CN110970179B - Wire body separation traction device for wire stripping mechanism - Google Patents

Wire body separation traction device for wire stripping mechanism Download PDF

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Publication number
CN110970179B
CN110970179B CN201911026541.0A CN201911026541A CN110970179B CN 110970179 B CN110970179 B CN 110970179B CN 201911026541 A CN201911026541 A CN 201911026541A CN 110970179 B CN110970179 B CN 110970179B
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height adjusting
longitudinal height
thread structure
rotary type
adjusting mechanism
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CN110970179A (en
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薛巧云
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TAIZHOU YATAI PIONEER METALS Corp.
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Taizhou Yatai Pioneer Metals Corp
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B15/00Apparatus or processes for salvaging material from cables
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/82Recycling of waste of electrical or electronic equipment [WEEE]

Abstract

The invention discloses a wire body separating and traction device for an electric wire stripping mechanism, which comprises a bottom mounting substrate with a main bolt hole arranged inside. The wire peeling device has the function of end traction in the wire peeling work, can perform traction in different directions on a copper wire inside a cut wire body and a wire skin outside the wire body, has a certain distance, can tear the wire skin which is not completely cut in the cutting device, has higher utilization rate of a driving motor, improves the utilization rate of a power source, has a reverse thread structure rotary type longitudinal height adjusting mechanism, can perform the height adjusting function of a working state, has a gear set meshed type rotary state differentiating mechanism, can differentiate the rotation of the driving motor into two driving forces, and achieves multiple purposes.

Description

Wire body separation traction device for wire stripping mechanism
Technical Field
The invention relates to the technical field of wire stripping, in particular to a wire body separating and traction device for a wire stripping mechanism.
Background
At present, at the electric wire recovery place, must use the peeler to make the electric wire can be utilized once more, but current electric wire peeler structure is too simple, and the function is too single, and the limitation is great.
Disclosure of Invention
The invention aims to provide a wire body separating and drawing device for an electric wire stripping mechanism, which aims to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a wire body separating and traction device for an electric wire stripping mechanism comprises a bottom mounting base plate, a main first connecting plate is mounted at the center of the upper surface of the bottom mounting base plate, a reverse thread structure rotary type longitudinal height adjusting mechanism is mounted at the top end of the main first connecting plate, a main vertical plate is mounted at the top end of the reverse thread structure rotary type longitudinal height adjusting mechanism through a main second connecting plate, a driving motor mounting shell is mounted at one side of the main vertical plate, a driving motor is mounted inside the driving motor mounting shell, a motor main shaft in the driving motor penetrates through the main vertical plate, the main shaft and the main vertical plate are fixedly connected at the penetrating part through a main bearing, a frame is mounted at the other side of the main vertical plate through a transverse fixing rod, a main part mounting space is arranged inside the frame, and a spiral spring abutting telescopic clamping mechanism is respectively mounted at the bottom and the top of the main part mounting space through bolts, the utility model discloses a telescopic fixture of helical spring conflict, including main rotation wheel, motor main shaft, gear train meshing type rotation state differentiation mechanism, the telescopic fixture of helical spring conflict's tip is installed the fixed bolster through main third connecting plate and is installed a main rotation axis respectively in two inboards of two activity swiveling wheels, two install a fixed swiveling wheel on the axis body of main rotation axis respectively, a gear train meshing type rotation state differentiation mechanism of tip installation of motor main shaft, the center at a frame terminal surface is installed through the bolt to gear train meshing type rotation state differentiation mechanism, just the rotation end of gear train meshing type rotation state differentiation mechanism and the tip fixed connection of main rotation axis.
Further, the reverse thread structure rotary type longitudinal height adjusting mechanism comprises a thread sleeve for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread section for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread structure for the reverse thread structure rotary type longitudinal height adjusting mechanism, a bottom threaded rod for the reverse thread structure rotary type longitudinal height adjusting mechanism, a top threaded rod for the reverse thread structure rotary type longitudinal height adjusting mechanism, the first bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism are arranged on the first connecting plate; the center in the reverse thread structure rotary type vertical height adjusting mechanism thread sleeve is provided with a reverse thread structure rotary type vertical height adjusting mechanism thread section which is communicated with two end surfaces of the reverse thread structure rotary type vertical height adjusting mechanism thread sleeve, the reverse thread structure rotary type vertical height adjusting mechanism thread sleeve is provided with a reverse thread structure rotary type vertical height adjusting mechanism thread structure on the inner wall of the reverse thread structure rotary type vertical height adjusting mechanism thread section, the bottom and the top of the reverse thread structure rotary type vertical height adjusting mechanism thread section are respectively connected with a reverse thread structure rotary type vertical height adjusting mechanism bottom threaded rod and a reverse thread structure rotary type vertical height adjusting mechanism top threaded rod through a reverse thread structure rotary type vertical height adjusting mechanism thread structure, the vertical height-adjusting mechanism of reverse thread structure rotation type is with bottom threaded rod and the vertical height-adjusting mechanism of reverse thread structure rotation type top threaded rod all are provided with the vertical height-adjusting mechanism of reverse thread structure rotation type and use spacing hole, two inside in the spacing hole for the vertical height-adjusting mechanism of reverse thread structure rotation type inserts a vertical height-adjusting mechanism of reverse thread structure rotation type and uses the spacing rod, the vertical height-adjusting mechanism of reverse thread structure rotation type is with bottom threaded rod and the vertical height-adjusting mechanism of reverse thread structure rotation type installs the vertical height-adjusting mechanism of reverse thread structure rotation type and uses first connecting plate and the vertical height-adjusting mechanism of reverse thread structure rotation type second connecting plate respectively at the other both ends of the top threaded rod, the vertical height-adjusting mechanism of reverse thread structure rotation type is with first connecting plate and the vertical height-adjusting mechanism of reverse thread structure rotation type second connecting plate for mechanism, the vertical height-adjusting mechanism of reverse thread structure rotation type is with first connecting plate and the vertical height-adjusting mechanism of reverse thread structure rotation type second connecting plate Is provided with a first bolt hole for a reverse thread structure rotary type longitudinal height adjusting mechanism and a second bolt hole for a reverse thread structure rotary type longitudinal height adjusting mechanism.
Furthermore, the thread structure for the reverse thread structure rotary type vertical height adjusting mechanism comprises an internal thread structure arranged on the inner wall of a thread sleeve for the reverse thread structure rotary type vertical height adjusting mechanism and an external thread structure arranged on a bottom threaded rod for the reverse thread structure rotary type vertical height adjusting mechanism and a top threaded rod body for the reverse thread structure rotary type vertical height adjusting mechanism, and is located in the opposite thread direction of the thread structure on the bottom threaded rod for the reverse thread structure rotary type vertical height adjusting mechanism and the top threaded rod body for the reverse thread structure rotary type vertical height adjusting mechanism.
Furthermore, the structural appearance of the cross section of the limiting hole for the reverse thread structure rotary type longitudinal height adjusting mechanism and the structural appearance of the cross section of the limiting rod for the reverse thread structure rotary type longitudinal height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism are mounted on the end surfaces of the main first connecting plate and the main second connecting plate through bolts.
Further, the gear train meshing type rotation state differentiation mechanism includes a housing for the gear train meshing type rotation state differentiation mechanism, a gear installation space for the gear train meshing type rotation state differentiation mechanism, a first rotation shaft for the gear train meshing type rotation state differentiation mechanism, a second rotation shaft for the gear train meshing type rotation state differentiation mechanism, a bearing for the gear train meshing type rotation state differentiation mechanism, a main gear for the gear train meshing type rotation state differentiation mechanism, a sub-gear for the gear train meshing type rotation state differentiation mechanism, a third rotation shaft for the gear train meshing type rotation state differentiation mechanism, and a fourth rotation shaft 139 for the gear train meshing type rotation state differentiation mechanism; and a gear installation space for the gear set meshing type rotation state differentiation mechanism is arranged in the center of the shell for the gear set meshing type rotation state differentiation mechanism. The gear set meshed type rotating state differentiation mechanism is characterized in that a first rotating shaft for a gear set meshed type rotating state differentiation mechanism is installed at the center of one side of a shell of the gear set meshed type rotating state differentiation mechanism through a bearing for the gear set meshed type rotating state differentiation mechanism, second rotating shafts for two gear set meshed type rotating state differentiation mechanisms are respectively installed at one side of the shell of the gear set meshed type rotating state differentiation mechanism, a main gear for the gear set meshed type rotating state differentiation mechanism is installed at the end part of the first rotating shaft of the gear set meshed type rotating state differentiation mechanism, auxiliary gears for the gear set meshed type rotating state differentiation mechanism are respectively installed at the end parts of the second rotating shafts of the two gear set meshed type rotating state differentiation mechanisms, and the main gear for the gear set meshed type rotating state differentiation mechanism and the auxiliary gear for the gear set meshed type rotating state differentiation mechanism are respectively installed through a third rotating shaft for the gear set meshed type rotating state differentiation mechanism and an auxiliary gear for the gear set meshed type rotating state differentiation mechanism The fourth rotating shaft is mounted inside the side surface of the gear train meshing type rotating state differentiation mechanism housing.
Further, the gear train meshing type rotation state differentiation mechanism is mounted on the side of the frame with a housing.
Furthermore, the gear set meshed type rotation state differentiation mechanism is fixedly connected with the end part of the motor spindle through a first rotating shaft, and the gear set meshed type rotation state differentiation mechanism is fixedly connected with the end part of the main rotating shaft through a second rotating shaft and the end part of a third rotating shaft.
Further, the telescopic fixture of coil spring conflict includes that coil spring conflicts telescopic fixture and uses first connecting plate, coil spring conflicts telescopic fixture and uses first bolt hole, coil spring conflicts telescopic fixture and uses hollow shell, coil spring conflicts telescopic fixture and uses hollow structure, coil spring conflicts telescopic fixture and uses coil spring, coil spring conflicts telescopic fixture and uses the movable plate, coil spring conflicts telescopic fixture and uses the push rod, coil spring conflicts telescopic fixture and uses the second bolt hole with the telescopic fixture of coil spring conflict second connecting plate for telescopic fixture, the inside of the telescopic fixture of coil spring conflict first connecting plate is provided with a plurality of coil spring and conflicts telescopic fixture and uses first bolt hole, the surface of the telescopic fixture of coil spring conflict first connecting plate is provided with the telescopic fixture of coil spring conflict of integral type and uses empty A core shell, wherein a hollow structure for a coil spring abutting telescopic clamping mechanism is arranged at the center inside the hollow shell for the coil spring abutting telescopic clamping mechanism, a coil spring abutting telescopic clamping mechanism coil spring in a compressed state is arranged inside the hollow structure for the coil spring abutting telescopic clamping mechanism, a coil spring abutting telescopic clamping mechanism coil spring moving plate for the coil spring abutting telescopic clamping mechanism is arranged at the top of the coil spring abutting telescopic clamping mechanism coil spring, a coil spring abutting telescopic clamping mechanism push rod is arranged at the center of the upper surface of the coil spring abutting telescopic clamping mechanism moving plate, the coil spring abutting telescopic clamping mechanism push rod body runs through the center of the top of the hollow shell for the coil spring abutting telescopic clamping mechanism, and a coil spring abutting telescopic clamping mechanism second connecting plate is arranged at the top of the coil spring abutting telescopic clamping mechanism push rod, the inside of the second connecting plate for the coil spring abutting telescopic clamping mechanism is provided with a plurality of second bolt holes for the coil spring abutting telescopic clamping mechanism.
Further, the first connecting plate for the coil spring abutting telescopic fixture is installed at both ends inside the frame by inserting bolts inside the first bolt holes for the coil spring abutting telescopic fixture.
Further, the coil spring is abutted against the telescopic clamping mechanism and is arranged on a plate body of a main third connecting plate through a second connecting plate.
Compared with the prior art, the invention has the beneficial effects that: the wire peeling device has the function of end traction in the wire peeling work, can perform traction in different directions on a copper wire inside a cut wire body and a wire skin outside the wire body, has a certain distance, can tear the wire skin which is not completely cut in the cutting device, has higher utilization rate of a driving motor, improves the utilization rate of a power source, has a reverse thread structure rotary type longitudinal height adjusting mechanism, can perform the height adjusting function of a working state, has a gear set meshed type rotary state differentiating mechanism, can differentiate the rotation of the driving motor into two driving forces, and achieves multiple purposes.
Drawings
Fig. 1 is a schematic view of a full-section structure of a wire body separating and traction device for an electric wire stripping mechanism according to the present invention;
FIG. 2 is a schematic structural view of a rotary longitudinal height adjusting mechanism with a reverse thread structure in a wire body separating traction device for an electric wire stripping mechanism according to the present invention;
fig. 3 is a schematic structural view of a gear train meshing type rotation state differentiation mechanism in a wire body separation traction device for an electric wire stripping mechanism according to the present invention;
fig. 4 is a schematic structural view of a coil spring abutting against a telescopic clamping mechanism in a wire body separating and traction device for an electric wire stripping mechanism according to the present invention;
in the figure: 1, a bottom mounting base plate, 2, a main bolt hole, 3, a main first connecting plate, 4, a reverse thread structure rotation type longitudinal height adjusting mechanism, 41, a thread sleeve for the reverse thread structure rotation type longitudinal height adjusting mechanism, 42, a thread section for the reverse thread structure rotation type longitudinal height adjusting mechanism, 43, a thread structure for the reverse thread structure rotation type longitudinal height adjusting mechanism, 44, a bottom threaded rod for the reverse thread structure rotation type longitudinal height adjusting mechanism, 45, a top threaded rod for the reverse thread structure rotation type longitudinal height adjusting mechanism, 46, a limiting hole for the reverse thread structure rotation type longitudinal height adjusting mechanism, 47, a limiting rod for the reverse thread structure rotation type longitudinal height adjusting mechanism, 48, a first connecting plate for the reverse thread structure rotation type longitudinal height adjusting mechanism, 49, a second connecting plate for the reverse thread structure rotation type longitudinal height adjusting mechanism, 410, a first bolt hole for a reverse thread structure rotation type longitudinal height adjustment mechanism, 411, a second bolt hole for a reverse thread structure rotation type longitudinal height adjustment mechanism, 5, a main second connecting plate, 6, a main vertical plate, 7, a driving motor mounting housing, 8, a driving motor, 9, a motor main shaft, 10, a transverse fixing rod, 11, a frame, 12, a main component mounting space, 13, a gear train meshing type rotation state differentiation mechanism, 131, a gear train meshing type rotation state differentiation mechanism housing, 132, a gear train meshing type rotation state differentiation mechanism gear mounting space, 133, a gear train meshing type rotation state differentiation mechanism first rotating shaft, 134, a gear train meshing type rotation state differentiation mechanism second rotating shaft, 135, a gear train meshing type rotation state differentiation mechanism bearing, 136, a gear train meshing type rotation state differentiation mechanism main gear, 137, a pinion for the gear train meshing type rotational state differentiation mechanism, 138, a third rotation shaft for the gear train meshing type rotational state differentiation mechanism, 139, a fourth rotation shaft for the gear train meshing type rotational state differentiation mechanism, 139, 14, a main rotation shaft, 15, a fixed rotation wheel, 16, a coil spring, which abuts against the retractable clamping mechanism, a first connecting plate for the coil spring, 161, a coil spring, which abuts against the retractable clamping mechanism, a first bolt hole for the retractable clamping mechanism, 162, a hollow housing for the coil spring, 163, a hollow structure for the coil spring, 164, a coil spring, which abuts against the retractable clamping mechanism, a coil spring, 165, a moving plate for the retractable clamping mechanism, 166, a push rod for the retractable clamping mechanism, 167, a second connecting plate for the retractable clamping mechanism, 168, a second bolt hole for a coil spring to abut against the telescopic clamping mechanism, 17, a main third connecting plate, 18, a fixed frame, 19 and a movable rotating wheel.
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 with a main bolt hole 2 arranged inside, a main first connecting plate 3 is arranged at the center of the upper surface of the bottom mounting base plate 1, a reverse thread structure rotary type longitudinal height adjusting mechanism 4 is arranged at the top end of the main first connecting plate 3, a main vertical plate 6 is arranged at the top end of the reverse thread structure rotary type longitudinal height adjusting mechanism 4 through a main second connecting plate 5, a driving motor mounting shell 7 is arranged at one side of the main vertical plate 6, a driving motor 8 is arranged inside the driving motor mounting shell 7, a motor main shaft 9 in the driving motor 8 penetrates through the main vertical plate 6 and is fixedly connected with the main vertical plate through a main bearing at the penetrating part, a frame 11 is arranged at the other side of the main vertical plate 6 through a transverse fixing rod 10, a main part mounting space 12 is arranged inside the frame 11, a spiral spring abutting telescopic clamping mechanism 16 is respectively arranged at the bottom and the top of the main part mounting space 12 through bolts, the utility model discloses a motor spindle 9, including telescopic fixture 16, frame 11, main rotation wheel 19, frame 11, gear train engaged type rotation state differentiation mechanism 13, the center at 11 terminal surfaces of frame is installed through the bolt, just the rotatory end of gear train engaged type rotation state differentiation mechanism 13 and the tip fixed connection of main rotation axis 14, the telescopic fixture 16's of coil spring conflict tip installs mount 18 through main third connecting plate 17, movable swiveling wheel 19 is installed through the main bearing in mount 18 center, frame 11 installs a main rotation axis 14, two respectively through the main bearing in two inboards that are located two movable swiveling wheels 19 install a fixed swiveling wheel 15 on the axis body of main rotation axis 14 respectively, motor spindle 9's tip installation gear train engaged type rotation state differentiation mechanism 13, gear train engaged type rotation state differentiation mechanism 13 passes through the center at 11 terminal surfaces of frame, just gear train engaged type rotation state differentiation mechanism 13's the tip fixed connection of rotation end and main rotation axis 14.
Referring to fig. 2, the reverse-thread-structure rotary type longitudinal height adjustment mechanism 4 includes a reverse-thread-structure rotary type longitudinal height adjustment mechanism threaded sleeve 41, a reverse-thread-structure rotary type longitudinal height adjustment mechanism threaded section 42, a reverse-thread-structure rotary type longitudinal height adjustment mechanism threaded structure 43, a reverse-thread-structure rotary type longitudinal height adjustment mechanism bottom threaded rod 44, a reverse-thread-structure rotary type longitudinal height adjustment mechanism top threaded rod 45, a reverse-thread-structure rotary type longitudinal height adjustment mechanism limiting hole 46, a reverse-thread-structure rotary type longitudinal height adjustment mechanism limiting rod 47, a reverse-thread-structure rotary type longitudinal height adjustment mechanism first connecting plate 48, a reverse-thread-structure rotary type longitudinal height adjustment mechanism second connecting plate 49, a reverse-thread-structure rotary type longitudinal height adjustment mechanism first bolt hole 410, and a reverse-thread-structure rotary type longitudinal height adjustment mechanism second connecting plate 49 A second bolt hole 411; the center inside the reverse thread structure rotary type longitudinal height adjusting mechanism threaded sleeve 41 is provided with a reverse thread structure rotary type longitudinal height adjusting mechanism threaded section 42 communicating with both end faces of the reverse thread structure rotary type longitudinal height adjusting mechanism threaded sleeve 41, the reverse thread structure rotary type longitudinal height adjusting mechanism threaded sleeve 41 is provided with a reverse thread structure rotary type longitudinal height adjusting mechanism threaded structure 43 on the inner wall of the reverse thread structure rotary type longitudinal height adjusting mechanism threaded section 42, the bottom and the top of the reverse thread structure rotary type longitudinal height adjusting mechanism threaded section 42 are respectively connected with a reverse thread structure rotary type longitudinal height adjusting mechanism bottom threaded rod 44 and a reverse thread structure rotary type longitudinal height adjusting mechanism top threaded rod 45 through the reverse thread structure rotary type longitudinal height adjusting mechanism threaded structure 43, the vertical height adjustment mechanism of reverse thread structure rotation type is with bottom threaded rod 44 and the vertical height adjustment mechanism of reverse thread structure rotation type top threaded rod 45 all is provided with the vertical height adjustment mechanism of reverse thread structure rotation type and uses spacing hole 46, two inside insertion a vertical height adjustment mechanism of reverse thread structure rotation type gag lever post 47 for the vertical height adjustment mechanism of reverse thread structure rotation type, the vertical height adjustment mechanism of reverse thread structure rotation type is with bottom threaded rod 44 and the vertical height adjustment mechanism of reverse thread structure rotation type uses the other both ends of top threaded rod 45 and installs the vertical height adjustment mechanism of reverse thread structure rotation type and uses first connecting plate 48 and the vertical height adjustment mechanism of reverse thread structure rotation type and use second connecting plate 49 respectively, the vertical height adjustment mechanism of reverse thread structure rotation type is with first connecting plate 48 and the vertical height adjustment mechanism of reverse thread structure rotation type A first bolt hole 410 for a reverse thread structure rotary type longitudinal height adjusting mechanism and a second bolt hole 411 for a reverse thread structure rotary type longitudinal height adjusting mechanism are arranged inside the second connecting plate 49 for an adjusting mechanism; the thread structure 43 for the reverse thread structure rotary type longitudinal height adjusting mechanism comprises an internal thread structure arranged on the inner wall of the thread sleeve 41 for the reverse thread structure rotary type longitudinal height adjusting mechanism and external thread structures arranged on a bottom threaded rod 44 for the reverse thread structure rotary type longitudinal height adjusting mechanism and a top threaded rod 45 for the reverse thread structure rotary type longitudinal height adjusting mechanism, and the thread directions of the thread structures on the rod bodies of the bottom threaded rod 44 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod 45 for the reverse thread structure rotary type longitudinal height adjusting mechanism are opposite; the cross section structural appearance of the limiting hole 46 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the cross section structural appearance of the limiting rod 47 for the reverse thread structure rotary type longitudinal height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole 410 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole 411 for the reverse thread structure rotary type longitudinal height adjusting mechanism are mounted on the end surfaces of the main first connecting plate 3 and the main second connecting plate 5 through bolts.
Referring to fig. 3, the gear train meshing type rotation state differentiation mechanism 13 includes a gear train meshing type rotation state differentiation mechanism housing 131, a gear installation space 132 for the gear train meshing type rotation state differentiation mechanism, a first rotation shaft 133 for the gear train meshing type rotation state differentiation mechanism, a second rotation shaft 134 for the gear train meshing type rotation state differentiation mechanism, a bearing 135 for the gear train meshing type rotation state differentiation mechanism, a main gear 136 for the gear train meshing type rotation state differentiation mechanism, a sub-gear 137 for the gear train meshing type rotation state differentiation mechanism, a third rotation shaft 138 for the gear train meshing type rotation state differentiation mechanism, and a fourth rotation shaft 139 for the gear train meshing type rotation state differentiation mechanism; a gear mounting space 132 for the gear train meshing type rotation state differentiation mechanism is provided in the center of the gear train meshing type rotation state differentiation mechanism housing 131. A first rotating shaft 133 for a gear-set meshing type rotating state differentiation mechanism is installed at the center of one side of a housing 131 for the gear-set meshing type rotating state differentiation mechanism through a bearing 135 for the gear-set meshing type rotating state differentiation mechanism, second rotating shafts 134 for two gear-set meshing type rotating state differentiation mechanism are respectively installed at one side of the housing 131 for the gear-set meshing type rotating state differentiation mechanism, a main gear 136 for the gear-set meshing type rotating state differentiation mechanism is installed at the end part of the first rotating shaft 133 for the gear-set meshing type rotating state differentiation mechanism, sub-gears 137 for the gear-set meshing type rotating state differentiation mechanism are respectively installed at the end parts of the second rotating shafts 134 for the two gear-set meshing type rotating state differentiation mechanisms, and the end parts of the main gear 136 for the gear-set meshing type rotating state differentiation mechanism and the sub-gears 137 for the gear-set meshing type rotating state differentiation mechanism are respectively through a third rotating shaft 138 for the gear-set meshing type rotating state differentiation mechanism and the gear-set meshing type rotating state differentiation mechanism A fourth rotating shaft 139 for meshing type rotation state differentiation mechanism is attached to the inside of the side surface of the housing 131 for meshing type rotation state differentiation mechanism of gear train; the gear train meshing type rotating state differentiation mechanism casing 131 is installed on the side of the frame 10; the gear train meshing type rotation state differentiation mechanism is fixedly connected with the end part of the motor spindle 9 through a first rotating shaft 133, and the gear train meshing type rotation state differentiation mechanism is fixedly connected with the end part of the main rotating shaft 14 through a second rotating shaft 134 and a fourth rotating shaft 139.
Referring to fig. 4, the coil spring abutting telescopic clamping mechanism 16 includes a first connecting plate 161 for the coil spring abutting telescopic clamping mechanism, a first bolt hole 162 for the coil spring abutting telescopic clamping mechanism, a hollow shell 163 for the coil spring abutting telescopic clamping mechanism, a hollow structure 164 for the coil spring abutting telescopic clamping mechanism, a coil spring 165 for the coil spring abutting telescopic clamping mechanism, a moving plate 166 for the coil spring abutting telescopic clamping mechanism, a push rod 167 for the coil spring abutting telescopic clamping mechanism, a second connecting plate 161 for the coil spring abutting telescopic clamping mechanism, and a second bolt hole 169 for the coil spring abutting telescopic clamping mechanism, wherein the first connecting plate 161 for the coil spring abutting telescopic clamping mechanism is internally provided with a plurality of first bolt holes 162 for the coil spring abutting telescopic clamping mechanism, and the surface of the first connecting plate 161 for the coil spring abutting telescopic clamping mechanism is provided with an integrated bolt hole The coil spring conflicts the telescopic fixture with the hollow shell 163, the coil spring conflicts the telescopic fixture with the hollow shell 163 inside center and is provided with the coil spring conflicts the telescopic fixture with the hollow structure 164, the coil spring conflicts the telescopic fixture with the hollow structure 164 inside and is provided with the coil spring 165 in the compression state, the coil spring conflicts the telescopic fixture with the top and is provided with the coil spring conflicts the telescopic fixture with the coil spring 165 and uses the movable plate 166, the coil spring conflicts the telescopic fixture with the movable plate 166 and is provided with the coil spring conflicts the telescopic fixture with the push rod 167 on the center of the upper surface of the movable plate 166, the rod body of the coil spring conflicts the telescopic fixture with the push rod 167 runs through the center of the top of the coil spring conflicts the telescopic fixture with the hollow shell 163, a second connecting plate 168 for the spiral spring to abut against the telescopic clamping mechanism is arranged at the top end of the push rod 167 for the spiral spring to abut against the telescopic clamping mechanism, and a plurality of second bolt holes 169 for the spiral spring to abut against the telescopic clamping mechanism are formed in the second connecting plate 168 for the spiral spring to abut against the telescopic clamping mechanism; the first connecting plate 161 for the coil spring abutting telescopic fixture is installed at both ends inside the frame 11 by bolts inserted into the first bolt holes 162 for the coil spring abutting telescopic fixture; the coil spring is mounted on the plate body of the main third connecting plate 17 against the second connecting plate 168 for the telescopic gripping mechanism.
The specific use mode is as follows: in the work of the invention, a bottom mounting base plate 1 is arranged at a work position, then two cutting wire skins cut by a wire separating and cutting device through an electric wire peeling mechanism are respectively arranged at a clamping gap between two fixed rotating wheels 15 and a movable rotating wheel 19, then a copper wire is guided and clamped at the gap between the two fixed rotating wheels 15, a driving motor 8 is opened, and under the linkage action of the parts, the two fixed rotating wheels 15 rotate to drive the wire skins and the copper wire to move, thereby realizing the separated traction.
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 (10)

1. The utility model provides an electric wire is line body separation draw gear for peeling mechanism, includes inside bottom mounting substrate (1) that is provided with king bolt hole (2), its characterized in that: a main first connecting plate (3) is installed at the center of the upper surface of the bottom installation base plate (1), a reverse thread structure rotary type longitudinal height adjusting mechanism (4) is installed at the top end of the main first connecting plate (3), a main vertical plate (6) is installed at the top end of the reverse thread structure rotary type longitudinal height adjusting mechanism (4) through a main second connecting plate (5), a driving motor installation shell (7) is installed on one side of the main vertical plate (6), a driving motor (8) is installed inside the driving motor installation shell (7), a motor spindle (9) in the driving motor (8) penetrates through the main vertical plate (6), the main vertical plate and the driving motor installation shell are fixedly connected through a main bearing at the penetrating part, a frame (11) is installed on the other side of the main vertical plate (6) through a transverse fixing rod (10), and a main part installation space (12) is arranged inside the frame (11), install a coil spring telescopic fixture (16) of contradicting respectively through the bolt in the bottom and the top of major part installation space (12), mount (18) are installed through main third connecting plate (17) to the tip of coil spring telescopic fixture (16) of contradicting, movable swiveling wheel (19) are installed through the base bearing in mount (18) center, frame (11) are being located two insides of two movable swiveling wheels (19) and are installing a main rotation axis (14) respectively through the base bearing, two install a fixed swiveling wheel (15) on the axis body of main rotation axis (14) respectively, a gear train meshing type rotation state differentiation mechanism (13) is installed to the tip of motor main shaft (9), gear train meshing type rotation state differentiation mechanism (13) is through the center of bolt installation at a frame (11) terminal surface, just the rotation end of gear train meshing type rotation state differentiation mechanism (13) and the tip of main rotation axis (14) And (4) fixedly connecting.
2. The wire body separating traction device for the wire stripping mechanism according to claim 1, wherein: the reverse thread structure rotary type longitudinal height adjusting mechanism (4) comprises a thread sleeve (41) for a reverse thread structure rotary type longitudinal height adjusting mechanism, a thread section (42) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread structure (43) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a bottom threaded rod (44) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a top threaded rod (45) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a limiting hole (46) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a limiting rod (47) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a first connecting plate (48) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a second connecting plate (49) for the reverse thread structure rotary type longitudinal height adjusting mechanism, A first bolt hole (410) for a reverse thread structure rotary type longitudinal height adjusting mechanism and a second bolt hole (411) for a reverse thread structure rotary type longitudinal height adjusting mechanism; the center of the inside of the threaded sleeve (41) for the reverse threaded structure rotary type longitudinal height adjusting mechanism is provided with a threaded section (42) for the reverse threaded structure rotary type longitudinal height adjusting mechanism communicating with the threaded sleeve (41) for the reverse threaded structure rotary type longitudinal height adjusting mechanism, the threaded sleeve (41) for the reverse threaded structure rotary type longitudinal height adjusting mechanism is positioned at the inner wall of the threaded section (42) for the reverse threaded structure rotary type longitudinal height adjusting mechanism is provided with a threaded structure (43) for the reverse threaded structure rotary type longitudinal height adjusting mechanism, and the bottom and the top of the threaded section (42) for the reverse threaded structure rotary type longitudinal height adjusting mechanism are respectively connected with a bottom threaded rod (44) for the reverse threaded structure rotary type longitudinal height adjusting mechanism and a reverse threaded structure rotary type longitudinal height adjusting machine through the threaded structure (43) for the reverse threaded structure rotary type longitudinal height adjusting mechanism A top threaded rod (45) for the structure, a bottom threaded rod (44) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a top threaded rod (45) for the reverse thread structure rotary type longitudinal height adjusting mechanism are respectively provided with a limiting hole (46) for the reverse thread structure rotary type longitudinal height adjusting mechanism in the opposite end, a limiting rod (47) for the reverse thread structure rotary type longitudinal height adjusting mechanism is inserted into the limiting hole (46) for the reverse thread structure rotary type longitudinal height adjusting mechanism, the other two ends of the bottom threaded rod (44) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod (45) for the reverse thread structure rotary type longitudinal height adjusting mechanism are respectively provided with a first connecting plate (48) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a second connecting plate (49) for the reverse thread structure rotary type longitudinal height adjusting mechanism, the first connecting plate (48) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second connecting plate (49) for the reverse thread structure rotary type longitudinal height adjusting mechanism are internally provided with a first bolt hole (410) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a second bolt hole (411) for the reverse thread structure rotary type longitudinal height adjusting mechanism.
3. The wire body separating and traction device for the wire stripping mechanism according to claim 2, wherein: the thread structure (43) for the reverse thread structure rotary type longitudinal height adjusting mechanism comprises an internal thread structure arranged on the inner wall of a thread sleeve (41) for the reverse thread structure rotary type longitudinal height adjusting mechanism and an external thread structure arranged on a bottom threaded rod (44) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a top threaded rod (45) for the reverse thread structure rotary type longitudinal height adjusting mechanism, and is located in the opposite direction of the thread structure on the rod body of the bottom threaded rod (44) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod (45) for the reverse thread structure rotary type longitudinal height adjusting mechanism.
4. The wire body separating and traction device for the wire stripping mechanism according to claim 2, wherein: the structure appearance of the cross section of the limiting hole (46) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the structure appearance of the cross section of the limiting rod (47) for the reverse thread structure rotary type longitudinal height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole (410) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole (411) for the reverse thread structure rotary type longitudinal height adjusting mechanism are installed on the end surfaces of the main first connecting plate (3) and the main second connecting plate (5) through bolts.
5. The wire body separating traction device for the wire stripping mechanism according to claim 1, wherein: the gear set meshing type rotation state differentiation mechanism (13) comprises a housing (131) for the gear set meshing type rotation state differentiation mechanism, a gear installation space (132) for the gear set meshing type rotation state differentiation mechanism, a first rotating shaft (133) for the gear set meshing type rotation state differentiation mechanism, a second rotating shaft (134) for the gear set meshing type rotation state differentiation mechanism, a bearing (135) for the gear set meshing type rotation state differentiation mechanism, a main gear (136) for the gear set meshing type rotation state differentiation mechanism, a secondary gear (137) for the gear set meshing type rotation state differentiation mechanism, a third rotating shaft (138) for the gear set meshing type rotation state differentiation mechanism and a third rotating shaft (139) for the gear set meshing type rotation state differentiation mechanism; a gear mounting space (132) for the gear meshing type rotation state differentiation mechanism is arranged at the center of the gear meshing type rotation state differentiation mechanism housing (131). A first rotating shaft (133) for a gear set meshing type rotating state differentiation mechanism is arranged at the center of one side of a gear set meshing type rotating state differentiation mechanism shell (131) through a gear set meshing type rotating state differentiation mechanism bearing (135), second rotating shafts (134) for two gear set meshing type rotating state differentiation mechanisms are respectively arranged at one sides of the gear set meshing type rotating state differentiation mechanism shell (131), a main gear (136) for the gear set meshing type rotating state differentiation mechanism is arranged at the end part of the gear set meshing type rotating state differentiation mechanism first rotating shaft (133), auxiliary gears (137) for the gear set meshing type rotating state differentiation mechanism are respectively arranged at the end parts of the two gear set meshing type rotating state differentiation mechanisms second rotating shafts (134), and the gear set meshing type rotating state differentiation mechanism main gear (136) and the gear set meshing type rotating state differentiation mechanism auxiliary gears (137) are respectively arranged at the end parts through the gear sets A third rotation shaft (138) for a meshing type rotation state differentiation mechanism and a third rotation shaft (139) for a gear train meshing type rotation state differentiation mechanism are attached to the inside of the side surface of a housing (131) for a gear train meshing type rotation state differentiation mechanism.
6. The wire body separating traction device for the wire stripping mechanism according to claim 5, wherein: the gear-set meshing type rotation state differentiation mechanism is mounted on the side surface of the frame (10) by a housing (131).
7. The wire body separating traction device for the wire stripping mechanism according to claim 5, wherein: the gear set meshing type rotation state differentiation mechanism is fixedly connected with the end part of the motor spindle (9) through a first rotating shaft (133), and the gear set meshing type rotation state differentiation mechanism is fixedly connected with the end part of the main rotating shaft (14) through a second rotating shaft (134) and the end part of a third rotating shaft (139).
8. The wire body separating traction device for the wire stripping mechanism according to claim 1, wherein: the coil spring conflict telescopic clamping mechanism (16) comprises a first connecting plate (161) for the coil spring conflict telescopic clamping mechanism, a first bolt hole (162) for the coil spring conflict telescopic clamping mechanism, a hollow shell (163) for the coil spring conflict telescopic clamping mechanism, a hollow structure (164) for the coil spring conflict telescopic clamping mechanism, a coil spring (165) for the coil spring conflict telescopic clamping mechanism, a movable plate (166) for the coil spring conflict telescopic clamping mechanism, a push rod (167) for the coil spring conflict telescopic clamping mechanism, a second connecting plate (161) for the coil spring conflict telescopic clamping mechanism and a second bolt hole (169) for the coil spring conflict telescopic clamping mechanism, wherein a plurality of first bolt holes (162) for the coil spring conflict telescopic clamping mechanism are arranged inside the first connecting plate (161) for the coil spring conflict telescopic clamping mechanism, the surface of the first connecting plate (161) for the coil spring abutting telescopic clamping mechanism is provided with an integrated hollow shell (163) for the coil spring abutting telescopic clamping mechanism, the inner center of the hollow shell (163) for the coil spring abutting telescopic clamping mechanism is provided with a hollow structure (164) for the coil spring abutting telescopic clamping mechanism, the coil spring abutting telescopic clamping mechanism is internally provided with a coil spring (165) for the coil spring abutting telescopic clamping mechanism in a compression state of the hollow structure (164), the top of the coil spring (165) for the coil spring abutting telescopic clamping mechanism is provided with a movable plate (166) for the coil spring abutting telescopic clamping mechanism, and the upper surface center of the movable plate (166) for the coil spring abutting telescopic clamping mechanism is provided with a push rod (167) for the coil spring abutting telescopic clamping mechanism, the body of rod of the telescopic fixture of coil spring conflict push rod (167) runs through hollow shell (163) top center for the telescopic fixture of coil spring conflict, just the telescopic fixture of coil spring conflict is with push rod (167) top installation second connecting plate (168) for the telescopic fixture of coil spring conflict, the inside of the telescopic fixture of coil spring conflict second connecting plate (168) is provided with a plurality of coil springs and conflicts telescopic fixture and use second bolt hole (169).
9. The wire body separating traction device for the wire stripping mechanism according to claim 8, wherein: the first connecting plate (161) for the coil spring abutting telescopic clamping mechanism is installed at two ends inside the frame (11) through bolts inserted into the first bolt holes (162) for the coil spring abutting telescopic clamping mechanism.
10. The wire body separating traction device for the wire stripping mechanism according to claim 8, wherein: the spiral spring is abutted against the telescopic clamping mechanism and is arranged on a plate body of the main third connecting plate (17) through a second connecting plate (168).
CN201911026541.0A 2019-10-26 2019-10-26 Wire body separation traction device for wire stripping mechanism Active CN110970179B (en)

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CN110087421A (en) * 2019-06-04 2019-08-02 永春锐拓信息技术中心 A kind of electronic equipment security protection dedusting protection cabinets
CN110354729A (en) * 2019-07-24 2019-10-22 米铁山 A kind of cement liquid and powder mixing stirring device

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0764505A1 (en) * 1995-09-22 1997-03-26 Bobst S.A. Process for controlling the radial separation between two rotary tools and device for carrying out the process
CN204167015U (en) * 2014-10-09 2015-02-18 国家电网公司 Cable peeling retracting device
CN207834959U (en) * 2018-01-05 2018-09-07 山东迪龙电缆有限公司 A kind of discarded cable peeling device
CN110087421A (en) * 2019-06-04 2019-08-02 永春锐拓信息技术中心 A kind of electronic equipment security protection dedusting protection cabinets
CN110354729A (en) * 2019-07-24 2019-10-22 米铁山 A kind of cement liquid and powder mixing stirring device

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