CN112688238A - High-efficiency wire stripping machine for wire and cable detection - Google Patents

Abstract

The invention discloses a high-efficiency wire stripping machine for wire and cable detection, relates to the technical field of electrical tests, and solves the problems that when the conventional wire stripping device is used, a cable needs to be fixed firstly, then the sheath of the cable is cut circularly, and then the sheath of the cable is stripped, so that the operation is troublesome, and the working efficiency is low; the rear part of the bracket is hinged with a group of operating handles; the rear part of the bracket is connected with a group of driving blocks in a sliding way; the front part of the bracket is connected with a group of peeling sliding plates in a sliding way; the right side of the bracket is slidably connected with a group of pressing plates; the pressing plate is connected with the bracket in a pressing mode through a pressing connecting piece. The quick-release structure is adopted to conveniently fix and loosen the cable, the use is simple, the operation is convenient, two groups of actions of cutting off the outer skin and stripping the outer skin can be completed only by pressing the operating handle downwards, the operation is simple, the manual operation time is reduced, and the production efficiency is high.

Description

High-efficiency wire stripping machine for wire and cable detection

Technical Field

The invention relates to the technical field of electrical tests, in particular to a high-efficiency wire stripping machine for wire and cable detection.

Background

The performance of the electric wire and the electric cable needs to be tested in the production process of the electric wire and the electric cable, the outer skins at two ends of the electric wire and the electric cable need to be stripped before the electric wire and the electric cable are tested, then the electric wire and the electric cable are connected to test equipment for testing, and when the outer skins at two ends of the electric wire and the electric cable are stripped, a wire stripper is generally adopted for stripping the wires. .

For example, application No.: the invention provides a wire stripper, which comprises a wire stripping device (100) and a clamping device (200), wherein the wire stripping device (100) comprises a tool rest (105) and a wire stripping cutter (110) arranged on the tool rest (105), the wire stripping cutter (110) comprises a cutter body and a blade, the wire stripping cutter (110) further comprises a sharp puncture part (120), the blade and the sharp puncture part (120) are both arranged on the cutter body, and the root of the sharp puncture part (120) is connected with the blade. The technical scheme of the invention effectively solves the problem of low use efficiency of the wire stripper in the prior art.

Based on the above, when the conventional wire stripping device is used, the cable needs to be fixed firstly, then the cable sheath needs to be cut circularly, and then the cable sheath needs to be stripped, so that the operation is troublesome, and the working efficiency is low; therefore, the existing requirements are not met, and the high-efficiency wire stripping machine for detecting the electric wires and the cables is provided for the requirements.

Disclosure of Invention

The invention aims to provide an efficient wire stripping machine for wire and cable detection, which aims to solve the problems that the operation is troublesome and the working efficiency is low because the prior wire stripping device provided by the background art needs to fix a cable, perform circular cutting on the sheath of the cable and then strip the sheath of the cable in use.

In order to achieve the purpose, the invention provides the following technical scheme: an efficient wire stripping machine for wire and cable detection comprises a bracket; the rear part of the bracket is hinged with a group of operating handles; the rear part of the bracket is connected with a group of driving blocks in a sliding way; the front part of the bracket is connected with a group of peeling sliding plates in a sliding way; the peeling sliding plate is respectively connected with a group of shearing blocks in a sliding manner; the right rear part of the peeling sliding plate is rotatably connected with a group of primary intermediate transmission shafts; a group of secondary intermediate transmission shafts is vertically and rotatably connected inside the peeling sliding plate; a group of three-stage intermediate transmission shafts is horizontally and rotatably connected inside the peeling sliding plate; the right side of the bracket is slidably connected with a group of pressing plates; the pressing plate is connected with the bracket in a pressing mode through a pressing connecting piece.

Preferably, the operating handle further comprises a driving connecting rod, the west part of the operating handle is hinged with a group of driving connecting rods, the other end of each driving connecting rod is hinged with the driving block, and the operating handle, the driving connecting rods, the driving blocks and the support form a crank-slider transmission mechanism together.

Preferably, the driving block is further provided with a cutting driving rack, a group of cutting driving racks is fixedly connected to the left side of the driving block, the one-level intermediate transmission shaft is further provided with a cutting driven gear, a group of cutting driven gears is fixedly connected to the rear portion of the one-level intermediate transmission shaft coaxially, and the cutting driving racks and the cutting driven gears are meshed to form a gear-rack transmission mechanism together.

Preferably, the first-stage intermediate transmission shaft further comprises a cutting driving bevel gear, the front end face of the first-stage intermediate transmission shaft is coaxially and fixedly connected with a group of cutting driving bevel gears, the second-stage intermediate transmission shaft further comprises a cutting driven bevel gear, the top of the second-stage intermediate transmission shaft is coaxially and fixedly connected with a group of cutting driven bevel gears, and the cutting driving bevel gear and the cutting driven bevel gears are meshed to form a bevel gear transmission mechanism.

Preferably, the second-stage intermediate transmission shaft further comprises a cutting driving worm, a group of cutting driving worms is coaxially and fixedly connected to the rear portion of the second-stage intermediate transmission shaft, the third-stage intermediate transmission shaft further comprises a group of cutting driving worm wheels, a group of cutting driving worm wheels is coaxially and fixedly connected to the rear portion of the third-stage intermediate transmission shaft, and the cutting driving worm wheels are meshed to form a worm and gear transmission mechanism.

Preferably, tertiary intermediate drive axle is still including the cutting driving gear, a set of cutting driving gear of the coaxial fixedly connected with of preceding terminal surface of tertiary intermediate drive axle, the clipper is still including the driven rack of cutting, cutting blade, a set of driven rack of cutting of inboard fixedly connected with of clipper, the cutting driving gear constitutes rack and pinion drive mechanism jointly with two sets of driven rack meshing of cutting simultaneously, and two sets of clipper set up the left and right sides at the cutting driving gear respectively, a set of cutting blade of the equal fixedly connected with in two sets of clipper front portions, two sets of cutting blade of organizing are the symmetry setting.

Preferably, the driving block further comprises a peeling driving shaft, the front end face of the driving block is fixedly connected with a group of peeling driving shafts, the peeling sliding plate further comprises a peeling guide groove, the right side of the peeling sliding plate is provided with a group of peeling guide grooves, the upper portion of each peeling guide groove is a vertical groove, the lower portion of each peeling guide groove is an inclined groove, and the peeling driving shafts and the peeling guide grooves jointly form a plane cam mechanism.

Preferably, the compressing connection piece further comprises a compressing operation piece and a tightness adjusting bolt, the top of the compressing connection piece is rotatably connected with a group of compressing operation pieces, the compressing operation pieces are of cam structures, the bottom of the compressing connection piece is in threaded connection with a group of tightness adjusting bolts, the compressing connection piece penetrates through the support and the compression plate, the compressing operation pieces are compressed on the compression plate, and the tightness adjusting bolts are compressed on the lower portion of the support.

Compared with the prior art, the invention has the beneficial effects that:

the quick-release cable fixing and loosening device disclosed by the invention has the advantages that the quick pressing and loosening of the cable are realized by adopting the pressing connecting piece with the quick-release structure, the cable is convenient to fix and loosen, the use is simple, and the operation is convenient.

The invention realizes synchronous reverse sliding of the shearing block by adopting transmission modes such as a crank block mechanism, a gear rack transmission mechanism, a bevel gear transmission mechanism, a worm and gear transmission mechanism and the like, cuts off the cable sheath, and simultaneously realizes stripping of the cut sheath by adopting a plane cam mechanism.

The quick-release structure is adopted to conveniently fix and loosen the cable, the use is simple, the operation is convenient, two groups of actions of cutting off the outer skin and stripping the outer skin can be completed only by pressing the operating handle downwards, the operation is simple, the manual operation time is reduced, and the production efficiency is high.

Drawings

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

FIG. 2 is a schematic axial side view of the peeling slide plate of the present invention;

FIG. 3 is a schematic side view of the secondary intermediate drive shaft of the present invention;

FIG. 4 is a schematic side view of the shear block drive shaft of the present invention;

FIG. 5 is a rear isometric view of the present invention;

FIG. 6 is a schematic side view of the driving shaft of the driving block of the present invention;

FIG. 7 is a schematic side view of a three-stage intermediate drive shaft according to the present invention;

FIG. 8 is a schematic side view of the compression connector mounting shaft of the present invention;

FIG. 9 is a schematic axial side view of the compression connector of the present invention;

in the figure: 1. a support; 2. an operating handle; 201. a drive link; 3. a drive block; 301. cutting the driving rack; 302. a peeling drive shaft; 4. a primary intermediate transmission shaft; 401. cutting the driven gear; 402. cutting the driving bevel gear; 5. a secondary intermediate transmission shaft; 501. cutting the driven bevel gear; 502. cutting the driving worm; 6. a third-stage intermediate transmission shaft; 601. cutting the driving worm gear; 602. cutting the driving gear; 7. cutting the block; 701. cutting the driven rack; 702. a cutting blade; 8. a peeling sliding plate; 801. a peeling guide groove; 9. a compression plate; 10. compressing the connecting piece; 1001. compressing the operating piece; 1002. and (4) loosening and tightening the adjusting bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 9, an embodiment of the present invention includes: an efficient wire stripping machine for wire and cable detection comprises a bracket 1; the rear part of the bracket 1 is hinged with a group of operating handles 2; the rear part of the bracket 1 is connected with a group of driving blocks 3 in a sliding way; the front part of the bracket 1 is connected with a group of peeling sliding plates 8 in a sliding way; a group of shearing blocks 7 are respectively connected on the peeling sliding plate 8 in a sliding way; the right rear part of the peeling sliding plate 8 is rotationally connected with a group of primary intermediate transmission shafts 4; a group of secondary intermediate transmission shafts 5 are vertically and rotatably connected inside the peeling sliding plate 8; a group of three-stage intermediate transmission shafts 6 are horizontally and rotatably connected inside the peeling sliding plate 8; the right side of the bracket 1 is connected with a group of pressure plates 9 in a sliding way; the pressing plate 9 is connected with the bracket 1 in a pressing way through a pressing connecting piece 10.

Further, the operating handle 2 further comprises a driving connecting rod 201, the west portion of the operating handle 2 is hinged to a group of driving connecting rods 201, the other end of each driving connecting rod 201 is hinged to the driving block 3, the operating handle 2, the driving connecting rods 201, the driving blocks 3 and the support 1 jointly form a crank block transmission mechanism, and when the operating handle 2 is pressed downwards in use, the operating handle 2 drives the driving block 3 to slide downwards through the crank block transmission mechanism jointly formed among the operating handle 2, the driving connecting rods 201, the driving blocks 3 and the support 1.

Further, the drive block 3 still includes cutting drive rack 301, a set of cutting drive rack 301 of left side fixedly connected with of drive block 3, one-level intermediate drive shaft 4 is still including cutting driven gear 401, the coaxial fixedly connected with of rear portion of one-level intermediate drive shaft 4 a set of cutting driven gear 401, cutting drive rack 301 and the meshing of cutting driven gear 401 constitute rack and pinion drive mechanism jointly, in use, when drive block 3 down slides, the rack and pinion drive mechanism that drive block 3 constitutes jointly through cutting drive rack 301 and the meshing of cutting driven gear 401 drives one-level intermediate drive shaft 4 rotatory.

Further, the first-stage intermediate transmission shaft 4 further comprises a cutting driving bevel gear 402, a group of cutting driving bevel gears 402 is coaxially and fixedly connected to the front end face of the first-stage intermediate transmission shaft 4, the second-stage intermediate transmission shaft 5 further comprises a cutting driven bevel gear 501, a group of cutting driven bevel gears 501 is coaxially and fixedly connected to the top of the second-stage intermediate transmission shaft 5, the cutting driving bevel gear 402 and the cutting driven bevel gear 501 are meshed to jointly form a bevel gear transmission mechanism, and when the first-stage intermediate transmission shaft 4 rotates in use, the first-stage intermediate transmission shaft 4 drives the second-stage intermediate transmission shaft 5 to rotate through the bevel gear transmission mechanism formed by the meshing of the cutting driving bevel gear 402 and the cutting.

Further, the second-stage intermediate transmission shaft 5 further comprises a cutting driving worm 502, a group of cutting driving worms 502 is coaxially and fixedly connected to the rear portion of the second-stage intermediate transmission shaft 5, the third-stage intermediate transmission shaft 6 further comprises a group of cutting driving worm gears 601, the third-stage intermediate transmission shaft 6 and the rear portion are coaxially and fixedly connected with a group of cutting driving worm gears 601, the cutting driving worm 502 and the cutting driving worm gears 601 are meshed to form a worm and worm gear transmission mechanism together, and when the second-stage intermediate transmission shaft 5 rotates in use, the second-stage intermediate transmission shaft 5 drives the third-stage intermediate transmission shaft 6 to rotate through the worm and worm gear transmission mechanism formed by meshing the cutting driving worm 502 and the cutting driving worm.

Further, the three-stage intermediate transmission shaft 6 further comprises a cutting driving gear 602, a group of cutting driving gears 602 is coaxially and fixedly connected to the front end face of the three-stage intermediate transmission shaft 6, the cutting block 7 further comprises a cutting driven rack 701 and a cutting blade 702, a group of cutting driven racks 701 is fixedly connected to the inner side of the cutting block 7, the cutting driving gear 602 is meshed with the two groups of cutting driven racks 701 to form a rack and pinion transmission mechanism, the two groups of cutting blocks 7 are respectively arranged on the left side and the right side of the cutting driving gear 602, a group of cutting blades 702 is fixedly connected to the front portions of the two groups of cutting blocks 7, the two groups of cutting blades 702 are symmetrically arranged, when the three-stage intermediate transmission shaft 6 rotates, the three-stage intermediate transmission shaft 6 drives the two groups of cutting blocks 7 to reversely slide through the rack and pinion transmission mechanism, the wire sheath is cut by two sets of cutting blades 702.

Further, the driving block 3 further includes a peeling driving shaft 302, the front end face of the driving block 3 is fixedly connected with a group of peeling driving shafts 302, the peeling sliding plate 8 further includes a peeling guide groove 801, the right side of the peeling sliding plate 8 is provided with a group of peeling guide grooves 801, the upper portion of each peeling guide groove 801 is a vertical groove, the lower portion of each peeling guide groove 801 is an inclined groove, the peeling driving shafts 302 and the peeling guide grooves 801 jointly form a planar cam mechanism, in use, when the driving block 3 slides downwards, the peeling driving shafts 302 slide downwards in the vertical grooves of the peeling guide grooves 801, and after the two groups of cutting blades 702 cut the outer skins of the electric wires, the peeling driving shafts 302 slide in the inclined grooves at the lower portions of the peeling guide grooves 801 to drive the peeling sliding plate 8 to slide towards the left side, so as to peel the cut.

Further, compress tightly connecting piece 10 still includes and compresses tightly operating parts 1001, the tight regulation bolt 1002, the top that compresses tightly connecting piece 10 is rotated and is connected with a set of operating parts 1001 that compresses tightly, it is the cam structure to compress tightly operating parts 1001, the bottom threaded connection who compresses tightly connecting piece 10 has a set of tight regulation bolt 1002, it passes support 1 to compress tightly connecting piece 10, pressure strip 9, it compresses tightly operating parts 1001 on pressure strip 9 to compress tightly, tight regulation bolt 1002 compresses tightly in support 1 lower part, in use, compress tightly operating parts 1001 when the rotation, it compresses tightly the cable with pressure strip 9 through the cam structure to compress tightly operating parts 1001, adjust the degree of compressing tightly of pressure strip 9 through rotatory tight regulation bolt 1002.

The working principle is as follows: when stripping wires, firstly, the cables are placed on the front end face of the support 1, the pressing operation piece 1001 is broken off, the pressing operation piece 1001 presses the cables through the pressing plate 9 through the cam structure, and the tightness of the pressing plate 9 is adjusted by rotating the tightness adjusting bolt 1002; an operating handle 2 is pressed downwards, the operating handle 2 drives a driving block 3 to slide downwards through a crank block transmission mechanism formed by jointly arranging the operating handle 2, a driving connecting rod 201, a driving block 3 and a bracket 1, firstly, the driving block 3 drives a primary intermediate transmission shaft 4 to rotate through a gear rack transmission mechanism formed by meshing a cutting driving rack 301 and a cutting driven gear 401, the primary intermediate transmission shaft 4 drives a secondary intermediate transmission shaft 5 to rotate through a bevel gear transmission mechanism formed by meshing a cutting driving bevel gear 402 and a cutting driven bevel gear 501, the secondary intermediate transmission shaft 5 drives a tertiary intermediate transmission shaft 6 to rotate through a worm gear transmission mechanism formed by meshing a cutting driving worm 502 and a cutting driving worm wheel 601, the tertiary intermediate transmission shaft 6 drives two groups of shearing blocks 7 to slide reversely through a gear rack transmission mechanism formed by meshing a cutting driving gear 602 and two groups of cutting driven racks 701 simultaneously, the outer skin of the electric wire is cut off by the two groups of cutting blades 702, the peeling driving shaft 302 slides downwards in the vertical groove of the peeling guide groove 801, and after the outer skin of the electric wire is cut off by the two groups of cutting blades 702, the peeling driving shaft 302 slides in the inclined groove at the lower part of the peeling guide groove 801 to drive the peeling sliding plate 8 to slide towards the left side, so that the cut outer skin of the electric wire is peeled off.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a wire and cable detects uses high-efficient wire stripping machine which characterized in that: comprises a bracket (1); the rear part of the bracket (1) is hinged with a group of operating handles (2); the rear part of the bracket (1) is connected with a group of driving blocks (3) in a sliding way; the front part of the bracket (1) is connected with a group of peeling sliding plates (8) in a sliding way; the peeling sliding plate (8) is respectively connected with a group of shearing blocks (7) in a sliding manner; the right rear part of the peeling sliding plate (8) is rotatably connected with a group of primary intermediate transmission shafts (4); a group of secondary intermediate transmission shafts (5) are vertically and rotatably connected inside the peeling sliding plate (8); a group of three-stage intermediate transmission shafts (6) are horizontally and rotatably connected inside the peeling sliding plate (8); the right side of the bracket (1) is connected with a group of compression plates (9) in a sliding manner; the pressing plate (9) is connected with the bracket (1) in a pressing mode through a pressing connecting piece (10).

2. The high-efficiency wire stripping machine for wire and cable detection according to claim 1, characterized in that: the operating handle (2) further comprises a driving connecting rod (201), the western portion of the operating handle (2) is hinged to a group of driving connecting rods (201), the other end of each driving connecting rod (201) is hinged to a driving block (3), and a crank sliding block transmission mechanism is formed among the operating handle (2), the driving connecting rods (201), the driving blocks (3) and the support (1) together.

3. The high-efficiency wire stripping machine for wire and cable detection according to claim 1, characterized in that: the driving block (3) further comprises a cutting driving rack (301), a group of cutting driving racks (301) is fixedly connected to the left side of the driving block (3), the one-level intermediate transmission shaft (4) further comprises a cutting driven gear (401), a group of cutting driven gears (401) are fixedly connected to the rear portion of the one-level intermediate transmission shaft (4) in a coaxial mode, and the cutting driving racks (301) and the cutting driven gears (401) are meshed to form a gear-rack transmission mechanism together.

4. The high-efficiency wire stripping machine for wire and cable detection according to claim 1, characterized in that: the one-level intermediate transmission shaft (4) is characterized by further comprising a cutting driving bevel gear (402), a group of cutting driving bevel gears (402) is fixedly connected with the front end face of the one-level intermediate transmission shaft (4) in a coaxial mode, the second-level intermediate transmission shaft (5) is further comprising a cutting driven bevel gear (501), a group of cutting driven bevel gears (501) is fixedly connected with the top of the second-level intermediate transmission shaft (5) in a coaxial mode, and the cutting driving bevel gears (402) and the cutting driven bevel gears (501) are meshed to form a bevel gear transmission mechanism.

5. The high-efficiency wire stripping machine for wire and cable detection according to claim 1, characterized in that: the two-stage intermediate transmission shaft (5) further comprises a cutting driving worm (502), a group of cutting driving worms (502) is fixedly connected to the rear portion of the two-stage intermediate transmission shaft (5) in a coaxial mode, the three-stage intermediate transmission shaft (6) further comprises a group of cutting driving worm wheels (601), a group of cutting driving worm wheels (601) is fixedly connected to the three-stage intermediate transmission shaft (6) and the rear portion in a coaxial mode, and the cutting driving worm (502) and the cutting driving worm wheels (601) are meshed to form a worm and gear transmission mechanism.

6. The high-efficiency wire stripping machine for wire and cable detection according to claim 1, characterized in that: three-level intermediate drive axle (6) are still including cutting driving gear (602), the coaxial fixedly connected with of preceding terminal surface of three-level intermediate drive axle (6) a set of cutting driving gear (602), cutout (7) are still including cutting driven rack (701), cutting blade (702), the inboard fixedly connected with of cutout (7) a set of cutting driven rack (701), cutting driving gear (602) constitute rack and pinion drive mechanism jointly with two sets of cutting driven rack (701) meshing simultaneously, and two sets of cutout (7) set up the left and right sides at cutting driving gear (602) respectively, a set of cutting blade (702) of two sets of cutout (7) front equal fixedly connected with, two sets of cutting blade (702) of organizing set up for the symmetry.

7. The high-efficiency wire stripping machine for wire and cable detection according to claim 1, characterized in that: the driving block (3) further comprises a peeling driving shaft (302), the front end face of the driving block (3) is fixedly connected with a group of peeling driving shafts (302), the peeling sliding plate (8) further comprises a peeling guide groove (801), the right side of the peeling sliding plate (8) is provided with a group of peeling guide grooves (801), the peeling guide grooves (801) are vertical grooves on the upper portion, the peeling guide grooves (801) are inclined grooves on the lower portion, and the peeling driving shafts (302) and the peeling guide grooves (801) jointly form a plane cam mechanism.

8. The high-efficiency wire stripping machine for wire and cable detection according to claim 1, characterized in that: compress tightly connecting piece (10) still including compressing tightly operating parts (1001), tight regulation bolt (1002), the top that compresses tightly connecting piece (10) is rotated and is connected with a set of operating parts (1001) that compress tightly, compress tightly operating parts (1001) and be the cam structure, the bottom threaded connection who compresses tightly connecting piece (10) has a set of tight regulation bolt (1002), compress tightly connecting piece (10) and pass support (1), pressure strip (9), compress tightly operating parts (1001) and compress tightly on pressure strip (9), tight regulation bolt (1002) compress tightly in support (1) lower part.

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