CN108539668B - Electric-manual dual-drive high-voltage wire middle peeling device - Google Patents

Abstract

The invention discloses an electric-manual dual-drive high-voltage wire middle peeling device which comprises an electric transmission mechanism, a manual transmission mechanism, an opening peeling mechanism and a connecting mechanism, wherein the manual transmission mechanism comprises a pair of bevel gears and a manual transmission shaft; the coupling mechanism comprises a coupling shaft and a coupling pinion which are coupled with a vertical bevel gear of the manual transmission mechanism; the motor of the electric transmission mechanism is fixedly arranged on the rack and is connected with the connecting shaft through a pair of straight gears; the outer side of the opening peeling mechanism is provided with a half-open gear which is meshed with the connecting pinion, the inside of the opening peeling mechanism is formed by hinging two half-open hollow shafts, a cutter is arranged inside the half-open hollow shaft, a drag hook is fixedly arranged on the outer side of the half-open hollow shaft, and the drag hook is matched with a hook. The electric-manual double-drive high-voltage wire middle stripping device is convenient to operate and high in efficiency, and is suitable for stripping the outer-layer insulating skins of cables of different types.

Description

Electric-manual dual-drive high-voltage wire middle peeling device

Technical Field

The invention belongs to the field of power equipment tools, and particularly relates to an electric-manual double-drive high-voltage wire middle stripping device for stripping an insulating sheath from the middle part of a high-voltage cable.

Background

The live working of the high-voltage wire is an important condition for testing, overhauling and transforming power equipment, so that the power supply reliability can be effectively improved, the power failure loss is reduced, and the requirements of production and life are met; the high-voltage wire stripper on the current market generally has a plurality of defects: firstly, the structure is complex, the weight or the volume is large, and the high-altitude operation is not facilitated; secondly, the cutting efficiency of the barker is low, and the labor intensity of an operator is high; thirdly, the mechanical movement of the peeler is complex, and the whole aloft work is difficult to be completed by one-man operation; fourthly, the operator is close to the high-voltage cable, and great potential safety hazard exists.

Disclosure of Invention

The invention aims to make up for the defects of the prior art and provides an electric-manual double-drive high-voltage wire middle stripping device which can be manually driven or electrically driven during working and is suitable for stripping outer-layer insulating skins of cables of different types.

The purpose of the invention can be realized by the following technical scheme:

a high-voltage wire middle peeling device driven by electric power and manual power comprises an electric transmission mechanism, a manual transmission mechanism, an opening peeling mechanism and a connecting mechanism;

the manual transmission mechanism comprises a bevel gear rack fixedly arranged on the rack, a manual transmission shaft, a transmission bevel gear I and a transmission bevel gear II; the manual transmission shaft is arranged in a circular hole in the lower end face of the bevel gear carrier, the upper end of the manual transmission shaft is matched with the transmission bevel gear I, the transmission bevel gear I is meshed with the transmission bevel gear II, and the transmission bevel gear II is arranged on the coupling mechanism;

the connecting mechanism comprises a connecting shaft and a connecting pinion fixedly arranged on the connecting shaft, one end of the connecting shaft is fixedly provided with a transmission bevel gear II, the other end of the connecting shaft is fixedly provided with a motor transmission gearwheel, the connecting pinion is arranged between the transmission bevel gear II and the motor transmission gearwheel, and the connecting shaft is respectively connected with the electric transmission mechanism and the expanding peeling mechanism;

the electric transmission mechanism comprises a motor transmission large gear, a motor transmission small gear and an electric motor, wherein the motor transmission large gear is fixedly arranged on the connecting shaft, the electric motor is fixedly arranged on the side wall of the rack, the motor transmission large gear is meshed with the motor transmission small gear, and the motor transmission small gear is arranged on an output shaft of the electric motor;

the opening peeling mechanism comprises a half-opening hollow shaft I, a half-opening hollow shaft II, a half-opening gear I, a half-opening gear II, a half-opening hollow shaft connecting pin, a cutter mounting mold and a matching mold, wherein the half-opening hollow shaft I, the half-opening gear II, the half-opening hollow shaft connecting pin, the cutter mounting mold and the matching mold are arranged on a rack; a complete gear formed by combining the half-open gear I and the half-open gear II is meshed with a connecting pinion on a connecting mechanism, a cutter installing mould is sleeved in the half-opened hollow shaft I, the cutter installing mould is fixed on the end surface of the half-opened hollow shaft I through a fixing screw on the big end, a cutter is arranged in a groove of the cutter installing mould, a matching mould is sleeved in a half-opened hollow shaft II matched with the half-opened hollow shaft I, a draw hook is arranged on one side of the semi-open hollow shaft II relative to the semi-open hollow shaft connecting pin through the draw hook pin, a fixed hook is fixedly arranged on the half-open hollow shaft I, the inner side of the drag hook is matched with the fixed hook, and the outer side of the drag hook is matched with the bent hook, the hook is installed and is locked through lock nut on the hook coupling shaft that the cover has torsional spring III, hook coupling shaft fixed mounting is on the hook mounting bracket, the hook mounting bracket is close to fixed mounting hook dog above hook coupling shaft one side.

Furthermore, one end of the connecting shaft is provided with a transmission bevel gear II, the other end of the connecting shaft is provided with a motor transmission big gear, the electric transmission mechanism and the manual transmission mechanism are connected through the connecting shaft, and the expanding peeling mechanism is connected through a connecting small gear which is arranged on the connecting shaft and is positioned between the transmission bevel gear II and the motor transmission big gear and is meshed with a complete gear which is synthesized by a half-open gear I and a half-open gear II.

Further, the straight end of crotch is installed on the crotch coupling shaft, and is fixed the crotch through the cooperation of lock nut and crotch coupling shaft, the crotch coupling shaft is installed on the crotch mounting bracket through the screw thread hookup the crotch with be equipped with torsional spring III between the cooperation of crotch coupling shaft.

Furthermore, the drag hook passes through the drag hook pin and installs on half division hollow shaft II, be equipped with torsional spring II on the drag hook pin, torsional spring II's one end is taken on the drag hook another and is pasted on half division hollow shaft II's excircle face.

Furthermore, a half-open gear I is mounted at a deep groove on the outer side of the half-open hollow shaft I, a cutter mounting die is mounted in the half-open gear I, one end of the half-open hollow shaft I is mounted on the rack through an end cover, and the other end of the half-open hollow shaft I is fixed on the cutter mounting die through a fixing screw; the semi-open hollow shaft II is provided with a semi-open gear II at the deep groove on the outer side, a pairing mold is arranged in the semi-open gear II, and the pairing mold and the cutter installing mold are paired into a whole.

The invention has the beneficial effects that:

1. the device is additionally provided with the electric transmission mechanism, so that a worker does not need to manually operate in the cutting process, the working efficiency is improved, and the labor intensity of the worker is reduced;

2. the peeling device has the advantages that the loss caused by the fact that the peeling device cannot be taken down due to the failure of the electric transmission mechanism in the cutting process is avoided, and the manual transmission mechanism can be manually driven, so that the peeling device is taken down on the ground.

3. The structure design is simple, the structure is compact, the volume is small, and the carrying is convenient;

4. the operation is simple, the operation is convenient for one person, and the labor efficiency can be improved to a greater extent;

5. the distance between an operator and the high-voltage wire is controllable, and the safety is high.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the electric transmission mechanism.

Fig. 3 is a schematic structural diagram of a manual transmission mechanism.

Fig. 4 is a schematic structural view of the opening peeling mechanism.

Fig. 5 is a schematic view of a rear-side opened partial structure of the peeling mechanism.

Fig. 6 is a front opening partial structure schematic diagram of the opening peeling mechanism.

Fig. 7 is a schematic view of the engagement of the half-open hollow shaft with the hook.

Fig. 8 is a schematic view of a hook mounting coupling.

In the figure: 1. an electric drive mechanism; 2. a manual transmission mechanism; 3. opening the peeling mechanism; 10. a coupling mechanism; 11. a motor drive pinion; 12. the motor drives the bull gear; 13. an electric motor; 21. a transmission bevel gear I; 22. a manual transmission shaft; 23. a transmission bevel gear II; 24. a bevel gear carrier; 30. a half-open gear I; 31. half-opening a hollow shaft I; 32. a half-opened hollow shaft connecting pin; 33. a hook coupling shaft; 34. a hook mounting bracket; 35. a hook block; 36. hooking; 37. installing a cutter die; 38. a hook pin; 39. a frame; 101. a coupling pinion; 102. a coupling shaft; 301. a half-open gear II; 310. half-opening a hollow shaft II; 311. an end cap; 321. a torsion spring I; 331. a torsion spring III; 332. locking the nut; 370. matching the molds; 371. a set screw; 372. a cutter; 381. pulling a hook; 382. a torsion spring II; 383. and (5) fixing the hook.

Detailed Description

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

Referring to fig. 1, 2 and 3, the high-voltage wire middle peeling device driven by electric power and manual power comprises an electric transmission mechanism 1, a manual transmission mechanism 2, an opening peeling mechanism 3 and a connecting mechanism 10.

The electric transmission mechanism 1 is composed of a motor transmission pinion 11, a motor transmission gearwheel 12 and an electric motor 13. The motor 13 is fixedly arranged on the inner side wall of the rack 39, the motor transmission pinion 11 is arranged on an output shaft of the motor 13, when the motor 13 works, the output shaft rotates to drive the motor transmission pinion 11 to rotate, the motor transmission pinion 11 is meshed with the motor transmission gearwheel 12, and the motor transmission gearwheel 12 is arranged on the connecting shaft 102, so that the power of the motor 13 is transmitted to the connecting shaft 102.

The manual transmission mechanism 2 is composed of a transmission bevel gear I21, a manual transmission shaft 22, a transmission bevel gear II23 and a bevel gear frame 24. The bevel gear rack 24 is fixedly arranged on the machine frame 39, a round hole is formed in the middle of the lower plane of the bevel gear rack 24 and used for mounting the manual transmission shaft 22, the transmission bevel gear I21 is mounted at the upper end of the manual transmission shaft 22, the transmission bevel gear I21 is meshed with the transmission bevel gear II23 and forms an included angle of 90 degrees, the transmission bevel gear II23 is mounted on the connecting shaft 102, and when the manual transmission shaft 22 is rotated manually, power on the manual transmission shaft 22 is transmitted to the connecting shaft 102 through the meshing of the transmission bevel gear I21 and the transmission bevel gear II 23.

The coupling mechanism 10 is composed of a coupling pinion 101 and a coupling shaft 102. One end of the coupling shaft 102 is provided with a transmission bevel gear II23, and the other end is provided with a motor transmission large gear 12, so that the electric transmission mechanism 1 and the manual transmission mechanism 2 are coupled, and the power of the electric transmission mechanism 1 and the power of the manual transmission mechanism 2 can be simultaneously transmitted to the coupling shaft 102; the coupling pinion 101 is arranged on the coupling shaft 102 and is positioned between the transmission bevel gear II23 and the motor transmission large gear 12, and the coupling pinion 101 transmits the power on the coupling shaft 102 to the opening peeling mechanism 3 through the engagement of the coupling pinion 101 and the complete gear formed by combining the half-open gear I30 and the half-open gear II 301; thus, the electric drive 1, the manual drive 2 and the opening debarking 3 are coupled together via the coupling 10.

Referring to fig. 4 and 5, the expanding peeling mechanism 3 is composed of a half-open gear I30, a half-open gear II 301, a half-open hollow shaft I31, a half-open hollow shaft II310, a half-open hollow shaft coupling pin 32, a hook coupling shaft 33, a hook mounting bracket 34, a hook stopper 35, a hook 36, a knife mounting mold 37, a pairing mold 370, a hook pin 38, an end cap 311, a knife 372, a hook 381, and a fixing hook 383. The half-open gear I30 is mounted on the outer circular surface of the half-open hollow shaft I31, the half-open hollow shaft I31 is mounted on the rack 39 through an end cover 311, the cutter mounting die 37 is mounted inside the half-open hollow shaft I31, the cutter mounting die 37 is fixedly connected with the half-open hollow shaft I31 through a fixing screw 371 on the large end surface of the half-open hollow shaft I31, a cutter 372 is fixedly mounted at the concave part of the cutter mounting die 37, the half-open gear II 301 is mounted on the outer circular surface of the half-open hollow shaft II310, the matching die 370 is mounted inside the half-open hollow shaft II310, the half-open hollow shaft I31 and the half-open hollow shaft II310 are connected together through a half-open hollow shaft connecting pin 32, a torsion spring I321 is mounted on the half-open hollow shaft connecting pin 32, and the torsion; when the coupling pinion 101 rotates, the cutter 372 rotates synchronously with the half-open gear I30 by the engagement of the coupling pinion 101 with the full gear formed by the combination of the half-open gear I30 and the half-open gear II 301 to rotate the full gear formed by the combination of the half-open gear I30 and the half-open gear II 301.

Referring to fig. 6 and 7, the retractor 381 is mounted on the semi-open hollow shaft II310 on the other side opposite to the semi-open hollow shaft coupling pin 32 by means of a retractor pin 38, and a torsion spring II 382 is mounted on the retractor pin 38, and the torsion spring II 382 ensures that the retractor 381 can be hooked on the fixing hook 383.

Referring to fig. 8, the straight end of the hook 36 has a circular hole, a torsion spring III331 is installed in the circular hole, the hook 36 is installed on the hook coupling shaft 33 together with the torsion spring III331, one end of the hook coupling shaft 33 is fixed on the hook mounting bracket 34, the other end is screwed with the locking nut 332, and the torsion spring III331 makes the hooked end of the hook 36 lean against the semi-open hollow shaft II 310.

The invention discloses a use principle of an electric-manual dual-drive high-voltage wire middle peeling device, which comprises the following steps:

firstly, selecting a cutter mounting die 37 and a matching die 370 with corresponding sizes according to the size of an insulating layer cable to be stripped, fixing the cutter mounting die 37 on a semi-open hollow shaft I31 by using a fixing screw 371, adjusting the position of a cutter 372, then rotating a manual transmission shaft 22 anticlockwise by using a hand, opening a certain angle between the semi-open hollow shaft I31 and the semi-open hollow shaft II310 when a hook 36 hooks a draw hook 381, placing the stripping device on the cable to be stripped to ensure that the cable is in the cutter mounting die 37 and tangent to the cutter mounting die 37 and the inner circular surface when the hook 36 touches a hook stop block 35, and rotating the manual transmission shaft 22 clockwise by using the hand to close the semi-open hollow shaft I31 and the semi-open hollow shaft II 310; when the semi-open hollow shaft I31 and the semi-open hollow shaft II310 are completely closed, the manual transmission shaft 22 stops being manually rotated, the motor 13 is used for power transmission, the switch of the motor 13 is opened, the output shaft of the motor 13 rotates clockwise, the semi-open hollow shaft I31 and the semi-open hollow shaft II310 are combined to integrally rotate clockwise through meshing between gears, the semi-open hollow shaft I31 drives the cutter 372 to do circular motion around the cable, at the moment, the cutter 372 starts to cut the outer skin of the insulating layer of the cable, and the cutter 372 and the axis of the cable form a certain inclination angle, so that the cutter 372 is subjected to the reaction force of the insulating layer of the cable in the cutting process and is directed towards one side of the insulating layer to be cut, and the device can automatically feed towards one side to be; when the required length is cut, a clamp is clamped on the cable in the feeding direction of the device, the device is stopped from being fed continuously, the device is in the original position, the cutter 372 rotates in the original position, and when the cutter 372 rotates for one circle, the insulating layer is cut off; after the insulation layer is cut, the motor 13 is turned off, the manual transmission shaft 22 is rotated counterclockwise by hand to open the half-opened hollow shaft I31 and the half-opened hollow shaft II310, and the device is taken down.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope defined by the claims.

Claims (5)

1. An electric-manual dual-drive high-voltage wire middle peeling device is characterized by comprising an electric transmission mechanism (1), a manual transmission mechanism (2), an opening peeling mechanism (3) and a connecting mechanism (10);

the electric transmission mechanism (1) comprises a motor transmission large gear (12) fixedly arranged on the connecting shaft (102), a motor transmission small gear (11) and an electric motor (13) fixedly arranged on the side wall of the rack (39), the motor transmission large gear (12) is meshed with the motor transmission small gear (11), and the motor transmission small gear (11) is arranged on an output shaft of the electric motor (13);

the manual transmission mechanism (2) comprises a bevel gear rack (24) fixedly arranged on the rack (39), a manual transmission shaft (22), a transmission bevel gear I (21) and a transmission bevel gear II (23); a manual transmission shaft (22) is arranged in a circular hole in the lower end face of a bevel gear carrier (24), the upper end of the manual transmission shaft (22) is matched with a transmission bevel gear I (21), the transmission bevel gear I (21) is meshed with a transmission bevel gear II (23), and the transmission bevel gear II (23) is arranged on a coupling mechanism (10);

the connecting mechanism (10) comprises a connecting shaft (102) and a connecting pinion (101) fixedly installed on the connecting shaft (102), one end of the connecting shaft (102) is fixedly provided with a transmission bevel gear II (23), the other end of the connecting shaft is fixedly provided with a motor transmission gearwheel (12), the connecting pinion (101) is installed between the transmission bevel gear II (23) and the motor transmission gearwheel (12), and the connecting shaft (102) is respectively connected with the electric transmission mechanism (1) and the opening peeling mechanism (3);

the opening peeling mechanism (3) comprises a half-open hollow shaft I (31), a half-open hollow shaft II (310), a half-open gear I (30), a half-open gear II (301), a half-open hollow shaft connecting pin (32), a cutter mounting mold (37) and a matching mold (370) which are arranged on a rack (39), the half-open gear I (30) is arranged on the half-open hollow shaft I (31), the half-open gear II (301) is arranged on the half-open hollow shaft II (310), the half-open hollow shaft I (31) and the half-open hollow shaft II (310) are connected together through the half-open hollow shaft connecting pin (32), and a torsion spring I (321) is arranged on the half-open hollow shaft connecting pin (32); a complete gear synthesized by a half-open gear I (30) and a half-open gear II (301) is meshed with a connecting pinion (101) on a connecting mechanism (10), a cutter installing mould (37) is sleeved in the half-open hollow shaft I (31), the cutter installing mould (37) is fixed on the end surface of the half-open hollow shaft I (31) through a fixing screw (371) on the big end, a cutter (372) is installed in a groove of the cutter installing mould (37), a matching mould (370) is sleeved in the half-open hollow shaft II (310) matched with the half-open hollow shaft I (31), a draw hook (381) is installed on one side of the half-open hollow shaft II (310) relative to the half-open hollow shaft connecting pin (32) through a draw hook pin (38), a fixing hook (383) is fixedly installed on the half-open hollow shaft I (31), the inner side of the draw hook (381) is matched with the fixing hook (383), and the outer side of the draw hook (381) is matched with the bent hook (36), the hook (36) is installed and is locked through lock nut (332) on hook coupling shaft (33) that the cover has torsional spring III (331), hook coupling shaft (33) fixed mounting is on hook mounting bracket (34), fixed mounting hook dog (35) above hook coupling shaft (33) one side is close to hook mounting bracket (34).

2. The high-voltage wire intermediate stripping device driven by electricity or hand or double according to claim 1, characterized in that one end of the coupling shaft (102) is provided with a transmission bevel gear II (23), the other end is provided with a motor transmission big gear (12), the electric transmission mechanism (1) and the manual transmission mechanism (2) are connected through the coupling shaft (102), and the opening stripping mechanism (3) is connected through the engagement of a coupling small gear (101) which is arranged on the coupling shaft (102) and is positioned between the transmission bevel gear II (23) and the motor transmission big gear (12) and a complete gear which is synthesized by a half-opening gear I (30) and a half-opening gear II (301).

3. The high-voltage wire intermediate peeling device with the electric, manual and double driving functions according to claim 1, wherein a straight end of the hook (36) is installed on the hook coupling shaft (33), the hook (36) is fixed through the matching of a locking nut (332) and the hook coupling shaft (33), the hook coupling shaft (33) is installed on the hook installation frame (34) through threaded connection, and a torsion spring III (331) is installed between the hook (36) and the hook coupling shaft (33) in a matching mode.

4. The electric-manual dual-drive high-voltage wire intermediate peeling device according to claim 1, wherein the draw hook (381) is mounted on the semi-open hollow shaft II (310) through a draw hook pin (38), a torsion spring II (382) is mounted on the draw hook pin (38), one end of the torsion spring II (382) is lapped on the draw hook (381), and the other end of the torsion spring II is attached to the outer circular surface of the semi-open hollow shaft II (310).

5. The high-voltage wire intermediate peeling device with electric, manual and double driving according to claim 1, characterized in that a half-open gear I (30) is mounted at a deep groove on the outer side of the half-open hollow shaft I (31), a cutter mounting mold (37) is mounted in the half-open gear I, one end of the half-open hollow shaft I (31) is mounted on a frame (39) through an end cover (311), and the other end of the half-open hollow shaft I (31) is fixed with the cutter mounting mold (37) through a fixing screw (371); the semi-open hollow shaft II (310) is provided with a semi-open gear II (301) at the deep groove on the outer side, a pairing mold (370) is arranged in the semi-open hollow shaft II (310), and the pairing mold (370) and the cutter installing mold (37) are paired into a whole.

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