CN112164962A

CN112164962A - Spiral cutting type wire stripping device

Info

Publication number: CN112164962A
Application number: CN202011066615.6A
Authority: CN
Inventors: 隗有祥
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-01
Filing date: 2020-10-01
Publication date: 2021-01-01

Abstract

The invention discloses a spiral cutting type wire stripping device which comprises a bottom mounting base plate and a rotary shell, wherein a main fixed shell is mounted on the upper surface of the bottom mounting base plate, and a main central hole communicated with two end surfaces of the main fixed shell is formed in the transverse center of the main fixed shell. The invention makes the line body to be cut move linearly, and then the cutting tool bit rotating circumferentially is matched to cut the line body in a rotating manner, the line body can be cut spirally under the combined action of transverse movement and circumferential cutting, the cutting area is increased due to the spiral cutting of the line body, meanwhile, the line skin and the wire are separated and guided in different directions and angles due to the spiral cutting, the separation of the line skin and the wire can be facilitated, and simultaneously, the labor intensity of the separation of the line skin and the wire and the occurrence of the phenomenon of line skin fracture caused by the overlarge bonding force of the line skin and the wire during the separation of the line skin and the wire can be effectively reduced.

Description

Spiral cutting type wire stripping device

Technical Field

The invention relates to the technical field of wire stripping devices, in particular to a spiral cutting type wire stripping device.

Background

At present, in all the existing wire stripping devices, one side of a passing electric wire is linearly cut by a cutting knife head, and then the cut electric wire is separated by respectively pulling a wire sheath and an internal conducting wire.

Disclosure of Invention

The invention aims to provide a spiral cutting type wire stripping device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a spiral cutting type wire stripping device comprises a bottom mounting base plate and a rotary shell, wherein a main fixed shell is mounted on the upper surface of the bottom mounting base plate, a main central hole communicated with two end faces of the main fixed shell is formed in the transverse center of the main fixed shell, two symmetrical parts of the main fixed shell, which are positioned on one side of the main central hole, are respectively provided with a contact groove, a main part mounting space is formed in the longitudinal parts of the two contact grooves, a spiral spring type contact mechanism is respectively mounted in the two main part mounting spaces, one end of each spiral spring type contact mechanism, which is positioned in each contact groove, is respectively provided with a contact plate, a driving motor is mounted at the top of the main fixed shell through a main connecting plate, a main gear is mounted at the end part of a motor main shaft of the driving motor, and a rotary shell is mounted at the other end of the main fixed shell through a main bearing, a secondary gear is sleeved on the circumferential side surface of the rotary shell, the teeth structures of the primary gear and the secondary gear are meshed, an auxiliary part mounting space with one side communicated with the main central hole is arranged at the center in the rotating shell, an auxiliary central hole is arranged at the center of one end face of the rotating shell, the rotary shell is provided with a spiral spring type cutting depth control mechanism facing the center at one side of the auxiliary component mounting space through a main first mounting plate, a main second mounting plate is mounted at the end part of the spiral spring type cutting depth control mechanism, two opposite vertical plate structures are mounted on the end surface of the main second mounting plate facing to the center, a main rotating shaft is mounted at the opposite ends of the two vertical plate structures through a main bearing, the middle part of the main rotating shaft is provided with a rotating blade, and the cutting part of the rotating blade protrudes outwards relative to the two vertical plate structures.

Further, coil spring type depth of cut control mechanism includes that coil spring type depth of cut control mechanism uses hollow rod, coil spring type depth of cut control mechanism uses removal space, coil spring type depth of cut control mechanism uses movable plate, coil spring type depth of cut control mechanism uses telescopic link, coil spring type depth of cut control mechanism uses first connecting plate, coil spring type depth of cut control mechanism uses second connecting plate, coil spring type depth of cut control mechanism uses helicitic texture, coil spring type depth of cut control mechanism uses limiting plate and coil spring type depth of cut control mechanism uses coil spring.

Further, a moving space for a coil spring type cutting depth control mechanism is arranged at the center of the inside of the hollow rod for the coil spring type cutting depth control mechanism, a telescopic rod for the coil spring type cutting depth control mechanism is arranged at the center of one end face of a moving plate for the coil spring type cutting depth control mechanism, which is placed inside the moving space for the coil spring type cutting depth control mechanism, the rod body of the telescopic rod for the coil spring type cutting depth control mechanism penetrates through the center of one end face of the hollow rod for the coil spring type cutting depth control mechanism, the other end face of the hollow rod for the coil spring type cutting depth control mechanism and the telescopic rod for the coil spring type cutting depth control mechanism are respectively provided with a first connecting plate for the coil spring type cutting depth control mechanism and a second connecting plate for the coil spring type cutting depth control mechanism at one end positioned outside, the circumference side of the hollow rod for the coil spring type cutting depth control mechanism is provided with a limiting plate for screwing the coil spring type cutting depth control mechanism through a thread structure for the coil spring type cutting depth control mechanism, and a coil spring type coil spring for the cutting depth control mechanism is arranged between the limiting plate for the coil spring type cutting depth control mechanism and the opposite end surface of the second connecting plate for the coil spring type cutting depth control mechanism.

Further, helical spring formula depth of cut is helicitic texture for control mechanism is including setting up the external screw thread structure on the circumference side of the hollow rod for depth of cut control mechanism of helical spring and the internal thread structure of setting in the limiting plate hole for depth of cut control mechanism of helical spring, and this external screw thread structure and internal thread structure mesh mutually.

Further, the first connecting plate for the coil spring type cutting depth control mechanism and the second connecting plate for the coil spring type cutting depth control mechanism are respectively installed on the inner wall of the auxiliary component installation space and the end face of the main second installation plate through bolts.

Further, coil spring formula conflict mechanism includes coil spring formula conflict mechanism with hollow shell, coil spring formula conflict mechanism with flexible space, coil spring for mechanism coil spring, coil spring for mechanism movable plate, coil spring formula conflict mechanism with telescopic link, coil spring formula conflict mechanism with first connecting plate, coil spring formula conflict mechanism with second connecting plate and coil spring formula conflict mechanism with the bolt hole.

Further, a coil spring type telescopic space for the collision mechanism is provided at the center inside the hollow housing for the coil spring type collision mechanism, a coil spring type collision mechanism coil spring in a compressed state is placed inside the coil spring type telescopic space for the collision mechanism, a moving plate for the coil spring type collision mechanism is placed at one end of the coil spring type coil spring, a coil spring type collision mechanism telescopic link is installed at one end face center of the moving plate for the coil spring type collision mechanism, a rod body of the coil spring type collision mechanism telescopic link penetrates through one end face center structure of the hollow housing for the coil spring type collision mechanism, a coil spring type first connecting plate for the collision mechanism and a coil spring type second connecting plate for the collision mechanism are respectively installed at the other end of the hollow housing for the coil spring type collision mechanism and at the end of the coil spring type collision mechanism telescopic link located outside, and the plate bodies of the first connecting plate for the spiral spring type abutting mechanism and the second connecting plate for the spiral spring type abutting mechanism are respectively provided with a bolt hole for the spiral spring type abutting mechanism.

Further, the initial length of the coil spring for the coil spring type abutting mechanism is larger than the height of the telescopic space for the coil spring type abutting mechanism.

Further, the first connecting plate for the coil spring type abutting mechanism and the second connecting plate for the coil spring type abutting mechanism are fixedly connected with the inner wall of the main part installation space and the end of the abutting plate respectively.

Compared with the prior art, the invention has the beneficial effects that: the invention makes the line body to be cut move linearly, and then the cutting tool bit rotating circumferentially is matched to cut the line body in a rotating manner, the line body can be cut spirally under the combined action of transverse movement and circumferential cutting, the cutting area is increased due to the spiral cutting of the line body, meanwhile, the line skin and the wire are separated and guided in different directions and angles due to the spiral cutting, the separation of the line skin and the wire can be facilitated, and simultaneously, the labor intensity of the separation of the line skin and the wire and the occurrence of the phenomenon of line skin fracture caused by the overlarge bonding force of the line skin and the wire during the separation of the line skin and the wire can be effectively reduced.

Drawings

Fig. 1 is a schematic diagram of a full-section structure of a spiral cutting type wire stripping device of the invention;

FIG. 2 is a schematic structural diagram of a coil spring type cutting depth control mechanism in the spiral cutting type wire stripping device of the present invention;

fig. 3 is a schematic structural diagram of a coil spring type abutting mechanism in the spiral cutting type wire stripping device of the invention;

in the figure: 1, a bottom mounting base plate, 2, a main fixed housing, 3, a rotary housing, 4, a main center hole, 5, a main connecting plate, 6, a driving motor, 7, a motor main shaft, 8, a main gear, 9, a sub-component mounting space, 10, a sub center hole, 11, a sub gear, 12, a main first mounting plate, 13, a coil spring type cutting depth control mechanism, 131, a hollow rod for a coil spring type cutting depth control mechanism, 132, a moving space for a coil spring type cutting depth control mechanism, 133, a moving plate for a coil spring type cutting depth control mechanism, 134, a telescopic rod for a coil spring type cutting depth control mechanism, 135, a first connecting plate for a coil spring type cutting depth control mechanism, 136, a second connecting plate for a coil spring type cutting depth control mechanism, 137, a thread structure for a coil spring type cutting depth control mechanism, 138, a limiting plate for a coil spring type cutting depth control mechanism, 139, coil spring type coil spring for cutting depth control mechanism, 14, main second mounting panel, 15, riser structure, 16, main rotation axis, 17, rotary blade, 18, conflict recess, 19, main part installation space, 20, coil spring type conflict mechanism, 201, coil spring type conflict mechanism uses hollow shell, 202, coil spring type conflict mechanism uses telescopic space, 203, coil spring type conflict mechanism uses coil spring, 204, coil spring type conflict mechanism uses the movable plate, 205, coil spring type conflict mechanism uses the telescopic link, 206, coil spring type conflict mechanism uses first connecting plate, 207, coil spring type conflict mechanism uses the second connecting plate, 208, coil spring type conflict mechanism uses the bolt hole, 21, conflict plate.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the device comprises a bottom mounting base plate 1 and a rotary shell 3, wherein a main fixed shell 2 is mounted on the upper surface of the bottom mounting base plate 1, a main central hole 4 communicated with two end faces of the main fixed shell 2 is formed in the transverse center of the main fixed shell 2, two symmetrical parts of the main fixed shell 2, which are positioned on one side of the main central hole 4, are respectively provided with a conflict groove 18, longitudinal parts of the two conflict grooves 18 are respectively provided with a main part mounting space 19, spiral spring type conflict mechanisms 20 are respectively mounted in the two main part mounting spaces 19, one end of each spiral spring type conflict mechanism 20, which is positioned in the conflict groove 18, is respectively provided with a conflict plate 21, a driving motor 6 is mounted at the top of the main fixed shell 2 through a main connecting plate 5, a main gear 8 is mounted at the end part of a motor main shaft 7 of the driving motor 6, and the other end of the main fixed shell 2 is provided with a rotary shell 3 with, a pinion 11 is sleeved on the circumferential side surface of the rotating shell 3, the tooth structures of the main gear 8 and the pinion 11 are meshed, the center of the inner part of the rotating shell 3 is provided with an auxiliary part mounting space 9 with one side communicated with the main central hole 4, the center of one end face of the rotating shell 3 is provided with an auxiliary center hole 10, the rotating shell 3 is provided with a spiral spring type cutting depth control mechanism 13 facing to the center at one side of the auxiliary component mounting space 9 through a main first mounting plate 12, the end of the spiral spring type cutting depth control mechanism 13 is provided with a main second mounting plate 14, the main second mounting plate 14 is provided with two opposite vertical plate structures 15 at the end surface facing the center, the two vertical plate structures 15 are provided with a main rotating shaft 16 at the opposite ends through main bearings, a rotary blade 17 is installed in the middle of the main rotating shaft 16, and the cutting part of the rotary blade 17 protrudes outwards relative to the two vertical plate structures 15.

Referring to fig. 2, the coil spring type cutting depth control mechanism 13 includes a hollow rod 131 for a coil spring type cutting depth control mechanism, a moving space 132 for a coil spring type cutting depth control mechanism, a moving plate 133 for a coil spring type cutting depth control mechanism, a telescopic rod 134 for a coil spring type cutting depth control mechanism, a first connecting plate 135 for a coil spring type cutting depth control mechanism, a second connecting plate 136 for a coil spring type cutting depth control mechanism, a thread structure 137 for a coil spring type cutting depth control mechanism, a limiting plate 138 for a coil spring type cutting depth control mechanism, and a coil spring 139 for a coil spring type cutting depth control mechanism; a coil spring type moving space 132 for a cutting depth control mechanism is provided at the center of the inside of the coil spring type hollow rod 131 for a cutting depth control mechanism, a coil spring type telescopic rod 134 for a cutting depth control mechanism is installed at the center of one end surface of a moving plate 133 for a cutting depth control mechanism placed inside the coil spring type moving space 132 for a cutting depth control mechanism, the rod body of the coil spring type telescopic rod 134 for a cutting depth control mechanism penetrates through the center of one end surface of the coil spring type hollow rod 131 for a cutting depth control mechanism, the other end surface of the coil spring type hollow rod 131 for a cutting depth control mechanism and the coil spring type telescopic rod 134 for a cutting depth control mechanism are respectively provided with a first connecting plate 135 for a coil spring type cutting depth control mechanism and a second connecting plate 136 for a coil spring type cutting depth control mechanism at one end located outside, a coil spring type limiting plate 138 for a coil spring type cutting depth control mechanism is screwed on the circumferential side surface of the coil spring type hollow rod 131 for a cutting depth control mechanism through a coil spring type thread structure 137 for a cutting depth control mechanism, and a coil spring 139 for a coil spring type cutting depth control mechanism is mounted between the limiting plate 138 for a coil spring type cutting depth control mechanism and the opposite end surface of the second connecting plate 136 for a coil spring type cutting depth control mechanism; the screw thread structure 137 for the coil spring type cutting depth control mechanism includes an external thread structure provided on the circumferential side surface of the hollow rod 131 for the coil spring type cutting depth control mechanism and an internal thread structure provided in the inner hole of the limiting plate 138 for the coil spring type cutting depth control mechanism, and the external thread structure and the internal thread structure are engaged with each other; the first connecting plate 135 for the coil spring type cutting depth control mechanism and the second connecting plate 136 for the coil spring type cutting depth control mechanism are respectively installed on the inner wall of the sub-component installation space 9 and the end face of the main second installation plate 14 by bolts.

Referring to fig. 3, the coil spring type abutting mechanism 20 includes a hollow housing 201 for a coil spring type abutting mechanism, a telescopic space 202 for the coil spring type abutting mechanism, a coil spring 203 for the coil spring type abutting mechanism, a moving plate 204 for the coil spring type abutting mechanism, a telescopic rod 205 for the coil spring type abutting mechanism, a first connecting plate 206 for the coil spring type abutting mechanism, a second connecting plate 207 for the coil spring type abutting mechanism, and a bolt hole 208 for the coil spring type abutting mechanism; the coil spring type telescopic space 202 for the collision mechanism is arranged at the center inside the hollow shell 201 for the collision mechanism, the coil spring type coil spring 203 for the collision mechanism in a compressed state is placed inside the coil spring type telescopic space 202 for the collision mechanism, the movable plate 204 for the collision mechanism is placed at one end of the coil spring 203 for the collision mechanism, the telescopic rod 205 for the collision mechanism is installed at one end face center of the movable plate 204 for the collision mechanism, the rod body of the telescopic rod 205 for the collision mechanism for the coil spring penetrates through one end face center structure of the hollow shell 201 for the collision mechanism for the coil spring type, the first connecting plate 206 for the collision mechanism for the coil spring type and the second connecting plate 207 for the collision mechanism for the coil spring type are respectively installed at the other end of the hollow shell 201 and the one end of the telescopic rod 205 for the collision mechanism for the coil spring type, the plate bodies of the first connecting plate 206 for the coil spring type abutting mechanism and the second connecting plate 207 for the coil spring type abutting mechanism are respectively provided with a bolt hole 208 for the coil spring type abutting mechanism; the initial length of the coil spring 203 for the coil spring type abutting mechanism is greater than the height of the telescopic space 202 for the coil spring type abutting mechanism; the first connecting plate 206 for the coil spring type abutting mechanism and the second connecting plate 207 for the coil spring type abutting mechanism are fixedly connected with the inner wall of the main part installation space 19 and the end of the abutting plate 21, respectively.

The specific use mode is as follows: in the invention, a bottom mounting base plate 1 is arranged on a fixed base plane, a wire body to be worked penetrates through a main central hole 4 and an auxiliary central hole 10, a thread plate of a spiral spring type cutting depth control mechanism 13 is rotated to control the maximum expansion degree of the spiral spring type cutting depth control mechanism 13, the expansion degree is the maximum cutting depth, a rotary cutter head 17 is abutted against the surface of the wire body in the working process, at the moment, the rotary cutter head 17 can cut the wire body under the pressure action of a spiral spring in the spiral spring type cutting depth control mechanism 13, at the moment, an abutting plate 21 is abutted against two sides of the wire body under the action of the spiral spring type abutting mechanism 20, the wire body is pulled rightwards (relative to the attached drawing), at the same time, a driving motor 6 is started, a rotary shell 3 drives the rotary cutter head 17 under the driving action of the driving motor 6, carry out the circumference cutting to the line body, under the combined action of lateral shifting and circumference cutting, can make the line body produce spiral cutting, owing to carry out spiral cutting to the line body, increased cutting area.

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

1. The utility model provides a spiral cutting formula wire stripping device, includes bottom mounting substrate (1) and rotatory shell (3), its characterized in that: the upper surface of the bottom mounting base plate (1) is provided with a main fixing shell (2), the transverse center of the main fixing shell (2) is provided with a main center hole (4) communicated with the two end faces of the main fixing shell, two symmetrical parts of the main fixing shell (2) positioned on one side of the main center hole (4) are respectively provided with a conflict groove (18), the longitudinal parts of the conflict grooves (18) are respectively provided with a main part mounting space (19), two spiral spring type conflict mechanisms (20) are respectively arranged in the main part mounting space (19), two spiral spring type conflict mechanisms (20) are respectively provided with a conflict plate (21) at one end positioned in the conflict groove (18), the top of the main fixing shell (2) is provided with a driving motor (6) through a main connecting plate (5), the end part of a motor spindle (7) of the driving motor (6) is provided with a main gear (8), the other end of the main fixed shell (2) is provided with a rotatable rotary shell (3) through a main bearing, a secondary gear (11) is sleeved and arranged on the circumferential side surface of the rotary shell (3), the gear structure of the main gear (8) is meshed with the gear structure of the secondary gear (11), a secondary part mounting space (9) with one side communicated with the main central hole (4) is arranged at the center inside the rotary shell (3), a secondary central hole (10) is arranged at the center of one end surface of the rotary shell (3), the rotary shell (3) is provided with a helical spring type cutting depth control mechanism (13) facing the center through a main first mounting plate (12) at one side of the secondary part mounting space (9), a main second mounting plate (14) is arranged at the end part of the helical spring type cutting depth control mechanism (13), and two opposite vertical plate structures (15) are arranged on the end surface facing the center of the main second mounting plate (14), the two vertical plate structures (15) are provided with a main rotating shaft (16) at opposite ends through main bearings, a rotating blade (17) is arranged in the middle of the main rotating shaft (16), and the cutting part of the rotating blade (17) protrudes outwards relative to the two vertical plate structures (15).

2. The spiral cut wire stripping device of claim 1, wherein: coil spring type cutting depth control mechanism (13) include coil spring type cutting depth control mechanism with hollow rod (131), coil spring type cutting depth control mechanism with removal space (132), coil spring type cutting depth control mechanism with movable plate (133), coil spring type cutting depth control mechanism with telescopic link (134), coil spring type cutting depth control mechanism with first connecting plate (135), coil spring type cutting depth control mechanism with second connecting plate (136), coil spring type cutting depth control mechanism with helicitic texture (137), coil spring type cutting depth control mechanism with limiting plate (138) and coil spring type cutting depth control mechanism with coil spring (139).

3. A spiral cut wire stripping device as claimed in claim 2, wherein: coil spring type for cutting depth control mechanism hollow rod (131) inside center be equipped with coil spring type for cutting depth control mechanism removal space (132), coil spring type for cutting depth control mechanism is with inside of removal space (132) place a coil spring type for cutting depth control mechanism movable plate (133) a terminal surface center installation coil spring type for cutting depth control mechanism telescopic link (134), the body of rod of coil spring type for cutting depth control mechanism telescopic link (134) runs through a terminal surface center of coil spring type for cutting depth control mechanism hollow rod (131), coil spring type for cutting depth control mechanism hollow rod (131) another terminal surface and coil spring type for cutting depth control mechanism telescopic link (134) are located outside one end and are installed coil spring type for cutting depth control mechanism first connecting plate (135) and coil spring type for cutting depth control mechanism second connecting plate (136) for cutting depth control mechanism respectively ) The spiral spring type limiting plate (138) for the cutting depth control mechanism is screwed through a spiral spring type thread structure (137) on the circumferential side of the hollow rod (131) for the cutting depth control mechanism, and a spiral spring type spiral spring (139) for the cutting depth control mechanism is installed between opposite end faces of the limiting plate (138) for the cutting depth control mechanism and the second connecting plate (136) for the cutting depth control mechanism.

4. A spiral cut wire stripping device as claimed in claim 3, wherein: the thread structure (137) for the spiral spring type cutting depth control mechanism comprises an external thread structure arranged on the circumferential side face of the hollow rod (131) for the spiral spring type cutting depth control mechanism and an internal thread structure arranged in an inner hole of the limiting plate (138) for the spiral spring type cutting depth control mechanism, and the external thread structure is meshed with the internal thread structure.

5. A spiral cut wire stripping device as claimed in claim 3, wherein: the first connecting plate (135) for the coil spring type cutting depth control mechanism and the second connecting plate (136) for the coil spring type cutting depth control mechanism are respectively installed on the inner wall of the auxiliary component installation space (9) and the end face of the main second installation plate (14) through bolts.

6. The spiral cut wire stripping device of claim 1, wherein: coil spring formula conflict mechanism (20) include coil spring formula conflict mechanism with hollow shell (201), coil spring formula conflict mechanism with flexible space (202), coil spring formula conflict mechanism with coil spring (203), coil spring formula conflict mechanism with movable plate (204), coil spring formula conflict mechanism with telescopic link (205), coil spring formula conflict mechanism with first connecting plate (206), coil spring formula conflict mechanism with second connecting plate (207) and coil spring formula conflict mechanism with bolt hole (208).

7. The spiral cut wire stripping device of claim 6, wherein: coil spring formula conflict mechanism is equipped with coil spring formula conflict mechanism and uses telescopic space (202) at hollow shell (201) internal center, coil spring formula conflict mechanism lays a compression state's coil spring formula conflict mechanism and uses coil spring (203) with telescopic space (202) inside for coil spring formula conflict mechanism, coil spring formula conflict mechanism lays a coil spring formula conflict mechanism and uses movable plate (204) with the one end of coil spring (203), coil spring formula conflict mechanism is with a terminal surface center installation coil spring formula conflict mechanism of movable plate (204) and is used telescopic link (205), the body of rod of coil spring formula conflict mechanism with telescopic link (205) runs through a terminal surface center structure of coil spring formula conflict mechanism and uses hollow shell (201), coil spring formula conflict mechanism installs a coil spring formula conflict mechanism respectively with the other end of hollow shell (201) and coil spring formula conflict mechanism with telescopic link (205) in the one end that lies in the outside respectively and uses telescopic link (205) for mechanism The first connecting plate (206) and the second connecting plate (207) for the coil spring type abutting mechanism are respectively provided with a bolt hole (208) for the coil spring type abutting mechanism on the plate body of the first connecting plate (206) for the coil spring type abutting mechanism and the second connecting plate (207) for the coil spring type abutting mechanism.

8. The spiral cut wire stripping device of claim 7, wherein: the initial length of the coil spring (203) for the coil spring type abutting mechanism is larger than the height of the telescopic space (202) for the coil spring type abutting mechanism.

9. The spiral cut wire stripping device of claim 7, wherein: and the first connecting plate (206) for the coil spring type abutting mechanism and the second connecting plate (207) for the coil spring type abutting mechanism are respectively and fixedly connected with the inner wall of the main part mounting space (19) and the end part of the abutting plate (21).