Disclosure of Invention
The invention relates to waste cable treatment equipment in a communication computer, in particular to waste cable treatment equipment in the communication computer, wherein other devices are arranged through a mounting plate, a surface skin carbonizing device carbonizes the surface skin of a cable and then controls the discharge through the position of an internal extrusion metal discharging device, a transmission control device transmits power for crushing the carbonized surface skin, and a surface skin separating device and the internal extrusion metal discharging device are matched to crush the carbonized surface skin and then separate and discharge the crushed surface skin and metal wires.
For solving above-mentioned technical problem, an inside old and useless cable treatment facility of communication computer, including the mounting panel, the epidermis carbonizing apparatus, transmission control device, crust separator, inside extrusion metal eduction gear, other device of mounting panel installation, the epidermis carbonizing apparatus is with the epidermis carbonization of cable then through inside extrusion metal eduction gear's position control emission, transmission control device transmission is with the crowded garrulous power of carbonization crust, crust separator and inside extrusion metal eduction gear cooperation are with the crust crushing of carbonization then separate functions such as emission with garrulous crust and wire again, its characterized in that: the surface carbonization device is fixedly arranged on the mounting plate, the transmission control device is fixedly arranged on the mounting plate, the surface separation device is fixedly arranged on the mounting plate, and the internal extrusion metal discharge device is fixedly arranged on the mounting plate.
As a further optimization of the technical scheme, the invention relates to waste cable treatment equipment in a communication computer, wherein a skin carbonization device comprises a mounting seat, a carbonization discharge pipe, a carbonization heating cavity, an exhaust gas collecting cavity, an exhaust gas discharge connecting pipe, a turbine, a tooth surface, a mounting frame, a transmission shaft, a first gear, a transmission belt wheel, a transmission belt, a control sliding plate, a connection steel rope, a cable control discharge plate, a connection plate, a spring and a gas purification cavity, wherein the mounting seat is fixedly arranged on the mounting plate, the carbonization discharge pipe is fixedly arranged on the mounting seat, the carbonization heating cavity is arranged on the carbonization discharge pipe, the exhaust gas collecting cavity is arranged on the carbonization discharge pipe, the exhaust gas discharge connecting pipe is fixedly arranged on the exhaust gas collecting cavity, the turbine is rotatably arranged in the exhaust gas discharge connecting pipe, the tooth surface is arranged on the turbine, the mounting frame is fixedly arranged on the exhaust gas discharge connecting, the gear I is installed and fixed on the transmission shaft, the transmission belt wheel is installed and fixed on the transmission shaft, the transmission belt is installed on the transmission belt wheel, the control sliding plate is installed on the waste gas discharge connecting pipe in a sliding mode, the connecting steel rope is installed and fixed on the control sliding plate and the cable control discharge plate, the cable control discharge plate is installed inside the waste gas discharge connecting pipe in a sliding mode, the connecting plate is installed and fixed on the cable control discharge plate, the spring is installed and fixed on the connecting plate, and the gas purification cavity is installed and fixed on the installing plate.
As a further optimization of the technical scheme, the invention relates to a waste cable treatment device in a communication computer, wherein a transmission control device comprises a mounting fixing plate, a transmission shaft II, a receiving belt wheel, a bevel gear I, a cross hole shaft, a bevel gear II, a limiting rod, a control pushing frame, a mounting fixing plate, a cross rotating shaft, a transmission gear I, a spring II and a limiting ring, the mounting fixing plate is mounted and fixed on a mounting plate, the transmission shaft II is rotatably mounted on the mounting fixing plate, the receiving belt wheel is mounted and fixed on the transmission shaft II, the bevel gear I is mounted and fixed on the transmission shaft II, the cross hole shaft is rotatably mounted on the mounting fixing plate, the bevel gear II is mounted and fixed on the cross hole shaft, the control pushing frame is slidably mounted on the limiting rod, the control pushing frame is rotatably mounted on the cross rotating shaft, the cross rotating shaft is slidably mounted on the fixing plate and the cross hole shaft, the first transmission gear is fixedly arranged on the cross-shaped rotating shaft, the spring is sleeved on the cross-shaped rotating shaft, and the limiting ring is fixedly arranged on the cross-shaped rotating shaft.
As a further optimization of the technical scheme, the invention relates to a waste cable treatment device in a communication computer, wherein the outer skin separation device comprises a mounting seat II, an outer skin crushed slag collecting cylinder, a crushed slag discharge pipe, a rotating hole cylinder, a vibration matching slotted hole, a discharge hole, a rotation matching tooth, a mounting fixing seat III, a connecting shaft, a transmission gear I, a fixing shaft, a transmission gear II and a transmission gear III, the mounting seat II is fixedly mounted on a mounting plate, the outer skin crushed slag collecting cylinder is fixedly mounted on the mounting seat II, the crushed slag discharge pipe is fixedly mounted on the outer skin crushed slag collecting cylinder, the rotating hole cylinder is rotatably mounted on the crushed slag discharge pipe, the vibration matching slotted hole is arranged on the rotating hole cylinder, the discharge hole is arranged on the rotating hole cylinder, the rotation matching tooth is fixedly mounted on the rotating hole cylinder, the mounting fixing seat III is fixedly mounted on the outer skin crushed slag collecting cylinder, the connecting shaft is rotatably mounted on the mounting fixing seat III, the first transmission gear is fixedly arranged on the connecting shaft, the fixed shaft is fixedly arranged on the third mounting fixing seat, the second transmission gear is rotatably arranged on the fixed shaft and meshed with the first transmission gear, and the third transmission gear is fixedly arranged on the connecting shaft.
As a further optimization of the technical scheme, the invention relates to a waste cable treatment device in a communication computer, wherein an internal extrusion metal discharging device comprises a reciprocating motion device, a connecting and mounting rod, a metal wire collecting box, a connecting and mounting rotating shaft, a transmission large gear, a rotating current disc, a pushing current disc, an inlet hole, a mounting and fixing cylinder, a spring III, a sliding bolt, a mounting frame fixing frame, a vibration spring, a vibration bolt, a vibration matching ball, an extrusion rotating roller and a connection control pushing cylinder, wherein the reciprocating motion device is mounted and fixed on a mounting plate, the connecting and mounting rod is mounted on the reciprocating motion device, the metal wire collecting box is mounted and fixed on the mounting plate, the connecting and mounting rotating shaft is rotatably mounted on the connecting and mounting rod, the transmission large gear is mounted and fixed on the connecting and mounting rotating shaft, the rotating current disc is mounted and fixed on the connecting and mounting rotating shaft, and the pushing current disc is mounted and fixed on the connecting and mounting rotating shaft, the entrance hole is arranged on a pushing disc, the installation fixing cylinder is installed and fixed on the connection installation rotating shaft, the spring III is installed inside the installation fixing cylinder, the sliding bolt is installed inside the installation fixing cylinder in a sliding mode, the installation frame fixing frame is installed and fixed on the sliding bolt, the vibration spring is installed inside the installation frame fixing frame, the vibration bolt is installed inside the installation frame fixing frame in a sliding mode, the vibration matching ball is installed on the vibration bolt in a rotating mode, the extrusion rotating roller is installed on the installation frame fixing frame in a rotating mode, and the connection control pushing cylinder is installed and fixed on the pushing disc.
As a further optimization of the technical scheme, the invention relates to waste cable treatment equipment in a communication computer, wherein a transmission shaft of a skin carbonization device is provided with a matched motor, the number of control sliding plates, connecting steel ropes, cable control discharge plates, connecting plates and springs is four, and a gas purification cavity is a purification device published on the market.
As a further optimization of the technical scheme, the waste cable treatment equipment in the communication computer is characterized in that the reciprocating device of the internal extrusion metal discharging device is a moving device published on the market, and the number of the vibration springs, the vibration bolts and the vibration matching balls is two.
The waste cable treatment equipment in the communication computer has the beneficial effects that:
the invention relates to waste cable treatment equipment inside a communication computer, in particular to waste cable treatment equipment inside the communication computer, which realizes the functions of installing other devices through an installation plate, carbonizing the surface skin of a cable by a surface skin carbonizing device, controlling the discharge by the position of an internal extrusion metal discharge device, driving the power for crushing the carbonized surface skin by a driving control device, crushing the carbonized surface skin by the cooperation of a surface skin separating device and the internal extrusion metal discharge device, separating and discharging the crushed surface skin and metal wires and the like.
Detailed Description
The first embodiment is as follows:
the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and the present embodiment further describes an embodiment, in order to solve the above technical problems, an internal waste cable processing apparatus for a communication computer includes a mounting plate 1, a skin carbonizing device 2, a transmission control device 3, a skin separating device 4, and an internal extruding metal discharging device 5, where the mounting plate is provided with other devices, the skin carbonizing device carbonizes the skin of the cable and then controls the discharging through the position of the internal extruding metal discharging device, the transmission control device transmits power for crushing the carbonized skin, and the skin separating device and the internal extruding metal discharging device cooperate to crush the carbonized skin and then separate and discharge the crushed skin and the metal wires, and is characterized in that: the surface carbonization device 2 is fixedly arranged on the mounting plate 1, the transmission control device 3 is fixedly arranged on the mounting plate 1, the surface separation device 4 is fixedly arranged on the mounting plate 1, and the internal extrusion metal discharge device 5 is fixedly arranged on the mounting plate 1.
The second embodiment is as follows:
the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and the present embodiment further describes the present embodiment, where the skin carbonization device 2 includes a mounting base 2-1, a carbonization discharge pipe 2-2, a carbonization heating chamber 2-3, an exhaust gas collection chamber 2-4, an exhaust gas discharge connection pipe 2-5, a turbine 2-6, a tooth surface 2-7, a mounting frame 2-8, a transmission shaft 2-9, a gear wheel 2-10, a transmission pulley 2-11, a transmission belt 2-12, a control sliding plate 2-13, a connection steel rope 2-14, a cable control discharge plate 2-15, a connection plate 2-16, a spring 2-17, and a gas purification chamber 2-18, and the control sliding plate 2-13 drives the cable control discharge plate 2-15 and the connection steel rope 2-14 to drive the cable control discharge plate 2-15 and the connection steel rope 2-14 through the control sliding plate 2-13 The connecting plate 2-16 moves and compresses the spring 2-17, the cable moving outwards controls the discharge plate 2-15 to open the carbonized discharge pipe 2-2, then the cable heated and carbonized in the carbonized heating cavity 2-3 enters the rotating hole cylinder 4-4 of the sheath separating device 4 and the rotating current disc 5-6 to push the current disc 5-7 to form a space, simultaneously the transmission shaft 2-9 rotates and drives the gear I2-10 and the transmission belt wheel 2-11 to rotate under the action of the matched motor, the gear I2-10 drives the turbine 2-6 to rotate to push the gas generated during carbonization into the gas purification cavity 2-18 for purification through the waste gas discharge connecting pipe 2-5, the mounting seat 2-1 is fixedly arranged on the mounting plate 1, a carbonization discharging pipe 2-2 is fixedly arranged on a mounting seat 2-1, a carbonization heating cavity 2-3 is arranged on the carbonization discharging pipe 2-2, an exhaust gas collecting cavity 2-4 is arranged on the carbonization discharging pipe 2-2, an exhaust gas discharging connecting pipe 2-5 is fixedly arranged on the exhaust gas collecting cavity 2-4, a turbine 2-6 is rotatably arranged in the exhaust gas discharging connecting pipe 2-5, a tooth surface 2-7 is arranged on the turbine 2-6, a mounting frame 2-8 is fixedly arranged on the exhaust gas discharging connecting pipe 2-5, a transmission shaft 2-9 is rotatably arranged on the mounting frame 2-8, a gear I2-10 is fixedly arranged on the transmission shaft 2-9, a transmission belt wheel 2-11 is fixedly arranged on the transmission shaft 2-9, a transmission belt 2-12 is arranged on the transmission belt wheel 2-11, the control sliding plate 2-13 is slidably mounted on the waste gas exhaust connecting pipe 2-5, the connecting steel rope 2-14 is fixedly mounted on the control sliding plate 2-13 and the cable control discharge plate 2-15, the cable control discharge plate 2-15 is slidably mounted inside the waste gas exhaust connecting pipe 2-5, the connecting plate 2-16 is fixedly mounted on the cable control discharge plate 2-15, the spring 2-17 is fixedly mounted on the connecting plate 2-16, and the gas purification cavity 2-18 is fixedly mounted on the mounting plate 1.
The third concrete implementation mode:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and the embodiment is further described, where the transmission control device 3 includes a mounting fixing plate 3-1, a transmission shaft two 3-2, a receiving belt wheel 3-3, a bevel gear one 3-4, a cross-hole shaft 3-5, a bevel gear two 3-6, a limiting rod 3-7, a control pushing frame 3-8, a mounting fixing plate 3-9, a cross-rotation shaft 3-10, a transmission gear one 3-11, a spring two 3-12, and a limiting ring 3-13, and simultaneously pushes the working plate 5-7 to drive the control pushing frame 3-8 to move, and controls the pushing frame 3-8 to drive the cross-hole shaft 3-5 and the transmission gear one 3-11 to move, so that the transmission gear one 3-11 and the transmission gear one 4-10 are engaged with each other Then, a rotating transmission belt wheel 2-11 drives a receiving belt wheel 3-3 to rotate through a transmission belt 2-12, the receiving belt wheel 3-3 drives a bevel gear I3-4 to rotate through a transmission shaft II 3-2, the bevel gear I3-4 drives a cross hole shaft 3-5 to rotate through a bevel gear II 3-6, the cross hole shaft 3-5 drives a transmission gear I3-11 to rotate through a cross rotating shaft 3-10, a mounting and fixing plate 3-1 is fixedly arranged on a mounting plate 1, the transmission shaft II 3-2 is rotatably arranged on the mounting and fixing plate 3-1, the receiving belt wheel 3-3 is fixedly arranged on the transmission shaft II 3-2, the bevel gear I3-4 is fixedly arranged on the transmission shaft II 3-2, the cross hole shaft 3-5 is rotatably arranged on the mounting and fixing plate 3-1, a bevel gear II 3-6 is fixedly arranged on a cross hole shaft 3-5, a control pushing frame 3-8 is slidably arranged on a limiting rod 3-7, the control pushing frame 3-8 is rotatably arranged on a cross rotating shaft 3-10, the cross rotating shaft 3-10 is slidably arranged on a fixing plate 3-9 and the cross hole shaft 3-5, a transmission gear I3-11 is fixedly arranged on the cross rotating shaft 3-10, a spring II 3-12 is sleeved on the cross rotating shaft 3-10, and a limiting ring 3-13 is fixedly arranged on the cross rotating shaft 3-10.
The fourth concrete implementation mode:
the first embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15. the first embodiment is further described, wherein the outer skin separating device 4 comprises a second mounting seat 4-1, a second outer skin crushed slag collecting barrel 4-2, a crushed slag discharging pipe 4-3, a rotary hole barrel 4-4, a vibration matching groove hole 4-5, a discharging hole 4-6, a rotary matching tooth 4-7, a third mounting seat 4-8, a connecting shaft 4-9, a first transmission gear 4-10, a fixed shaft 4-11, a second transmission gear 4-12 and a third transmission gear 4-13, wherein the first transmission gear 3-11 drives the first transmission gear 4-10 to rotate, the first transmission gear 4-10 drives the third transmission gear 4-13 to rotate through the connecting shaft 4-9, a third transmission gear 4-13 drives a large transmission gear 5-5 to rotate, the large transmission gear 5-5 drives a rotating current disc 5-6 connected with and installed with a rotating shaft 5-4 and connected with and installed with the rotating shaft 5-4, a pushing current disc 5-7, an inlet hole 5-8, an installation fixed cylinder 5-9, a third spring 5-10, a sliding bolt 5-11, an installation rack fixing frame 5-12, a vibrating spring 5-13, a vibrating bolt 5-14, a vibrating matching ball 5-15, an extrusion rotating roller 5-16 and a connection control pushing cylinder 5-17 to rotate, a first transmission gear 4-10 drives a second transmission gear 4-12 to rotate, the second transmission gear 4-12 drives a rotating hole cylinder 4-4 to rotate through a rotating matching tooth 4-7, and the rotating direction of the rotating hole cylinder 4-4 is opposite to the rotating direction of the connection control pushing cylinder 5-17 to rotate The cable with carbonized outer surface is extruded to separate the skin and the metal wire, the crushed skin enters the skin slag collecting cylinder 4-2 through the discharge hole 4-6 and is discharged from the slag discharge pipe 4-3, the mounting seat II 4-1 is fixedly arranged on the mounting plate 1, the skin slag collecting cylinder 4-2 is fixedly arranged on the mounting seat II 4-1, the slag discharge pipe 4-3 is fixedly arranged on the skin slag collecting cylinder 4-2, the rotary perforated cylinder 4-4 is rotatably arranged on the slag discharge pipe 4-3, the vibration matching slotted hole 4-5 is arranged on the rotary perforated cylinder 4-4, the discharge hole 4-6 is arranged on the rotary perforated cylinder 4-4, the rotary matching tooth 4-7 is fixedly arranged on the rotary perforated cylinder 4-4, and the mounting fixing seat III 4-8 is fixedly arranged on the skin slag collecting cylinder 4-2, the connecting shaft 4-9 is rotatably arranged on the mounting fixing seat III 4-8, the transmission gear I4-10 is fixedly arranged on the connecting shaft 4-9, the fixed shaft 4-11 is fixedly arranged on the mounting fixing seat III 4-8, the transmission gear II 4-12 is rotatably arranged on the fixed shaft 4-11, the transmission gear II 4-12 is meshed with the transmission gear I4-10, and the transmission gear III 4-13 is fixedly arranged on the connecting shaft 4-9.
The fifth concrete implementation mode:
the third embodiment is further described by referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15. the third embodiment is further described by the third embodiment, wherein the internal extrusion metal discharging device 5 comprises a reciprocating device 5-1, a connecting and mounting rod 5-2, a metal wire collecting box 5-3, a connecting and mounting rotating shaft 5-4, a transmission gear wheel 5-5, a rotating current disc 5-6, a pushing current disc 5-7, an inlet hole 5-8, a mounting fixed cylinder 5-9, a spring three 5-10, a sliding bolt 5-11, a mounting rack fixing frame 5-12, a vibrating spring 5-13, a vibrating bolt 5-14, a vibrating matching ball 5-15, an extrusion rotating roller 5-16 and a connecting and controlling pushing cylinder 5-17, the reciprocating device 5-1 of the internal extrusion metal discharging device 5 drives the connecting and mounting rod 5-2 to move, the connecting and mounting rod 5-2 drives the connecting and mounting rotating shaft 5-4 and the transmission gear wheel 5-5 arranged on the connecting and mounting rotating shaft 5-4, the rotating current disc 5-6, the pushing current disc 5-7, the inlet hole 5-8, the mounting fixed cylinder 5-9, the spring three 5-10, the sliding bolt 5-11, the mounting rack fixing frame 5-12, the vibrating spring 5-13, the vibrating bolt 5-14, the vibrating matching ball 5-15, the extrusion rotating roller 5-16 and the connecting control pushing cylinder 5-17 to move, so that the connecting control pushing cylinder 5-17 can push the skin carbonizing device when the rotating current disc 5-6 and the pushing current disc 5-7 move to the two ends of the rotating hole cylinder 4-4 of the skin separating device 4 at the same time 2, then when the vibration bolt 5-14 moves to the position of the vibration matching slotted hole 4-5, the vibration spring 5-13 is put in to rapidly move downwards to impact on the rotary hole cylinder 4-4 to form vibration to accelerate the discharge of broken carbonized outer skin, and simultaneously the spring three 5-10 can make the device adapt to the amount of cables to be processed, when the outer skin is completely discharged, the device connected with and arranged on the rotary shaft 5-4 is pulled out through the reciprocating device 5-1, the transmission gear one 3-11 and the transmission gear one 4-10 are separated to stop rotating in the pulling process, then the movable push plate 5-7 pulls out the metal wire in the rotary hole cylinder 4-4 to be discharged in the metal wire collecting box 5-3 to be processed subsequently, in the process of discharging the metal wire, the connection control pushing cylinder 5-17 does not act on the control sliding plate 2-13, the cable control discharging plate 2-15 has the function of plugging the carbonization discharging pipe 2-2 to stop the discharge of the cable after carbonization, the reciprocating device 5-1 is installed and fixed on the installation plate 1, the connection installation rod 5-2 is installed on the reciprocating device 5-1, the metal wire collection box 5-3 is installed and fixed on the installation plate 1, the connection installation rotating shaft 5-4 is rotatably installed on the connection installation rod 5-2, the transmission big gear 5-5 is installed and fixed on the connection installation rotating shaft 5-4, the rotation working disk 5-6 is installed and fixed on the connection installation rotating shaft 5-4, the pushing working disk 5-7 is installed and fixed on the connection installation rotating shaft 5-4, the device comprises a push current disc 5-7, a mounting fixed cylinder 5-9, a mounting fixed shaft 5-4, a spring III 5-10, a sliding bolt 5-11, a mounting rack fixing frame 5-12, a vibration spring 5-13, a vibration bolt 5-14, a vibration matching ball 5-15, a vibration matching ball 5-14, an extrusion rotating roller 5-16, a connection control push cylinder 5-17, a push current disc 5-7 and a connecting control push cylinder 5-17, wherein the mounting fixed cylinder 5-9 is fixedly mounted on the connecting mounting rotating shaft 5-4, the spring III 5-10 is mounted inside the mounting fixed cylinder 5-9, the sliding bolt 5-11 is slidably mounted inside the mounting fixed cylinder 5-9, the mounting rack fixing frame 5-12 is fixedly mounted on the sliding bolt 5-11, the vibration spring 5-13 is mounted inside the mounting rack fixing frame 5-12, the vibration bolt 5-14 is slidably mounted inside the mounting rack fixing frame 5-12, the vibration matching ball 5-15 is rotatably mounted on the vibration matching ball 5-14.
The sixth specific implementation mode:
the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and further described with reference to the second embodiment, the transmission shafts 2 to 9 of the skin carbonization device 2 are provided with matching motors, the number of the control sliding plates 2 to 13, the connection steel ropes 2 to 14, the cable control discharge plates 2 to 15, the connection plates 2 to 16, and the springs 2 to 17 is four, and the gas purification chambers 2 to 18 are commercially available purification devices. The sixth specific implementation mode:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and further described with reference to the fifth embodiment, wherein the reciprocating device 5-1 of the internal extruding metal discharging device 5 is a commercially available moving device, and the number of the vibrating spring 5-13, the vibrating bolt 5-14, and the vibrating ball 5-15 is two.
The working principle of the invention is as follows: a working principle of waste cable treatment equipment in a communication computer is that whether the connection condition between devices meets requirements is checked before the waste cable treatment equipment is used, firstly, a reciprocating device 5-1 of an internal extrusion metal discharging device 5 drives a connecting installation rod 5-2 to move, the connecting installation rod 5-2 drives a connecting installation rotating shaft 5-4 and a transmission big gear 5-5 arranged on the connecting installation rotating shaft 5-4, a rotating current disc 5-6, a pushing current disc 5-7, an inlet hole 5-8, an installation fixed cylinder 5-9, a spring three 5-10, a sliding bolt 5-11, an installation frame fixing frame 5-12, a vibration spring 5-13, a vibration bolt 5-14, a vibration matching ball 5-15, an extrusion rotating roller 5-16 and a connection control pushing cylinder 5-17 to move, so that when the rotating discs 5-6 and the pushing discs 5-7 move to the two ends of the rotating hole cylinder 4-4 of the skin separating device 4, the connection control pushing cylinder 5-17 pushes the control sliding plate 2-13 of the skin carbonizing device 2 to move, the control sliding plate 2-13 drives the cable control discharging plate 2-15 and the connecting plate 2-16 to move through the connecting steel cable 2-14 and compress the spring 2-17, the cable control discharging plate 2-15 moving towards the outside opens the carbonizing discharging pipe 2-2, then the cable heated and carbonized in the carbonizing heating cavity 2-3 enters the rotating hole cylinder 4-4 of the skin separating device 4 through the carbonizing discharging pipe 2-2 and the space formed by the rotating discs 5-6 and the pushing discs 5-7, meanwhile, a transmission shaft 2-9 rotates under the action of a matched motor to drive a gear I2-10 and a transmission belt wheel 2-11 to rotate, the gear I2-10 drives a turbine 2-6 to rotate, gas generated during carbonization is pushed into a gas purification cavity 2-18 through a waste gas discharge connecting pipe 2-5 to be purified, a current disc 5-7 is pushed to drive a control pushing frame 3-8 to move, the pushing frame 3-8 is controlled to drive a cross hole shaft 3-5 and a transmission gear I3-11 to move, so that the transmission gear I3-11 is meshed with the transmission gear I4-10, then the rotating transmission belt wheel 2-11 drives a receiving belt wheel 3-3 to rotate through a transmission belt 2-12, the receiving belt wheel 3-3 drives a bevel gear I3-4 to rotate through a transmission shaft II 3-2, the first bevel gear 3-4 drives the first cross hole shaft 3-5 to rotate through the second bevel gear 3-6, the first cross hole shaft 3-5 drives the first transmission gear 3-11 to rotate through the cross rotating shaft 3-10, the first transmission gear 3-11 drives the first transmission gear 4-10 to rotate, the first transmission gear 4-10 drives the third transmission gear 4-13 to rotate through the connecting shaft 4-9, the third transmission gear 4-13 drives the big transmission gear 5-5 to rotate, the big transmission gear 5-5 drives the rotating current disk 5-6 connected with the rotating shaft 5-4 and connected with the rotating shaft 5-4, the current pushing disk 5-7, the inlet hole 5-8, the mounting fixing cylinder 5-9, the third spring 5-10, the sliding bolt 5-11, the mounting bracket 5-12, the fixing bracket, 5-13 parts of vibration spring, 5-14 parts of vibration bolt, 5-15 parts of vibration matching ball, 5-16 parts of extrusion rotating roller and 5-17 parts of connection control pushing cylinder rotate, 4-10 parts of transmission gear drive 4-12 drive transmission gear drive 4-4 parts of rotation hole cylinder to rotate, 4-12 parts of transmission gear drive 4-4 drive rotation hole cylinder through rotation matching teeth 4-7, and the rotation direction of 4-4 parts of rotation hole cylinder and the rotation direction of 5-17 parts of connection control pushing cylinder are reversed to extrude the cable carbonized on the inner surface to separate the skin and metal wires, the broken skin enters 4-2 parts of skin broken slag collecting cylinder through discharge hole 4-6 and is discharged from broken slag discharge pipe 4-3, and when 5-14 parts of vibration bolt move to 4-5 parts of vibration matching slot hole, the broken skin rapidly moves downwards to impact on 4 parts of rotation hole cylinder under the action of 5-13 parts of vibration spring 4, vibration is formed on the carbonization discharging pipe to accelerate discharging of broken carbonization sheaths, meanwhile, the springs three 5-10 can enable the device to adapt to the amount of cables to be treated, after the sheaths are completely discharged, the device connected and installed with the rotating shaft 5-4 and the device connected and installed on the rotating shaft 5-4 are pulled out through the complex moving device 5-1, the transmission gears 3-11 and the transmission gears 4-10 are separated and stop rotating in the pulling process, then the moving pushing disc 5-7 pulls out the metal wires in the rotating hole cylinder 4-4 to be discharged in the metal wire collecting box 5-3 to be subjected to subsequent collecting treatment, the control pushing cylinder 5-17 is connected and does not act on the control sliding plate 2-13 in the process of discharging the metal wires, and the cable control discharging plate 2-15 has the function of blocking the carbonization discharging pipe 2-2 to stop discharging of the carbonized cables.
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.