards to be not meshed with the bevel gear I20, the pin hole I32 and the pin hole II 33 are coaxial, and the pin shaft 35 is inserted into the pin hole I32 and the pin hole II 33. The rotating shaft 29 is in transmission connection with the screw I6 through the shaft head 27, so that the screw I6 is driven to rotate.

The radial cutting mechanism can be of a structure comprising a semicircular arc groove I14 which is arranged in the lower base 1 by taking the axis of a circular hole as the center, a semicircular arc groove II 15 which is arranged in the upper sliding seat 2 by taking the axis of the circular hole as the center, a semicircular gear ring I16 which is arranged in the arc groove I14, a semicircular gear ring II 17 which is arranged in the arc groove II 15 and a gear I13 which is arranged on the screw I7 and is meshed with the gear ring I16, wherein the gear ring I16 and the gear ring II 17 are made of magnetic materials with opposite magnetism, the gear ring I16 and the gear ring II 17 form a circular gear after being attracted, the left side and the right side of the gear ring I16 and the gear ring II 17 are respectively provided with an annular groove 36 along the circumferential direction, two ends of the arc groove I14 are respectively provided with a pin shaft I18 which is inserted into the annular groove 36 of the gear ring I16, two ends of the, and a cutting knife II 22 is arranged in the inner hole of the gear ring I16. When the upper sliding seat 2 moves upwards relative to the lower base 1, the gear ring I16 and the gear ring II 17 are separated, two sides of the gear ring I16 are limited through a pin shaft I18 inserted into the annular groove 36 respectively, so that the gear ring I can only rotate in the arc groove I14, two sides of the gear ring II 17 are limited through a pin shaft II 19 inserted into the annular groove 36 respectively, so that the gear ring I can only rotate in the arc groove II 15, when the upper sliding seat 2 is in contact with the lower base 1, the gear ring I16 and the gear ring II 17 are magnetically attracted left and right to form a complete gear, and when the screw II 7 rotates, the gear ring I16 and the gear ring II 17 are driven to rotate through the gear I13, so that when the cutting knife II 22 rotates in the circumferential direction, annular cutting of a conducting wire insulating.

Claims

1. The utility model provides an insulating barker of vertical and horizontal cutter formula which characterized in that includes:

the upper end of the lower base (1) is provided with a lower groove (3) with a semicircular cross section along the length direction, and the inner wall of the lower groove (3) is provided with a plurality of peeling nails (12) along the axial direction;

the upper sliding seat (2) is positioned at the upper end of the lower base (1), the lower end of the upper sliding seat is provided with an upper groove (4) with a semicircular cross section along the length direction, and the inner wall of the upper groove (4) is provided with a plurality of peeling nails (12) along the axial direction;

the upper sliding seat driving mechanism drives the upper sliding seat (2) to vertically slide relative to the lower base (1), when the upper sliding seat (2) moves to the lowest end and the lower end surface of the upper sliding seat contacts with the upper end surface of the lower base (1), the upper groove (4) and the lower groove (3) are butted to form a round hole, and the inner diameter of the round hole is larger than the outer diameter of the lead;

the sliding rail (9) is arranged in the lower base (1) along the horizontal direction, and a sliding seat (10) is arranged on the sliding rail (9) in a sliding manner;

the cutting knife I (11) is arranged on the sliding seat (10), and the tip part of the upper end of the cutting knife I (11) is positioned in the lower groove (3);

the sliding seat driving mechanism is arranged in the lower base (1) and drives the sliding seat (10) to slide along the sliding rail (9); and

the two radial cutting mechanisms are respectively positioned at the left end and the right end of the sliding seat (10), and the radial cutting mechanisms are arranged in the circular holes in a surrounding manner and are used for cutting the insulating layer of the lead in the circular holes in a surrounding manner along the circumferential direction;

the sliding seat driving mechanism comprises a screw II (7) with two ends horizontally rotatably installed in the lower base (1) through a bearing I (8), a bevel gear I (20) installed on the screw II (7), a rotating shaft (29) vertically rotatably installed in the lower base (1) through a bearing III (30) and a bevel gear II (21), a screw hole matched with the screw II (7) is formed in the sliding seat (10), the screw II (7) is screwed in the screw hole in the sliding seat (10), a slot (31) matched with an electric wrench is formed in the lower end of the rotating shaft (29), the bevel gear II (21) is connected with the rotating shaft (29) and the screw I (6) through a clutch mechanism, when the bevel gear II (21) moves upwards to be meshed with the bevel gear I (20), the clutch mechanism enables the bevel gear II (21) to be in transmission connection with the rotating shaft (29), and the screw I (6) is disconnected with the rotating shaft (29), when the bevel gear II (21) moves downwards to be not meshed with the bevel gear I (20), the clutch mechanism enables the bevel gear II (21) to be disconnected with the rotating shaft (29), and the screw rod I (6) is in transmission connection with the rotating shaft (29).

2. The cross-cutter insulation dehider according to claim 1 wherein: go up slide actuating mechanism and include vertical guiding hole (24) that set up on the upper slide (2), cartridge in guiding hole (24) and the lower extreme is fixed in guide arm (23) on base (1) down and install screw rod I (6) on base (1) down through the vertical rotation of bearing II (25), be provided with on upper slide (2) with screw rod I (6) assorted screw, screw rod I (6) upper end is fit in the screw of upper slide (2) soon.

3. The cross-cutter insulation dehider according to claim 2 wherein: the device is characterized by further comprising a fixing block (5) arranged at the upper end of the upper sliding seat (2), the top end of the guide rod (23) is connected with the fixing block (5), and the top end of the screw rod I (6) is rotatably installed in the fixing block (5).

4. The cross-cutter insulation dehider according to claim 1 wherein: the radial cutting mechanism comprises a semicircular arc groove I (14) which is arranged in a lower base (1) by taking a circular hole axis as a center, a semicircular arc groove II (15) which is arranged in an upper sliding seat (2) by taking the circular hole axis as the center, a semicircular gear ring I (16) which is arranged in the arc groove I (14), a semicircular gear ring II (17) which is arranged in the arc groove II (15) and a gear I (13) which is arranged on a screw rod I (7) and is meshed with the gear ring I (16), the gear ring I (16) and the gear ring II (17) are made of magnetic materials with opposite magnetism, the gear ring I (16) and the gear ring II (17) are attracted to form a circular gear, annular grooves (36) are respectively arranged on the left side and the right side of the gear ring I (16) and the right side of the gear ring II (17) along the circumferential direction, pin shafts I (18) inserted into the annular grooves (36) of the gear ring I (16) are, two ends of the arc groove II (15) are respectively provided with a pin shaft II (19) inserted into the annular groove of the gear ring II (17), and a cutting knife II (22) is arranged in the inner hole of the gear ring I (16).

5. The cross-cutter insulation dehider according to claim 1 wherein: the clutch mechanism comprises a spline hole (28) arranged at the lower end of a bevel gear II (21) along the axial direction, a shaft head (27) arranged at the upper end of the bevel gear II (21) along the axial direction, an insertion hole (26) arranged at the lower end of a screw I (6) along the axial direction, a pin hole III (34) horizontally arranged on a rotating shaft (29), a pin hole IV horizontally arranged at the lower end of the bevel gear II (21), a pin hole I (32) horizontally arranged on the shaft head (27) and a pin hole II (33) horizontally arranged on the screw I (6), wherein the upper end of the rotating shaft (29) is coaxially inserted in the spline hole (28) through a spline shaft, the shaft head (27) is coaxially inserted in the insertion hole (26), when the bevel gear II (21) moves upwards to be meshed with the bevel gear I (20), the pin hole III (34) is coaxial with the pin hole IV, and the pin, when the bevel gear II (21) moves downwards to be not meshed with the bevel gear I (20), the pin hole I (32) and the pin hole II (33) are coaxial, and the pin shaft (35) is inserted into the pin hole I (32) and the pin hole II (33).