CN111711126B - Cable outer skin stripping equipment for power cable - Google Patents

Cable outer skin stripping equipment for power cable Download PDF

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Publication number
CN111711126B
CN111711126B CN202010704491.3A CN202010704491A CN111711126B CN 111711126 B CN111711126 B CN 111711126B CN 202010704491 A CN202010704491 A CN 202010704491A CN 111711126 B CN111711126 B CN 111711126B
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plate
cable
winding
collecting
sliding
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CN111711126A (en
Inventor
胡晓娟
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SHANXI LIBO CABLE Co.,Ltd.
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Shanxi Libo Cable Co ltd
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02GINSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
    • H02G1/00Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines
    • H02G1/12Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines for removing insulation or armouring from cables, e.g. from the end thereof
    • H02G1/1202Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines for removing insulation or armouring from cables, e.g. from the end thereof by cutting and withdrawing insulation
    • H02G1/1248Machines
    • H02G1/1268Machines the cutting element making a longitudinal in combination with a transverse or a helical cut

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Abstract

The invention relates to a cable outer skin stripping device, in particular to a cable outer skin stripping device for a power cable, which comprises a winding mechanism, a conveying mechanism and a transverse cutting mechanism, longitudinal cutting mechanism, raw and other materials collection mechanism, equipment can be with the cable winding on the winding post, equipment can cable outer skin side direction cutting, equipment can be with the cutting of cable outer skin upside, equipment can be come out by the outer skin slope of cutting, equipment can be with cable metal core winding on collecting the winding post, winding mechanism is connected with transport mechanism, transport mechanism is connected with horizontal cutting mechanism, horizontal cutting mechanism is connected with winding mechanism, longitudinal cutting mechanism is connected with winding mechanism, transport mechanism is connected with longitudinal cutting mechanism, horizontal cutting mechanism is connected with longitudinal cutting mechanism, longitudinal cutting mechanism is connected with raw and other materials collection mechanism.

Description

Cable outer skin stripping equipment for power cable
Technical Field
The invention relates to a cable outer skin stripping device, in particular to a cable outer skin stripping device for a power cable.
Background
In the use of the cable, a long cable outer skin is often required to be stripped from a cable core, the manual stripping is troublesome and labor-consuming, but no good cable outer skin stripping equipment is available in the market, so the cable outer skin stripping equipment for the power cable is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing the equipment for stripping the outer skin of the cable for the power cable, the equipment can wind the cable on a winding column, the equipment can cut the outer skin of the cable in the lateral direction, the equipment can cut the upper side of the outer skin of the cable, the equipment can incline the cut outer skin, and the equipment can wind a metal core of the cable on a collecting winding column.
In order to solve the technical problem, the invention relates to a cable outer skin stripping device, in particular to a cable outer skin stripping device for a power cable, which comprises a winding mechanism, a conveying mechanism, a transverse cutting mechanism, a longitudinal cutting mechanism and a raw material collecting mechanism.
The winding mechanism is connected with the conveying mechanism, the conveying mechanism is connected with the transverse cutting mechanism, the transverse cutting mechanism is connected with the winding mechanism, the longitudinal cutting mechanism is connected with the winding mechanism, the conveying mechanism is connected with the longitudinal cutting mechanism, the transverse cutting mechanism is connected with the longitudinal cutting mechanism, and the longitudinal cutting mechanism is connected with the raw material collecting mechanism.
As a further optimization of the technical scheme, the invention relates to a stripping device for the outer skin of a cable for a power cable, which comprises a motor mounting block, a motor shaft, a belt, a winding transmission shaft a, a cylindrical belt, a winding transmission shaft b, a friction wheel, a winding column, a winding limiting plate a, a cable, a winding limiting plate b, a winding rotation shaft, a cable compression plate, a compression plate sliding column, a compression spring, a handle, a winding mounting plate, a device mounting plate, a cylindrical belt compression column, a cylindrical belt compression spring and a cable compression fixing plate, wherein the motor mounting block is connected with the motor, the motor is connected with the motor shaft, the motor shaft is connected with the belt in a friction way, the belt is connected with the winding transmission shaft a in a friction way, the cylindrical belt is connected with the winding transmission shaft b in a friction way, the winding transmission shaft b is connected with a winding mounting plate bearing, the friction wheel is connected with the cylindrical belt in a friction mode, the winding column is connected with the friction wheel, the winding limiting plate a is connected with the winding column, the cable is wound on the winding column, the winding limiting plate b is connected with the winding column, the winding rotating shaft is connected with the winding column, the cable compression plate is connected with the compression plate sliding column, the compression plate sliding column is connected with the handle, the compression spring is sleeved on the compression plate sliding column and limited on the cable compression plate and the cable compression fixing plate, the winding mounting plate is connected with the motor shaft bearing, the equipment mounting plate is connected with the winding rotating shaft bearing, the cylindrical belt compression plate is connected with the cylindrical belt in a friction mode, the cylindrical belt compression column is connected with the cylindrical belt compression plate, the cylindrical belt compression spring is sleeved on the cylindrical belt compression column and limited on the cylindrical belt compression plate and the winding mounting plate on one side, the cable compression fixing plate is connected with the compression plate sliding column in a sliding mode, and the motor mounting block is connected with the winding mounting plate, winding transmission shaft an is connected with winding mounting panel bearing, and winding transmission shaft b is connected with winding mounting panel bearing, winding limiting plate an and cable oppression board sliding connection, and winding limiting plate an is connected with oppression board sliding column, and oppression board sliding column and winding mounting panel sliding connection twine mounting panel and cylindrical belt oppression post sliding connection.
As a further optimization of the technical scheme, the invention relates to a cable outer skin stripping device for a power cable, which comprises a transmission mechanism, a transmission shaft, a cable sliding groove, a cable sliding plate, a sliding plate pressing shaft connecting plate, a sliding plate pressing spring, a sliding plate pressing shaft limiting plate and a pressing handle, wherein the transmission mechanism is in friction connection with the transmission shaft, the transmission shaft is connected with a winding mounting plate bearing, the cable sliding groove is formed on the cable sliding plate, the cable sliding plate is connected with the winding mounting plate, the sliding plate pressing shaft is connected with the cable sliding plate, the sliding plate pressing shaft connecting plate is in sliding connection with the sliding plate pressing shaft, the sliding plate pressing spring is sleeved on the sliding plate pressing shaft and limited on the cable sliding plate and the sliding plate pressing shaft connecting plate, the sliding plate pressing shaft limiting plate is connected with the sliding plate pressing shaft, and the pressing handle is connected with the cable sliding plate, the sliding plate compression shaft connecting plate is connected with the winding mounting plate.
As a further optimization of the technical scheme, the invention relates to a stripping device for the outer skin of a cable for a power cable, wherein a transverse cutting mechanism comprises a connecting plate a, a connecting plate b, a crushing motor shaft, a transmission friction wheel a, a crushing belt, a crushing transmission shaft a, a crushing friction wheel b, a rotary knife connecting shaft, a rotary knife, a cable sliding plate a, a cable sliding plate b, a connecting plate c and a connecting plate d, the connecting plate a is connected with the connecting plate b, the connecting plate b is connected with the crushing motor, the crushing motor is connected with the crushing motor shaft, the crushing motor shaft is connected with the transmission friction wheel a, the transmission friction wheel a is connected with the rotary knife connecting shaft in a friction manner, the crushing belt is connected with the crushing motor shaft in a friction manner, the crushing transmission shaft a is connected with the crushing belt in a friction manner, the crushing friction wheel b is connected, the rotary knife is connected with the rotary knife connecting shaft, the cable sliding plate a is connected with the connecting plate c, the cable sliding plate b is connected with the connecting plate c, the connecting plate c is connected with the connecting plate d, the connecting plate d is connected with the equipment mounting plate, the cable is connected with the connecting plate a in a sliding mode, the cable sliding plate a is connected with the cable sliding plate, the cable sliding plate a is connected with the cable in a sliding mode, the cable sliding plate b is connected with the connecting plate d, the cable sliding plate b is connected with the cable in a sliding mode, and the connecting plate d is connected with the cable in a sliding mode.
As a further optimization of the technical scheme, the invention relates to a stripping device for the outer skin of a cable for a power cable, wherein a longitudinal cutting mechanism comprises a cutting belt a, a cutting transmission shaft, a cutting transmission wheel, a cutting knife, a cutting belt b, a cutting compression shaft, a cutting compression wheel, a raw material bushing, a cable core compression plate a, a mounting side plate, a mounting plate b and a mounting plate c, the cutting belt a is in friction connection with the cutting transmission shaft, the cutting transmission shaft is connected with the cutting transmission wheel, the cutting transmission wheel is connected with the cutting knife, the cutting belt b is in friction connection with the cutting transmission shaft, the cutting compression shaft is in friction connection with the cutting belt b, the cutting compression wheel is connected with the cutting compression shaft, the raw material bushing is connected with the mounting side plate, the cable core compression plate a is connected with the mounting plate b, the mounting plate a is connected with the mounting side plate, and the mounting side plate b are connected, the mounting plate b is connected with the raw material bushing, the mounting plate c is connected with the raw material bushing, the cable core pressing plate a is connected with the mounting plate c, the mounting plate a is connected with the mounting plate b, the mounting plate a is connected with the mounting plate c, the mounting side plate is connected with the equipment mounting plate, the mounting plate b is connected with the equipment mounting plate, and the mounting plate c is connected with the equipment mounting plate.
As a further optimization of the technical scheme, the invention relates to a stripping device for the outer skin of a cable for a power cable, wherein a raw material collecting mechanism comprises a collecting motor mounting plate, a collecting motor shaft, a fan blade, a collecting mounting plate a, a sealing ring, a drainage plate, a collecting mounting plate b, a collecting belt, a collecting transmission shaft a, a collecting friction wheel, a collecting transmission shaft b, a collecting winding column, a collecting limiting plate a, a cable core, a collecting limiting column limiting plate, a cable core pressing plate b, a cable core pressing sliding shaft, a cable core pressing plate c, a cable core pressing handle and a cable core pressing spring, the collecting motor mounting plate is connected with the collecting motor, the collecting motor is connected with the collecting motor shaft, the collecting motor shaft is connected with the fan blade, the collecting mounting plate a is connected with the sealing ring, the sealing ring is connected with the drainage plate, and the drainage plate is connected with the collecting mounting plate b, the collecting mounting plate b is connected with a sealing ring, the collecting belt is connected with a collecting motor shaft in a friction way, the collecting transmission shaft a is connected with the collecting belt in a friction way, the collecting friction wheel is connected with the collecting transmission shaft b in a friction way, the collecting transmission shaft b is connected with a collecting winding column, the collecting winding column is connected with a collecting limiting plate a, a cable core is wound on the collecting winding column, the collecting limiting column limiting plate is connected with the collecting winding column, a cable core pressing plate b is connected with a cable core pressing sliding shaft, the cable core pressing sliding shaft is connected with a cable core pressing plate c in a sliding way, the cable core pressing plate c is connected with a collecting limiting column limiting plate, a cable core pressing handle is connected with the cable core pressing sliding shaft, a cable core pressing spring is sleeved on the cable core pressing sliding shaft and limited on the cable core pressing sliding shaft b and limited on the cable core pressing plate b and the cable core pressing plate c, the collecting motor shaft is connected with a bearing of the collecting mounting plate a, and the collecting mounting plate b is connected with a bearing of the collecting transmission shaft a, collect mounting panel b and be connected with the installation curb plate, collect mounting panel b and be connected with mounting panel b, collect mounting panel b and be connected with mounting panel c, collect transmission shaft b and be connected with equipment fixing board bearing, collect spacing post limiting plate and cable core oppression board b sliding connection.
The cable outer skin stripping equipment for the power cable has the beneficial effects that:
according to the stripping equipment for the outer skin of the cable for the power cable, disclosed by the invention, the equipment can wind the cable on the winding column, the equipment can laterally cut the outer skin of the cable, the equipment can cut the upper side of the outer skin of the cable, the equipment can incline the cut outer skin, and the equipment can wind the metal core of the cable on the collecting winding column.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a first structural schematic diagram of a cable outer skin stripping device for a power cable according to the present invention.
Fig. 2 is a schematic structural diagram of a cable outer skin stripping device for a power cable according to the present invention.
Fig. 3 is a schematic structural diagram of a winding mechanism 1 of a cable outer skin stripping device for a power cable according to the present invention.
Fig. 4 is a schematic structural diagram of a winding mechanism 1 of a cable outer skin stripping device for a power cable according to the present invention.
Fig. 5 is a schematic structural diagram of a winding mechanism 1 of a cable outer skin stripping device for a power cable according to the present invention.
Fig. 6 is a schematic structural diagram of a conveying mechanism 2 of the cable outer skin stripping device for the power cable according to the invention.
Fig. 7 is a schematic structural diagram of a conveying mechanism 2 of the cable outer skin stripping device for the power cable according to the invention.
Fig. 8 is a schematic structural diagram of a transverse cutting mechanism 3 of the cable outer skin stripping device for the power cable according to the invention.
Fig. 9 is a schematic structural diagram of a transverse cutting mechanism 3 of the cable outer skin stripping device for the power cable according to the invention.
Fig. 10 is a schematic structural view of a transverse cutting mechanism 3 of the cable outer skin stripping device for the power cable according to the present invention.
Fig. 11 is a schematic structural view of a connection plate a3-1 of the cable outer skin stripping device for the power cable according to the present invention.
Fig. 12 is a schematic structural view of a longitudinal cutting mechanism 4 of the cable outer skin stripping apparatus for the power cable according to the present invention.
Fig. 13 is a schematic structural view of a longitudinal cutting mechanism 4 of the cable outer skin stripping apparatus for the power cable according to the present invention.
Fig. 14 is a schematic structural view of a longitudinal cutting mechanism 4 of the cable outer skin stripping apparatus for the power cable according to the present invention.
Fig. 15 is a schematic structural view of the raw material bushing 4-8 of the cable outer skin stripping device for the power cable of the invention.
Fig. 16 is a schematic structural view of the raw material collecting mechanism 5 of the cable outer skin stripping apparatus for the power cable according to the present invention.
Fig. 17 is a schematic structural view of the raw material collecting mechanism 5 of the cable outer skin stripping apparatus for a power cable according to the present invention.
Fig. 18 is a schematic structural view of the raw material collecting mechanism 5 of the cable outer skin stripping apparatus for a power cable according to the present invention.
Fig. 19 is a schematic structural view of a collecting mounting plate b5-8 of a cable outer skin stripping apparatus for a power cable according to the present invention.
In the figure: a winding mechanism 1; a motor mounting block 1-1; a motor 1-2; a motor shaft 1-3; 1-4 parts of a belt; winding the transmission shaft a 1-5; 1-6 of a cylindrical belt; winding the transmission shaft b 1-7; 1-8 parts of friction wheel; 1-9 of a winding column; winding the limiting plate a 1-10; 1-11 of cables; winding the limiting plate b 1-12; winding the rotating shaft 1-13; cable compression plates 1-14; compression plate sliding columns 1-15; pressing the springs 1-16; 1-17 parts of a handle; winding the mounting plates 1-18; equipment mounting plates 1-19; 1-20 parts of a cylindrical belt compression plate; the cylindrical belt presses the column 1-21; the cylindrical belt presses the springs 1-22; cable compression fixing plates 1-23; a conveying mechanism 2; a conveyor belt 2-1; a transmission shaft 2-2; 2-3 of a cable sliding groove; 2-4 of a cable sliding plate; the sliding plate presses the shaft 2-5; the sliding plate presses the shaft connecting plate 2-6; the sliding plate presses the springs 2-7; the sliding plate presses the shaft limiting plate 2-8; 2-9 of a compression handle; a transverse cutting mechanism 3; connection board a 3-1; connecting plate b 3-2; 3-3 of a crushing motor; 3-4 parts of a crushing motor shaft; a transmission friction wheel a 3-5; 3-6 parts of a crushing belt; crushing a transmission shaft a 3-7; crushing friction wheel b 3-8; a rotary knife connecting shaft 3-9; 3-10 parts of a rotary knife; cable slide panel a 3-11; cable slide panel b 3-12; connecting plate c 3-13; connecting plate d 3-14; a longitudinal cutting mechanism 4; cutting belt a 4-1; cutting the transmission shaft 4-2; cutting the transmission wheel 4-3; 4-4 parts of a cutting knife; cutting belt b 4-5; cutting the compression shaft 4-6; 4-7 of a cutting pressing wheel; 4-8 parts of raw material bushing; cable core compression plate a 4-9; mounting plate a 4-10; installing side plates 4-11; mounting plate b 4-12; mounting plate c 4-13; a raw material collecting mechanism 5; collecting a motor mounting plate 5-1; collecting the motor 5-2; collecting a motor shaft 5-3; 5-4 parts of fan blades; collecting the mounting plate a 5-5; 5-6 parts of a sealing ring; 5-7 parts of a drainage plate; the collection mounting plate b 5-8; 5-9 parts of a collecting belt; the collection transmission shaft a 5-10; 5-11 parts of a friction wheel; the collection transmission shaft b 5-12; collecting winding columns 5-13; the collection limit plate a 5-14; 5-15 parts of cable core; collecting limiting plates 5-16 of the limiting columns; cable core compression plates b 5-17; the cable core presses the sliding shaft 5-18; cable core compression plates c 5-19; the cable core presses the handle 5-20; the cable core presses the springs 5-21.
Detailed Description
The first embodiment is as follows:
the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present invention relates to a cable outer skin stripping apparatus, and more specifically, to a cable outer skin stripping apparatus for a power cable, including a winding mechanism 1, a conveying mechanism 2, a transverse cutting mechanism 3, a longitudinal cutting mechanism 4, and a raw material collecting mechanism 5, which is capable of winding a cable around a winding post, which is capable of cutting the cable outer skin laterally, which is capable of cutting the upper side of the cable outer skin, which is capable of tilting out the cut outer skin, and which is capable of winding a cable metal core around the collecting winding post.
Winding mechanism 1 is connected with transport mechanism 2, and transport mechanism 2 is connected with horizontal cutting mechanism 3, and horizontal cutting mechanism 3 is connected with winding mechanism 1, and vertical cutting mechanism 4 is connected with winding mechanism 1, and transport mechanism 2 is connected with vertical cutting mechanism 4, and horizontal cutting mechanism 3 is connected with vertical cutting mechanism 4, and vertical cutting mechanism 4 is connected with raw and other materials collection mechanism 5.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19. the embodiment further describes the embodiment, and the embodiment describes the embodiment, where the winding mechanism 1 includes a motor mounting block 1-1, a motor 1-2, a motor shaft 1-3, a belt 1-4, a winding transmission shaft a1-5, a cylindrical belt 1-6, a winding transmission shaft b1-7, a friction wheel 1-8, a winding column 1-9, a winding limit plate a1-10, a cable 1-11, a winding limit plate b1-12, a winding rotation shaft 1-13, a cable press plate 1-14, a press plate slide column 1-15, a press spring 1-16, a press spring, 1-17 parts of a handle, 1-18 parts of a winding mounting plate, 1-19 parts of an equipment mounting plate, 1-20 parts of a cylindrical belt pressing plate, 1-21 parts of a cylindrical belt pressing column, 1-22 parts of a cylindrical belt pressing spring and 1-23 parts of a cable pressing fixing plate, 1-1 parts of a motor mounting block is connected with 1-2 parts of a motor, 1-2 parts of the motor are connected with 1-3 parts of a motor shaft, 1-3 parts of the motor shaft are in friction connection with 1-4 parts of a belt, 1-4 parts of the belt are in friction connection with a winding transmission shaft a1-5 part, a winding transmission shaft a1-5 part is in friction connection with a cylindrical belt 1-6 part, 1-6 parts of the cylindrical belt is in friction connection with a winding transmission shaft b1-7 part, a winding transmission shaft b1-7 part is in bearing connection with a winding mounting plate 1-18 part, and 1-8 parts of a friction wheel is in friction connection with 1-6 parts of the cylindrical belt, the winding column 1-9 is connected with the friction wheel 1-8, the winding limit plate a1-10 is connected with the winding column 1-9, the cable is wound on the winding column 1-9, the winding limit plate b1-12 is connected with the winding column 1-9, the winding rotating shaft 1-13 is connected with the winding column 1-9, the cable compression plate 1-14 is connected with the compression plate sliding column 1-15, the compression plate sliding column 1-15 is connected with the handle 1-17, the compression spring 1-16 is sleeved on the compression plate sliding column 1-15 and limited on the cable compression plate 1-14 and the cable compression fixing plate 1-23, the winding installation plate 1-18 is connected with the motor shaft 1-3 bearing, the equipment installation plate 1-19 is connected with the winding rotating shaft 1-13 bearing, the cylindrical belt compression plate 1-20 is connected with the cylindrical belt 1-6 by friction, the cylindrical belt pressing column 1-21 is connected with the cylindrical belt pressing plate 1-20, the cylindrical belt pressing spring 1-22 is sleeved on the cylindrical belt pressing column 1-21 and limited on the cylindrical belt pressing plate 1-20 and the winding mounting plate 1-18 on one side, the cable pressing fixing plate 1-23 is connected with the pressing plate sliding column 1-15 in a sliding manner, the motor mounting block 1-1 is connected with the winding mounting plate 1-18, the winding transmission shaft a1-5 is connected with the winding mounting plate 1-18 in a bearing manner, the winding transmission shaft b1-7 is connected with the winding mounting plate 1-18 in a bearing manner, the winding limit plate a1-10 is connected with the cable pressing plate 1-14 in a sliding manner, the winding limit plate a1-10 is connected with the pressing plate sliding column 1-15, and the pressing plate sliding column 1-15 is connected with the winding mounting plate 1-18 in a sliding manner, the winding mounting plate 1-18 is connected with the cylindrical belt pressing column 1-21 in a sliding manner, the equipment can wind a cable on the winding column, one end of the cable 1-11 is inserted into a hole of a winding limiting plate a1-10, the handle 1-17 is pulled, the handle 1-17 drives the cable pressing plate 1-14 through the pressing plate sliding column 1-15, the cable pressing plate 1-14 can reset under the action of a pressing spring 1-16, at the moment, the cable 1-11 is continuously inserted downwards through the hole of the winding limiting plate a1-10 until the lower end of the cable is slightly lower than the lower end of the cable pressing plate 1-14, at the moment, the handle 1-17 is not pulled, the cable pressing plate 1-14 resets and presses the cable, at the moment, the motor 1-2 works to drive the motor shaft 1-3 to rotate, the motor shaft 1-3 rotates to drive the winding transmission shaft a1-5 to rotate through the belt 1-4, the winding motor shaft a1-5 rotates to drive the winding transmission shaft b1-7 to rotate through the cylindrical belt 1-6, the friction wheel 1-8 rotates when the cylindrical belt 1-6 moves, the friction wheel 1-8 rotates to drive the winding post 1-9 to rotate, the winding post 1-9 rotates to drive the winding limit plate a1-10 and the winding limit plate b1-12 to rotate, at the moment, the cable 1-11 inserted into the winding limit plate a1-10 is wound on the winding post 1-9, the cylindrical belt pressing plate 1-20 presses the cylindrical belt 1-6 under the action of the cylindrical belt pressing post 1-21, the cylindrical belt pressing spring 1-22 and the winding mounting plate 1-18, the friction connection relation between the cylindrical belts 1-6 and the friction wheels 1-8 is facilitated, and the stability of the winding function is indirectly facilitated.
The third concrete implementation mode:
the present embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19. the present embodiment is further described with reference to the first embodiment, in which the transmission mechanism 2 includes a transmission belt 2-1, a transmission drive shaft 2-2, a cable slide groove 2-3, a cable slide plate 2-4, a slide plate pressing shaft 2-5, a slide plate pressing shaft connecting plate 2-6, a slide plate pressing spring 2-7, a slide plate pressing shaft limiting plate 2-8, a pressing handle 2-9, the transmission belt 2-1 is frictionally connected to the transmission drive shaft 2-2, the transmission drive shaft 2-2 is bearing-connected to a winding mounting plate 1-18, the cable slide groove 2-3 is opened on the cable slide plate 2-4, the cable sliding plate 2-4 is connected with the winding mounting plate 1-18, the sliding plate pressing shaft 2-5 is connected with the cable sliding plate 2-4, the sliding plate pressing shaft connecting plate 2-6 is connected with the sliding plate pressing shaft 2-5 in a sliding mode, the sliding plate pressing spring 2-7 is sleeved on the sliding plate pressing shaft 2-5 and limited on the cable sliding plate 2-4 and the sliding plate pressing shaft connecting plate 2-6, the sliding plate pressing shaft limiting plate 2-8 is connected with the sliding plate pressing shaft 2-5, the pressing handle 2-9 is connected with the cable sliding plate 2-4, and the sliding plate pressing shaft connecting plate 2-6 is connected with the winding mounting plate 1-18.
The fourth concrete implementation mode:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, the present embodiment further illustrates the present embodiment, wherein the transverse cutting mechanism 3 includes a connecting plate a3-1, a connecting plate b3-2, a crushing motor 3-3, a crushing motor shaft 3-4, a driving friction wheel a3-5, a crushing belt 3-6, a crushing driving shaft a3-7, a crushing friction wheel b3-8, a rotary knife connecting shaft 3-9, a rotary knife 3-10, a cable sliding plate a3-11, a cable sliding plate b3-12, a connecting plate c3-13, a connecting plate 493d 2-14, a3-1 is connected with a connecting plate b3-2, the connecting plate b3-2 is connected with the crushing motor 3-3, the crushing motor 3-3 is connected with the crushing motor shaft 3-4, the crushing motor shaft 3-4 is connected with the transmission friction wheel a3-5, the transmission friction wheel a3-5 is connected with the friction force of the rotating knife connecting shaft 3-9, the crushing belt 3-6 is connected with the crushing motor shaft 3-4, the crushing transmission shaft a3-7 is connected with the crushing belt 3-6, the crushing friction wheel b3-8 is connected with the crushing transmission shaft a3-7, the rotating knife connecting shaft 3-9 is connected with the crushing friction wheel b3-8, the rotating knife 3-10 is connected with the rotating knife connecting shaft 3-9, the cable sliding plate a3-11 is connected with the connecting plate c3-13, the cable sliding plate b3-12 is connected with the connecting plate c3-13, the connecting plate c3-13 is connected with the connecting plate d3-14, the connecting plate d3-14 is connected with the equipment mounting plate 1-19, the cable 1-11 is connected with the connecting plate a3-1 in a sliding manner, the cable sliding plate a3-11 is connected with the cable sliding plate 2-4, the cable sliding plate a3-11 is connected with the cable 1-11 in a sliding manner, the cable sliding plate b3-12 is connected with the connecting plate d3-14, the cable sliding plate b3-12 is connected with the cable 1-11 in a sliding manner, the connecting plate d3-14 is connected with the cable 1-11 in a sliding manner, the equipment can laterally cut the outer skin of the cable, the pressing handle 2-9 is pulled downwards, the pressing handle 2-9 drives the sliding plate pressing shaft 2-5 to move downwards, and can realize reset under the action of the sliding plate pressing shaft 2-5 and the connecting plate pressing shaft 2-6, at the moment, a gap between a pressing shaft 2-5 of the sliding plate and a transmission belt 2-1 is enlarged, one end of a cable 1-11 wound on a winding column 1-9 is placed in a cable sliding groove 2-3 on the pressing shaft 2-5 of the sliding plate, at the moment, a pressing handle 2-9 is not pulled, a cable 1-11 is pressed by a cable sliding plate 2-4 and the transmission belt 2-1, a motor 1-2 works, the motor 1-2 works to drive a motor shaft 1-3 to rotate, the motor 1-2 works to drive the motor shaft 1-3 to rotate and drive a transmission shaft 2-2 to rotate through the transmission belt 2-1, at the moment, the transmission belt 2-1 can transmit the cable 1-11 under the transmission belt 2-1 to one side, when the cable is transmitted in a direction away from the winding column 1-9, the winding columns 1-9 are pulled to enable the winding columns 1-9 and the friction wheels 1-8 to rotate reversely, at the moment, the cylindrical belts 1-6 and the friction wheels 1-8 are in line contact, and the elastic force of the sliding plate pressing springs 2-7 is far greater than the elastic force of the cylindrical belt pressing springs 1-22, so that the frictional connection between the cylindrical belts 1-6 and the friction wheels 1-8 does not work, when the cables 1-11 are continuously transmitted to the positions of the rotating knives 3-10, the crushing motors 3-3 work to drive the crushing motor shafts 3-4 to rotate, the crushing motor shafts 3-4 rotate to drive the transmission friction wheels a3-5 to rotate, and the crushing motor shafts 3-4 simultaneously drive the crushing transmission shafts a3-7 to rotate through the crushing belts 3-6, the crushing transmission shaft a3-7 rotates to drive the crushing friction wheel b3-8 to rotate, when the transmission friction wheel a3-5 and the crushing friction wheel b3-8 rotate, the two rotary knife connecting shafts 3-9 are driven to rotate, the rotary knife connecting shafts 3-9 rotate to drive the rotary knives 3-10 to rotate, when the rotary knives 3-10 rotate, skins on the side faces of the cables 1-11 are crushed, the cables 1-11 continue to move through the shape characteristics of the rotary knives 3-10, and the cable sliding plates a3-11 and the cable sliding plates b3-12 limit the movement tracks of the cables 1-11.
The fifth concrete implementation mode:
the present embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19. in the present embodiment, the longitudinal cutting mechanism 4 includes a cutting belt a4-1, a cutting transmission shaft 4-2, a cutting transmission wheel 4-3, a cutting knife 4-4, a cutting belt b4-5, a cutting press shaft 4-6, a cutting press wheel 4-7, a raw material bushing 4-8, a cable core press plate a4-9, a mounting plate a4-10, a mounting side plate 4-11, a mounting plate b4-12, a mounting plate c4-13, a cutting belt a4-1 is frictionally connected to the cutting transmission shaft 4-2, and the cutting transmission shaft 4-3, the cutting driving wheel 4-3 is connected with a cutting knife 4-4, a cutting belt b4-5 is in friction connection with a cutting transmission shaft 4-2, a cutting pressing shaft 4-6 is in friction connection with a cutting belt b4-5, a cutting pressing wheel 4-7 is connected with a cutting pressing shaft 4-6, a raw material bushing 4-8 is connected with a mounting side plate 4-11, a cable core pressing plate a4-9 is connected with a mounting plate b4-12, a mounting plate a4-10 is connected with a mounting side plate 4-11, a mounting side plate 4-11 is connected with a mounting plate b4-12, a mounting plate b4-12 is connected with a raw material bushing 4-8, a mounting plate c4-13 is connected with the raw material bushing 4-8, a cable core pressing plate a4-9 is connected with a mounting plate c4-13, a mounting plate a4-10 is connected with a mounting plate b4-12, mounting plate a4-10 is connected with mounting plate c4-13, mounting side plate 4-11 is connected with equipment mounting plate 1-19, mounting plate b4-12 is connected with equipment mounting plate 1-19, mounting plate c4-13 is connected with equipment mounting plate 1-19, equipment can cut the upper side of cable outer skin, cable 1-11 cut in north side direction is continuously transmitted through holes on connecting plate d3-14, when cable 1-11 moves to the position of cutting knife 4-4, the function of the conveyor belt is still working, transmission shaft 2-2 rotates to drive cutting transmission shaft 4-2 to rotate through cutting belt a4-1, cutting transmission shaft 4-2 rotates to drive cutting transmission wheel 4-3 to rotate, cutting transmission wheel 4-3 rotates to drive cutting knife 4-4 to rotate, the upper side of the cable 1-11 is cut by the cutting knife 4-4 when rotating, and the function of the conveyor belt is further benefited, the cut cable core and the cable skin enter the lower part of the cutting pressing wheel 4-7 through the groove between the cable core pressing plate a4-9 and the raw material bushing 4-8, the cutting driving shaft 4-2 drives the cutting pressing wheel 4-7 to rotate through the cutting belt b4-5, and the cable 1-11 is pressed by the cutting pressing wheel 4-7 due to the over-matching of the cutting pressing wheel 4-7 and the raw material bushing 4-8, so that the metal cable core is separated from the skin.
The sixth specific implementation mode:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the present embodiment, where the raw material collecting mechanism 5 includes a collecting motor mounting plate 5-1, a collecting motor 5-2, a collecting motor shaft 5-3, a fan blade 5-4, a collecting mounting plate a5-5, a sealing ring 5-6, a flow guiding plate 5-7, a collecting mounting plate b5-8, a collecting belt 5-9, a collecting transmission shaft a5-10, a collecting friction wheel 5-11, a collecting transmission shaft b5-12, a collecting winding post 5-13, a collecting limit plate a5-14, a cable core 5-15, a collecting limit plate 5-16, a collecting limit plate, a limit plate for a limit post for a, A cable core pressing plate b5-17, a cable core pressing sliding shaft 5-18, a cable core pressing plate c5-19, a cable core pressing handle 5-20, a cable core pressing spring 5-21, a collecting motor mounting plate 5-1 connected with a collecting motor 5-2, a collecting motor 5-2 connected with a collecting motor shaft 5-3, a collecting motor shaft 5-3 connected with a fan blade 5-4, a collecting mounting plate a5-5 connected with a sealing ring 5-6, a sealing ring 5-6 connected with a drainage plate 5-7, a drainage plate 5-7 connected with a collecting mounting plate b5-8, a collecting mounting plate b5-8 connected with a sealing ring 5-6, a collecting belt 5-9 connected with a collecting motor shaft 5-3 in a friction manner, a collecting transmission shaft a5-10 connected with a collecting belt 5-9 in a friction manner, the collecting friction wheel 5-11 is in friction connection with the collecting transmission shaft b5-12, the collecting transmission shaft b5-12 is connected with the collecting winding column 5-13, the collecting winding column 5-13 is connected with the collecting limiting plate a5-14, the cable core 5-15 is wound on the collecting winding column 5-13, the collecting limiting column limiting plate 5-16 is connected with the collecting winding column 5-13, the cable core pressing plate b5-17 is connected with the cable core pressing sliding shaft 5-18, the cable core pressing sliding shaft 5-18 is in sliding connection with the cable core pressing plate c5-19, the cable core pressing plate c5-19 is connected with the collecting limiting column limiting plate 5-16, the cable core pressing handle 5-20 is connected with the cable core pressing sliding shaft 5-18, the cable core pressing spring 5-21 is sleeved on the cable core pressing sliding shaft 5-18 and limited on the cable core pressing plate b5-17 and the cable core pressing plate c5 19, the collecting motor shaft 5-3 is in bearing connection with a collecting mounting plate a5-5, a collecting mounting plate b5-8 is in bearing connection with a collecting transmission shaft a5-10, a collecting mounting plate b5-8 is in bearing connection with a mounting side plate 4-11, a collecting mounting plate b5-8 is in connection with a mounting plate b4-12, a collecting mounting plate b5-8 is in connection with a mounting plate c4-13, a collecting transmission shaft b5-12 is in bearing connection with an equipment mounting plate 1-19, a collecting limit column limit plate 5-16 is in sliding connection with a cable core compression plate b5-17, the equipment can obliquely come out the cut outer skin, one part of the separated cable skin leaks onto the mounting plate a4-10 through a hole on a raw material leakage plate 4-8, at the moment, the collecting motor 5-2 works to drive the collecting motor shaft 5-3 to rotate, the collecting motor shaft 5-3 rotates to drive the fan blade 5-4 to rotate, wind generated when the fan blade 5-4 rotates anticlockwise is blown to the raw material bushing 4-8 under the action of the sealing ring 5-6 and the flow guide plate 5-7, cable skin which cannot leak down is blown to the mounting plate a4-10 through holes in the raw material bushing 4-8, the cable skin which leaks to the mounting plate a4-10 is inclined out of the device under the action of the holes, the device can wind a cable metal core on a collecting winding column, under the action of the cutting compression wheel 4-7, the cable core 5-15 compressed by the cutting compression wheel 4-7 continues to move on a groove of the raw material bushing 4-8, and the wind generated by the rotation of the fan blade 5-4 directly acts right above the cable core 5-15, the cable cores 5-15 can continue to move in the grooves of the raw material bushing 4-8, the cable cores 5-15 penetrate through the holes in the mounting side plates 4-11, the conveyed cable cores 5-15 are inserted into the holes in the collecting limiting column limiting plates 5-16, the cable cores are pulled to press the handles 5-20, the cable core pressing handles 5-20 move to drive the cable core pressing sliding shafts 5-18 and the cable core pressing plates b5-17 to move, when the cable core pressing plates b5-17 are pulled out, the cable cores 5-15 continue to be inserted downwards to a position exceeding the lower ends of the cable core pressing plates b5-17, the cable core pressing plates b5-17 press the cable cores 5-15 under the action of the cable core pressing springs 5-21, one ends of the cable cores 5-15 are effectively fixed at the moment, and the collecting motor 5-2 works, the collecting motor 5-2 works to drive the collecting motor shaft 5-3 to work, the collecting motor shaft 5-3 drives the collecting transmission shaft a5-10 to rotate through the collecting belt 5-9, the collecting transmission shaft a5-10 rotates to drive the collecting friction wheel 5-11 to rotate, the collecting friction wheel 5-11 rotates to drive the collecting transmission shaft b5-12 to rotate, the collecting transmission shaft b5-12 rotates to drive the collecting winding column 5-13 to rotate, the collecting winding column 5-13 rotates to drive the collecting limit plate a5-14 and the collecting limit column limit plate 5-16 to rotate, and at the moment, the cable core 5-15 is wound on the collecting winding column 5-13.
The working principle of the device is as follows: the equipment can wind a cable on a winding column, one end of the cable 1-11 is inserted into a hole of a winding limit plate a1-10, a handle 1-17 is pulled, the handle 1-17 drives a cable compression plate 1-14 through a compression plate sliding column 1-15, the cable compression plate 1-14 can realize reset under the action of a compression spring 1-16, the cable continues to be inserted downwards through the hole of the winding limit plate a1-10 until the lower end of the cable is slightly lower than the lower end of the cable compression plate 1-14, the handle 1-17 is not pulled at the moment, the cable compression plate 1-14 resets and compresses the cable, at the moment, the motor 1-2 works to drive a motor shaft 1-3 to rotate, the motor shaft 1-3 rotates to drive a winding transmission shaft a1-5 to rotate through a belt 1-4, the winding motor shaft a1-5 rotates to drive the winding transmission shaft b1-7 to rotate through the cylindrical belt 1-6, the friction wheel 1-8 is driven to rotate when the cylindrical belt 1-6 moves, the friction wheel 1-8 rotates to drive the winding column 1-9 to rotate, the winding column 1-9 rotates to drive the winding limit plate a1-10 and the winding limit plate b1-12 to rotate, at the moment, the cable 1-11 inserted into the winding limit plate a1-10 is wound on the winding column 1-9, the cylindrical belt pressing plate 1-20 presses the cylindrical belt 1-6 under the action of the cylindrical belt pressing column 1-21, the cylindrical belt pressing spring 1-22 and the winding mounting plate 1-18, and the friction connection relationship between the cylindrical belt 1-6 and the friction wheel 1-8 is facilitated, indirectly benefits the stability degree of the winding function, the equipment can laterally cut the outer skin of the cable, the pressing handle 2-9 is pulled downwards, the pressing handle 2-9 drives the pressing shaft 2-5 of the sliding plate to move downwards, and the resetting can be realized under the action of the pressing shaft 2-5 of the sliding plate and the connecting plate 2-6 of the pressing shaft of the sliding plate, at the moment, the gap between the pressing shaft 2-5 of the sliding plate and the conveying belt 2-1 is enlarged, one end of the cable 1-11 wound on the winding column 1-9 is placed in the cable sliding groove 2-3 on the pressing shaft 2-5 of the sliding plate, at the moment, the pressing handle 2-9 is not pulled, the cable sliding plate 2-4 and the conveying belt 2-1 press the cable 1-11, the motor 1-2 works to drive the motor shaft 1-3 to rotate, the motor 1-2 works to drive the motor shaft 1-3 to rotate and drive the transmission shaft 2-2 to rotate through the transmission belt 2-1, at the moment, the transmission belt 2-1 can transmit a cable 1-11 under the transmission belt 2-1 to one side, when the transmission is carried out in the direction far away from the winding column 1-9, the winding column 1-9 is pulled to enable the winding column 1-9 and the friction wheel 1-8 to rotate reversely, at the moment, the friction connection between the cylindrical belt 1-6 and the friction wheel 1-8 does not work because the cylindrical belt 1-6 is in line contact with the friction wheel 1-8 and the elastic force of the sliding plate pressing spring 2-7 is far greater than that of the cylindrical belt pressing spring 1-22, and the crushing motor 3-3 works when the cable 1-11 is continuously transmitted to the position of the rotary knife 3-10, the crushing motor 3-3 works to drive the crushing motor shaft 3-4 to rotate, the crushing motor shaft 3-4 rotates to drive the transmission friction wheel a3-5 to rotate, the crushing motor shaft 3-4 simultaneously drives the crushing transmission shaft a3-7 to rotate through the crushing belt 3-6, the crushing transmission shaft a3-7 rotates to drive the crushing friction wheel b3-8 to rotate, the transmission friction wheel a3-5 and the crushing friction wheel b3-8 rotate to drive the two rotary knife connecting shafts 3-9 to rotate, the rotary knife connecting shafts 3-9 rotate to drive the rotary knives 3-10 to rotate, the rotary knives 3-10 rotate to crush skins on the side surfaces of the cables 1-11 and enable the cables 1-11 to continue to move through the shape characteristics of the rotary knives 3-10, the cable sliding plates a3-11 and the cable sliding plates b3-12 limit the movement tracks of the cables 1-11, the equipment can cut the upper side of the outer skin of the cable, the cable 1-11 cut in the north side direction is continuously conveyed through the hole on the connecting plate d3-14, when the cable 1-11 moves to the position of the cutting knife 4-4, the function of the conveyor belt is still working at the moment, the conveying transmission shaft 2-2 rotates to drive the cutting transmission shaft 4-2 to rotate through the cutting belt a4-1, the cutting transmission shaft 4-2 rotates to drive the cutting transmission wheel 4-3 to rotate, the cutting transmission wheel 4-3 rotates to drive the cutting knife 4-4 to rotate, the cutting knife 4-4 rotates to cut the upper side of the cable 1-11, the function of the conveyor belt is further facilitated, the cut cable core and the cable skin enter the lower part of the cutting compression wheel 4-7 through the groove between the cable core compression plate a4-9 and the raw material leakage plate 4-8, the cutting transmission shaft 4-2 also drives the cutting compression wheel 4-7 to rotate through a cutting belt b4-5, due to the over-win match between the cutting compression wheel 4-7 and the raw material bushing 4-8, the cable 1-11 is compressed by the cutting compression wheel 4-7, so that the metal cable core is separated from the skin, the device can incline the cut outer skin, one part of the separated cable skin leaks to the mounting plate a4-10 through the hole on the raw material bushing 4-8, at the moment, the collecting motor 5-2 works to drive the collecting motor shaft 5-3 to rotate, the collecting motor shaft 5-3 rotates to drive the fan blade 5-4 to rotate, wind is generated when the fan blade 5-4 rotates anticlockwise and under the action of the sealing ring 5-6 and the drainage plate 5-7, blowing wind generated by rotation of the fan blade 5-4 to a raw material bushing 4-8, blowing the cable skin which cannot be leaked to a mounting plate a4-10 through holes on the raw material bushing 4-8, inclining out of the equipment under the action of the holes leaking to the mounting plate a4-10, winding the metal core of the cable on a collecting winding column by the equipment, continuing to move the cable core 5-15 pressed by a cutting pressing wheel 4-7 on a groove of the raw material bushing 4-8 under the action of the cutting pressing wheel 4-7, directly acting the wind generated by rotation of the fan blade 5-4 on the cable core 5-15 so that the cable core 5-15 can continue to move in the groove of the raw material bushing 4-8, penetrating the cable core 5-15 out through holes on a mounting side plate 4-11, inserting the conveyed cable core 5-15 into a hole of a limiting plate 5-16 of the collecting limiting column, pulling the cable core to press the handle 5-20, the cable core pressing handle 5-20 moves to drive the cable core to press the sliding shaft 5-18 and the cable core pressing plate b5-17 to move, when the cable core pressing plate b5-17 is pulled out, the cable core 5-15 is continuously inserted downwards to a position exceeding the lower end of the cable core pressing plate b5-17, the cable core pressing plate b5-17 presses the cable core 5-15 under the action of the cable core pressing spring 5-21, at the moment, one end of the cable core 5-15 is effectively fixed, the collecting motor 5-2 works to drive the collecting motor shaft 5-3 to work, the collecting motor shaft 5-3 drives the collecting transmission shaft a5-10 to rotate through the collecting belt 5-9, the collecting transmission shaft a5-10 rotates to drive the collecting friction wheel 5-11 to rotate, the collecting friction wheel 5-11 rotates to drive the collecting transmission shaft b5-12 to rotate, the collecting transmission shaft b5-12 rotates to drive the collecting winding column 5-13 to rotate, the collecting winding column 5-13 rotates to drive the collecting limit plate a5-14 and the collecting limit column limit plate 5-16 to rotate, and at the moment, the cable core 5-15 is wound on the collecting winding column 5-13.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides a power cable is with outer covering stripping off equipment of cable, includes winding mechanism (1), transport mechanism (2), horizontal cutting mechanism (3), vertical cutting mechanism (4), raw and other materials collection mechanism (5), its characterized in that: the winding mechanism (1) comprises a motor mounting block (1-1), a motor (1-2), a motor shaft (1-3), a belt (1-4), a winding transmission shaft a (1-5), a cylindrical belt (1-6), a winding transmission shaft b (1-7), a friction wheel (1-8), a winding column (1-9), a winding limiting plate a (1-10), a cable (1-11), a winding limiting plate b (1-12), a winding rotating shaft (1-13), a cable compression plate (1-14), a compression plate sliding column (1-15), a compression spring (1-16), a handle (1-17), a winding mounting plate (1-18), an equipment mounting plate (1-19), a cylindrical belt compression plate (1-20), A cylindrical belt pressing column (1-21), a cylindrical belt pressing spring (1-22) and a cable pressing fixing plate (1-23), wherein a motor mounting block (1-1) is connected with a motor (1-2), the motor (1-2) is connected with a motor shaft (1-3), the motor shaft (1-3) is in friction connection with a belt (1-4), the belt (1-4) is in friction connection with a winding transmission shaft a (1-5), the winding transmission shaft a (1-5) is in friction connection with a cylindrical belt (1-6), the cylindrical belt (1-6) is in friction connection with a winding transmission shaft b (1-7), the winding transmission shaft b (1-7) is in bearing connection with a winding mounting plate (1-18), and a friction wheel (1-8) is in friction connection with the cylindrical belt (1-6), the winding column (1-9) is connected with the friction wheel (1-8), the winding limit plate a (1-10) is connected with the winding column (1-9), the cable is wound on the winding column (1-9), the winding limit plate b (1-12) is connected with the winding column (1-9), the winding rotating shaft (1-13) is connected with the winding column (1-9), the cable compression plate (1-14) is connected with the compression plate sliding column (1-15), the compression plate sliding column (1-15) is connected with the handle (1-17), the compression spring (1-16) is sleeved on the compression plate sliding column (1-15) and limited on the cable compression plate (1-14) and the cable compression fixing plate (1-23), the winding mounting plate (1-18) is connected with the motor shaft (1-3) through a bearing, the equipment mounting plate (1-19) is connected with a winding rotating shaft (1-13) through a bearing, a cylindrical belt compression plate (1-20) is in friction connection with a cylindrical belt (1-6), a cylindrical belt compression column (1-21) is connected with the cylindrical belt compression plate (1-20), a cylindrical belt compression spring (1-22) is sleeved on the cylindrical belt compression column (1-21) and limited on the cylindrical belt compression plate (1-20) and the winding mounting plate (1-18) on one side, a cable compression fixing plate (1-23) is in sliding connection with a compression plate sliding column (1-15), a motor mounting block (1-1) is connected with the winding mounting plate (1-18), a winding transmission shaft a (1-5) is in bearing connection with the winding mounting plate (1-18), a winding transmission shaft b (1-7) is in bearing connection with the winding mounting plate (1-18), the winding limit plate a (1-10) is connected with the cable compression plate (1-14) in a sliding mode, the winding limit plate a (1-10) is connected with the compression plate sliding column (1-15), the compression plate sliding column (1-15) is connected with the winding mounting plate (1-18) in a sliding mode, and the winding mounting plate (1-18) is connected with the cylindrical belt compression column (1-21) in a sliding mode;
the conveying mechanism (2) comprises a conveying belt (2-1), a conveying transmission shaft (2-2), a cable sliding groove (2-3), a cable sliding plate (2-4), a sliding plate pressing shaft (2-5), a sliding plate pressing shaft connecting plate (2-6), a sliding plate pressing spring (2-7), a sliding plate pressing shaft limiting plate (2-8) and a pressing handle (2-9), wherein the conveying belt (2-1) is in friction connection with the conveying transmission shaft (2-2), the conveying transmission shaft (2-2) is in bearing connection with a winding mounting plate (1-18), the cable sliding groove (2-3) is arranged on the cable sliding plate (2-4), the cable sliding plate (2-4) is connected with the winding mounting plate (1-18), the sliding plate pressing shaft (2-5) is connected with the cable sliding plate (2-4), the cable pressing device is characterized in that a sliding plate pressing shaft connecting plate (2-6) is in sliding connection with a sliding plate pressing shaft (2-5), a sliding plate pressing spring (2-7) is sleeved on the sliding plate pressing shaft (2-5) and limited on a cable sliding plate (2-4) and the sliding plate pressing shaft connecting plate (2-6), a sliding plate pressing shaft limiting plate (2-8) is connected with the sliding plate pressing shaft (2-5), a pressing handle (2-9) is connected with the cable sliding plate (2-4), and the sliding plate pressing shaft connecting plate (2-6) is connected with a winding mounting plate (1-18);
the transverse cutting mechanism (3) comprises a connecting plate a (3-1), a connecting plate b (3-2), a crushing motor (3-3), a crushing motor shaft (3-4), a transmission friction wheel a (3-5), a crushing belt (3-6), a crushing transmission shaft a (3-7), a crushing friction wheel b (3-8), a rotary knife connecting shaft (3-9), a rotary knife (3-10), a cable sliding plate a (3-11), a cable sliding plate b (3-12), a connecting plate c (3-13) and a connecting plate d (3-14), wherein the connecting plate a (3-1) is connected with the connecting plate b (3-2), the connecting plate b (3-2) is connected with the crushing motor (3-3), and the crushing motor (3-3) is connected with the crushing motor shaft (3-4), a crushing motor shaft (3-4) is connected with a transmission friction wheel a (3-5), the transmission friction wheel a (3-5) is connected with a rotating knife connecting shaft (3-9) by friction force, a crushing belt (3-6) is connected with the crushing motor shaft (3-4) by friction force, a crushing transmission shaft a (3-7) is connected with the crushing belt (3-6) by friction force, a crushing friction wheel b (3-8) is connected with the crushing transmission shaft a (3-7), the rotating knife connecting shaft (3-9) is connected with a crushing friction wheel b (3-8) by friction force, a rotating knife (3-10) is connected with a rotating knife connecting shaft (3-9), a cable sliding plate a (3-11) is connected with a connecting plate c (3-13), and a cable sliding plate b (3-12) is connected with a connecting plate c (3-13), the connecting plate c (3-13) is connected with the connecting plate d (3-14), the connecting plate d (3-14) is connected with the equipment mounting plate (1-19), the cable is connected with the connecting plate a (3-1) in a sliding manner, the cable sliding plate a (3-11) is connected with the cable sliding plate (2-4), the cable sliding plate a (3-11) is connected with the cable in a sliding manner, the cable sliding plate b (3-12) is connected with the connecting plate d (3-14), the cable sliding plate b (3-12) is connected with the cable in a sliding manner, and the connecting plate d (3-14) is connected with the cable in a sliding manner;
the longitudinal cutting mechanism (4) comprises a cutting belt a (4-1), a cutting transmission shaft (4-2), a cutting transmission wheel (4-3), a cutting knife (4-4), a cutting belt b (4-5), a cutting pressing shaft (4-6), a cutting pressing wheel (4-7), a raw material bushing plate (4-8), a cable core pressing plate a (4-9), a mounting plate a (4-10), a mounting side plate (4-11), a mounting plate b (4-12) and a mounting plate c (4-13), wherein the cutting belt a (4-1) is in friction connection with the cutting transmission shaft (4-2), the cutting transmission shaft (4-2) is connected with the cutting transmission wheel (4-3), the cutting transmission wheel (4-3) is connected with the cutting knife (4-4), a cutting belt b (4-5) is in friction connection with a cutting transmission shaft (4-2), a cutting compression shaft (4-6) is in friction connection with the cutting belt b (4-5), a cutting compression wheel (4-7) is connected with the cutting compression shaft (4-6), a raw material bushing (4-8) is connected with a mounting side plate (4-11), a cable core compression plate a (4-9) is connected with a mounting plate b (4-12), a mounting plate a (4-10) is connected with the mounting side plate (4-11), the mounting side plate (4-11) is connected with the mounting plate b (4-12), the mounting plate b (4-12) is connected with the raw material bushing (4-8), a mounting plate c (4-13) is connected with the raw material bushing (4-8), the cable core compression plate a (4-9) is connected with a mounting plate c (4-13), the mounting plate a (4-10) is connected with the mounting plate b (4-12), the mounting plate a (4-10) is connected with the mounting plate c (4-13), the mounting side plate (4-11) is connected with the equipment mounting plate (1-19), the mounting plate b (4-12) is connected with the equipment mounting plate (1-19), and the mounting plate c (4-13) is connected with the equipment mounting plate (1-19);
the raw material collecting mechanism (5) comprises a collecting motor mounting plate (5-1), a collecting motor (5-2), a collecting motor shaft (5-3), a fan blade (5-4), a collecting mounting plate a (5-5), a sealing ring (5-6), a drainage plate (5-7), a collecting mounting plate b (5-8), a collecting belt (5-9), a collecting transmission shaft a (5-10), a collecting friction wheel (5-11), a collecting transmission shaft b (5-12), a collecting winding column (5-13), a collecting limiting plate a (5-14), a cable core (5-15), a collecting limiting column limiting plate (5-16), a cable core pressing plate b (5-17), a cable core pressing sliding shaft (5-18), a cable core pressing plate c (5-19), A cable core pressing handle (5-20) and a cable core pressing spring (5-21), a collecting motor mounting plate (5-1) is connected with a collecting motor (5-2), the collecting motor (5-2) is connected with a collecting motor shaft (5-3), the collecting motor shaft (5-3) is connected with a fan blade (5-4), a collecting mounting plate a (5-5) is connected with a sealing ring (5-6), the sealing ring (5-6) is connected with a drainage plate (5-7), the drainage plate (5-7) is connected with a collecting mounting plate b (5-8), a collecting mounting plate b (5-8) is connected with the sealing ring (5-6), a collecting belt (5-9) is connected with the collecting motor shaft (5-3) in a friction way, a collecting transmission shaft a (5-10) is connected with the collecting belt (5-9) in a friction way, the collecting friction wheel (5-11) is connected with the collecting transmission shaft b (5-12) in a friction way, the collecting transmission shaft b (5-12) is connected with the collecting winding column (5-13), the collecting winding column (5-13) is connected with the collecting limiting plate a (5-14), the cable core (5-15) is wound on the collecting winding column (5-13), the collecting limiting column limiting plate (5-16) is connected with the collecting winding column (5-13), the cable core pressing plate b (5-17) is connected with the cable core pressing sliding shaft (5-18), the cable core pressing sliding shaft (5-18) is connected with the cable core pressing plate c (5-19) in a sliding way, the cable core pressing plate c (5-19) is connected with the collecting limiting column limiting plate (5-16), the cable core pressing handle (5-20) is connected with the cable core pressing sliding shaft (5-18), the cable core pressing springs (5-21) are sleeved on the cable core pressing sliding shafts (5-18) and limited on the cable core pressing plates b (5-17) and c (5-19), the collecting motor shafts (5-3) are in bearing connection with the collecting mounting plates a (5-5), the collecting mounting plates b (5-8) are in bearing connection with the collecting transmission shafts a (5-10), the collecting mounting plates b (5-8) are in bearing connection with the mounting side plates (4-11), the collecting mounting plates b (5-8) are in bearing connection with the mounting plates b (4-12), the collecting mounting plates b (5-8) are in connection with the mounting plates c (4-13), the collecting transmission shafts b (5-12) are in bearing connection with the equipment mounting plates (1-19), and the collecting limiting column limiting plates (5-16) are in sliding connection with the cable core pressing plates b (5-17);
winding mechanism (1) be connected with transport mechanism (2), transport mechanism (2) are connected with horizontal cutting mechanism (3), horizontal cutting mechanism (3) are connected with winding mechanism (1), vertical cutting mechanism (4) are connected with winding mechanism (1), transport mechanism (2) are connected with vertical cutting mechanism (4), horizontal cutting mechanism (3) are connected with vertical cutting mechanism (4), vertical cutting mechanism (4) are connected with raw and other materials collection mechanism (5).
CN202010704491.3A 2020-07-21 2020-07-21 Cable outer skin stripping equipment for power cable Active CN111711126B (en)

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CN112782391B (en) * 2021-01-06 2023-07-25 郯城隆源木业有限公司 Timber sampling detects water content equipment
CN113299441B (en) * 2021-05-24 2022-11-25 国网黑龙江省电力有限公司大庆供电公司 Waste cable treatment equipment for communication

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CN209200523U (en) * 2018-12-21 2019-08-02 国网河南省电力公司长葛市供电公司 Live installation of bird repeller combination tool
CN110190490A (en) * 2019-07-12 2019-08-30 席早明 Coaxial cable insulating layer wire stripping equipment
CN209896595U (en) * 2019-05-28 2020-01-03 国家电网有限公司 Power cable peeling and cutting device

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WO2019111502A1 (en) * 2017-12-07 2019-06-13 株式会社小田原エンジニアリング Wire coating stripping method, wire coating stripping device, and rotary electric machine production device
CN209200523U (en) * 2018-12-21 2019-08-02 国网河南省电力公司长葛市供电公司 Live installation of bird repeller combination tool
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CN110190490A (en) * 2019-07-12 2019-08-30 席早明 Coaxial cable insulating layer wire stripping equipment

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