Disclosure of Invention
The invention aims to overcome the problems in the prior art, and provides a peeling recoverer for a plurality of electric power communication cables, which can input the communication cables into a first wire inlet hole, so that a protective sheath on the communication cables can be cut by a first cutting knife arranged on a first cutting disc, the protective sheath on the communication cables can be further recovered by a third collecting rotating wheel, the communication cables can be further scattered by a comb wire column arranged in a second inner cylinder, so that further processing can be carried out, an insulating sheath on the communication cables can be cut by the rotation of a cutting rotating wheel, and the insulating sheath on the communication cables can be further recovered by the first collecting rotating wheel and the second collecting rotating wheel, so that the purpose of recovering copper wire bodies and protective sheaths is achieved, air pollution caused by the traditional combustion mode is avoided.
The invention is realized by the following technical scheme:
the utility model provides an electric power communication many cables recoverer of skinning, including a organism, be equipped with first entrance hole on the organism, still be equipped with on the organism one with the corresponding first recess that communicates in first entrance hole, be equipped with a pivoted rolling disc in the first recess, be equipped with the first cutting disc of round on the rolling disc, be equipped with on the first cutting disc respectively one with the corresponding second entrance hole in first entrance hole, still be equipped with in the first cutting disc one with the corresponding first cutting knife in second entrance hole can utilize first cutting knife can further cut the protection overcoat of communication cable to can make the communication cable in the protection overcoat expose outward, thereby can further handle.
Still be equipped with in the organism with the first inner tube of the corresponding intercommunication in first entrance hole, be equipped with a pivoted third in the first inner tube and collect the runner, can collect the rotation of runner through the third and can retrieve the protective sheath on the communication cable.
The internal second inner tube that is equipped with one with the corresponding intercommunication in first entrance hole, be equipped with a pivoted comb line wheel in the second inner tube, be equipped with the comb line post on the comb line wheel, can pass through the rotation of comb line wheel can further drive the rotation of comb line post to can pass through the comb line post is dredged many communication cables that set up and is dispersed, thereby can carry out further processing.
Still be equipped with in the organism one with the corresponding second recess that communicates of second inner tube, be equipped with in the second recess one with corresponding first locating wheel of pivoted of combing wire wheel and a second locating wheel can pass through first locating wheel with the rotation of second locating wheel can extrude the communication cable and carry, avoids the communication cable to take place loose problem.
A fourth inner cylinder correspondingly communicated with the second groove is further arranged in the machine body, a dividing runner is arranged in the fourth inner cylinder, the dividing runner is provided with a plurality of pieces, each two adjacent dividing runners are respectively provided with a positioning wire groove corresponding to the first positioning wheel and the second positioning wheel, a rotating cutting runner is respectively arranged between each two adjacent dividing runners, the cutting runners are respectively provided with a second cutting knife rotating in the positioning wire grooves, the fourth inner cylinder is also internally provided with a rotating fluted disc driving the cutting runners to rotate, the cutting runners can be further driven to rotate through the rotation of the rotating fluted disc, so that the rotation of the second cutting knife can be further driven, and the insulating sheath on the communication cable can be further cut through the second cutting knife, for further processing.
Still be equipped with in the organism one with the corresponding third recess that communicates of fourth inner tube, be equipped with corresponding pivoted first collection runner and a second collection runner in the third recess, can pass through first collection runner with the rotation of runner is collected to the second, can be further retrieve insulating crust and the copper line body on the communication cable.
Still be equipped with a first motor drive's main pivot in the organism, main pivot drives respectively first collection runner with the runner is collected to the second with the corresponding rotation of runner is collected to the third, main pivot drives respectively first locating wheel with the corresponding rotation of second locating wheel can pass through the rotation of main pivot can drive respectively first collection runner with the runner is collected to the second with the corresponding rotation of runner is collected to the third to the speed that makes the feed speed of communication cable and recovery that can step forward is corresponding.
Furthermore, a ninth rotating shaft driven by a second motor is arranged in the fourth inner cylinder, the rotating fluted disc is arranged on the ninth rotating shaft, the branching rotating wheels are arranged in a cylindrical shape and are respectively sleeved on the rotating fluted disc, the branching rotating wheels are respectively connected with a support frame, the support frames are respectively connected on the machine body, a sliding inner groove in a concave shape is respectively arranged between every two adjacent branching rotating wheels, the cutting rotating wheels are arranged in a T shape and are arranged in a circular ring shape, the cutting rotating wheels respectively rotate in the sliding inner grooves, tooth grooves correspondingly meshed with the rotating fluted disc are respectively arranged on the cutting rotating wheels, first oil pipes correspondingly communicated with the sliding inner grooves are respectively arranged on the branching rotating wheels, a lubricating oil groove arranged on the machine body is included in the fourth inner cylinder, and an oil pump is arranged in the lubricating oil groove, be connected with a second oil pipe on the oil pump, first oil pipe respectively with the corresponding intercommunication of second oil pipe, the end connection of ninth pivot has a first belt pulley, can pass through the rotation of rotating the fluted disc drives respectively the rotation of cutting runner to can further drive the rotation of second cutting knife can make the cutting runner is in slide in the slip inside groove be provided with a first oil pipe on the separated time runner respectively, thereby can utilize first oil pipe is right respectively the oil feed is carried out to the slip inside groove, thereby can further assurance arrive the normal rotation of cutting runner.
Furthermore, a fourteenth rotating shaft which rotates in the machine body is arranged in the second inner cylinder, the yarn combing wheel is arranged on the fourteenth rotating shaft, the second inner cylinder also comprises a row of wire grooves arranged on the machine body, the wire grooves are arranged in a semicircular shape, the wire combing column corresponds to the wire guide groove, the end part of the fourteenth rotating shaft is connected with a second belt pulley corresponding to the first belt pulley, the first belt pulley and the second belt pulley are correspondingly connected through a connecting belt, the first belt pulley and the second belt pulley can be correspondingly connected through the connecting belt, therefore, the combing wheel and the cutting rotating wheel can further rotate correspondingly, the communication cable can be evacuated by utilizing the combing wheel rotating at a high speed, and the insulating sheath of the communication cable can be cut by the cutting rotating wheel rotating at a high speed.
Furthermore, a first rotating hole is formed in the machine body, the first rotating hole is correspondingly communicated with the first groove, a first rotating shaft is arranged in the first rotating hole, the rotating disc is arranged on the first rotating shaft, the first cutting discs are eight, the first cutting discs are respectively connected with a second cutting disc, two sides of each second cutting disc are respectively provided with a connecting threaded shaft connected to the first cutting disc, the second cutting discs respectively slide on the connecting threaded shafts, the connecting threaded shafts are arranged in a T shape, the connecting threaded shafts are respectively provided with a first spring for elastically pressing the second cutting discs, the second cutting discs are respectively provided with a fourth groove, the fourth grooves are respectively internally provided with an eighth rotating shaft connected to the second cutting discs, the first cutting knife is connected to the eighth rotating shaft, and the first rotating shaft is connected with a rotating handle, the diameter in second entrance hole gradually changes in proper order, can pass through the bullet pressure of first spring can be further right the second cutting dish is suppressed, thereby can be further right first cutting knife suppresses, can further guarantee to the cutting effect of first cutting knife to communication cable protective sheath, and the diameter in second entrance hole gradually changes in proper order, thereby can further guarantee to carry out recovery processing to the communication cable of different diameters, can pass through the rotation of rotating the handle is further right the rotation of first pivot, thereby can further conveniently select the second entrance hole of suitable diameter size.
Furthermore, a rotating shaft rotating hole is arranged in the machine body, the main rotating shaft rotates in the rotating shaft rotating hole, a third bevel gear is connected to the main rotating shaft, a rotating second rotating shaft is also arranged in the machine body, one end of the second rotating shaft is connected with a fourth bevel gear correspondingly meshed with the third bevel gear, the other end of the second rotating shaft is connected with a seventh bevel gear, a fifth rotating shaft rotating in the machine body is arranged in the first inner cylinder, the third collecting rotating wheel is connected to the fifth rotating shaft, the end part of the fifth rotating shaft is connected with a tenth bevel gear correspondingly meshed with the seventh bevel gear, a third wire inlet hole correspondingly communicated with the first wire inlet hole is arranged in the machine body, the third wire inlet hole is correspondingly communicated with the first inner cylinder, and the collecting rotating wheel can be further driven to rotate through the rotation of the first rotating shaft, so that the protective outer sleeve on the communication cable can be further recovered through the rotation of the collecting rotating wheel.
Furthermore, a sliding wire dividing positioning plate is arranged in the second groove, a third inner cylinder correspondingly communicated with the second inner cylinder is arranged on the wire dividing positioning plate, a tenth rotating shaft and an eleventh rotating shaft which rotate on the wire dividing positioning plate are arranged in the third inner cylinder, the first positioning wheel and the second positioning wheel are respectively arranged on the tenth rotating shaft and the eleventh rotating shaft, one end of the tenth rotating shaft and one end of the eleventh rotating shaft are respectively provided with a first gear which is correspondingly meshed and connected, and the other end of the eleventh rotating shaft is also provided with a first butt joint which is arranged in a square shape;
a second bevel gear is connected to the main rotating shaft, a third rotating shaft which rotates is further arranged in the machine body, a fifth bevel gear which is correspondingly engaged and connected with the second bevel gear is connected to one end of the third rotating shaft, an eighth bevel gear is connected to the other end of the third rotating shaft, a sixth rotating shaft which rotates in the second groove is further arranged in the machine body, an eleventh bevel gear which is correspondingly engaged and connected with the eighth bevel gear is connected to one end of the sixth rotating shaft, a first clamping connector which rotates in the second groove is connected to the other end of the sixth rotating shaft, the first clamping connector is correspondingly connected with the first counter connector, the branching positioning plate can slide in the second groove, the installation and the replacement of the branching positioning plate can be further facilitated, and therefore a proper first positioning wheel and a proper second positioning wheel can be conveniently selected, and can pass through the corresponding connection of first joint with the first butt joint to can further drive the synchronous rotation of first locating wheel and second locating wheel simultaneously in the main rotating shaft rotation process.
Furthermore, a sliding collecting slide block is arranged in the third groove, a slide block inner groove is arranged on the collecting slide block, a wire inlet correspondingly communicated with the slide block inner groove is also arranged on the collecting slide block, a twelfth rotating shaft and a thirteenth rotating shaft which rotate in the collecting slide block are respectively arranged in the slide block inner groove, the first collecting rotating wheel and the second collecting rotating wheel are respectively arranged on the twelfth rotating shaft and the thirteenth rotating shaft, one end of the twelfth rotating shaft and one end of the thirteenth rotating shaft are respectively provided with a second gear which is correspondingly meshed and connected, and the other end of the thirteenth rotating shaft is also provided with a second pair of joints which are arranged in a square shape;
the main rotating shaft is also connected with a first bevel gear, a rotating fourth rotating shaft is further arranged in the machine body, one end of the fourth rotating shaft is connected with a sixth bevel gear correspondingly meshed and connected with the first bevel gear, the other end of the fourth rotating shaft is connected with a ninth bevel gear, a seventh rotating shaft rotating in the third groove is further arranged in the machine body, one end of the seventh rotating shaft is connected with a twelfth bevel gear correspondingly meshed and connected with the ninth bevel gear, the other end of the seventh rotating shaft is connected with a second clamping head rotating in the third groove, the second clamping head is correspondingly connected with the second butt joint, the collecting slide block can slide in the third groove, the collecting slide block can be further conveniently installed, and the first collecting rotating wheel and the second collecting rotating wheel can be conveniently replaced, the second clamping joint can be correspondingly connected with the second connector, so that the main rotating shaft can be further ensured to drive the first collecting rotating wheel and the second collecting rotating wheel to synchronously rotate in the rotating process.
Furthermore, first joint with be provided with a joint groove that is square setting on the second joint respectively, be equipped with on the joint groove one with first butt joint with the corresponding opening of second butt joint can the separated time positioning disk with collect the gliding in-process of slider, can make first butt joint with second butt joint respectively with first joint with the opening that establishes carries out the joint on the second joint to can further make first butt joint with the second butt joint is in the joint inslot, thereby can further make first butt joint with second butt joint respectively with first joint with second joint carries out corresponding the connection.
Furthermore, a circle of sliding inner cylinders corresponding to the wire dividing rotating wheel are respectively arranged at the two sides of the fourth inner cylinder, a sliding pressing block is respectively arranged in the sliding inner cylinder, a second spring for elastically pressing the pressing block is respectively arranged in the sliding inner cylinder, the pressing blocks are respectively provided with a fifth groove, a pressing block rotating shaft connected with the pressing blocks is respectively arranged in the fifth grooves, the rotating shafts of the pressing blocks are respectively provided with a rotating pressing rotating wheel which respectively rotates on the wire dividing rotating wheels and can further press the pressing rotating wheels through the elastic pressure of the second springs, thereby can be further compress tightly the separated time runner that sets up side by side to can prevent that the communication cable from following adjacent two gap slippage between the separated time runner can further guarantee to the normal cutting of second cutting knife.
Furthermore, the machine body is further provided with an end cover corresponding to the fourth inner cylinder, and the fourth inner cylinder can be further conveniently opened through the end cover, so that the communication cable on the branching runner can be further conveniently operated.
Compared with the prior art, the invention has the beneficial effects that: the communication cable can be input into the first wire inlet hole, so that a protective outer skin on the communication cable can be cut by using a first cutting knife arranged on the first cutting disc, the protective outer skin on the communication cable can be further recovered by using the third collecting rotating wheel, the communication cable inside the communication cable can be further recovered after the protective outer skin on the communication cable is cut by using the first cutting knife, the communication cable which is mixed together can be dispersed by using a comb wire column arranged in the second inner cylinder so as to be further processed, the dispersed communication cable can be further clamped and conveyed by using the rotation of the first positioning wheel and the second positioning wheel, so that the secondary loosening can be prevented, and the rotation of the second cutting knife can be further driven by using the rotation of the cutting rotating wheel, thereby can cut the crust on the communication cable, and can pass through first collection runner with the second is collected the runner and can be respectively carry out further recovery to crust and copper line body on the communication cable, thereby reach the purpose of retrieving the copper line body and protecting the crust, avoided the air pollution that traditional combustion system caused, also avoided traditional combustion system to retrieve the trouble that the communication cable caused simultaneously, can further guarantee to the recovery efficiency to the communication cable, the cost of retrieving can further reduction, improve work efficiency.
Drawings
The invention is further described below with reference to the accompanying drawings.
Fig. 1 is a schematic view of an overall structure of a power communication multi-cable stripping recoverer according to an embodiment of the present invention.
Fig. 2 is a schematic structural diagram of a peeling and recovering device for a plurality of cables in power communication according to an embodiment of the invention.
FIG. 3 is a schematic view of the overall structure of the cutting wheel according to the embodiment of the present invention.
Fig. 4 is a schematic view of the entire structure of the yarn combing wheel according to the embodiment of the invention.
Fig. 5 is a schematic view of the overall structure of the rotating disk according to the embodiment of the present invention.
Fig. 6 is a schematic view of an overall structure of the first cutting disc and the second cutting disc according to the embodiment of the invention.
FIG. 7 is a schematic view of an overall structure of a collection slider according to an embodiment of the present invention.
Fig. 8 is a schematic view of the overall structure of the branching positioning plate according to the embodiment of the present invention.
Fig. 9 is a schematic view of the overall structure of a compact block according to an embodiment of the present invention.
Fig. 10 is a schematic overall structural diagram of the first card connector and the second card connector according to the embodiment of the invention.
In the figure: 1 machine body, 2 first wire inlet hole, 3 first groove, 4 first rotating hole, 5 first rotating shaft, 6 rotating handle, 7 rotating disc, 8 first cutting disc, 9 second wire inlet hole, 10 third wire inlet hole, 11 first inner cylinder, 12 second inner cylinder, 13 second groove, 14 third inner cylinder, 15 fourth inner cylinder, 16 third groove, 17 wire combing wheel, 18 wire dividing positioning disc, 19 first positioning wheel, 20 second positioning wheel, 21 wire dividing rotating wheel, 22 cutting rotating wheel, 23 collecting sliding block, 24 sliding block inner groove, 25 wire inlet, 26 first collecting rotating wheel, 27 second collecting rotating wheel, 28 first motor, 29 rotating shaft rotating hole, 30 main rotating shaft, 31 first bevel gear, 32 second bevel gear, 33 third bevel gear, 34 fourth bevel gear, 35 fifth bevel gear, 36 sixth bevel gear, 37 second rotating shaft, 38 third rotating shaft, 39 fourth rotating shaft, 40 seventh bevel gear, 41 eighth bevel gear, 42 ninth bevel gear, 43 fifth rotating shaft, 44 sixth rotating shaft, 45 seventh rotating shaft, 46 first clamping joint, 47 second clamping joint, 48 tenth bevel gear, 49 eleventh bevel gear, 50 twelfth bevel gear, 51 clamping groove, 52 second cutting disc, 53 connecting threaded shaft, 54 first spring, 55 eighth rotating shaft, 56 first cutting knife, 57 fourth groove, 58 ninth rotating shaft, 59 rotating fluted disc, 60 third collecting rotating wheel, 61 positioning wire groove, 62 sliding inner groove, 63 end cover, 64 second cutting knife, 65 first oil pipe, 66 second oil pipe, 67 supporting frame, 68 first belt pulley, 69 second belt pulley, 70 fourteenth rotating shaft, 71 pressing block, 72 wire combing column, 73 wire groove, 74 tenth rotating shaft, 75 eleventh rotating shaft, 76 first gear, 77 first pair joint, 78 twelfth rotating shaft, 79 thirteenth rotating shaft, 80 second pair joint, 81 second gear, 82 second spring, 83 a fifth groove, 84 a pressing block rotating shaft, 85 a pressing rotating wheel, 86 a second motor, 87 a lubricating oil groove, 88 a sliding inner cylinder and 89 a third motor.
Detailed Description
As shown in fig. 1 to 9, a peeling recoverer for a plurality of electric power communication cables comprises a machine body 1, wherein a first wire inlet hole 2 is formed in the machine body 1, a first groove 3 correspondingly communicated with the first wire inlet hole 2 is further formed in the machine body 1, a rotating disc 7 is arranged in the first groove 3, a circle of first cutting discs 8 is arranged on the rotating disc 7, second wire inlet holes 9 corresponding to the first wire inlet hole 2 are respectively formed in the first cutting discs 8, a first cutting knife 56 corresponding to the second wire inlet hole 9 is further arranged in each first cutting disc 8, a first wire inlet hole 2 is formed in the machine body 1, a first groove 3 correspondingly communicated with the first wire inlet hole 2 is further formed in the machine body 1, the first groove 3 is arranged in a circular ring shape, a rotating disc 7 is arranged in each first groove 3, the rolling disc 7 is a circular ring-shaped setting, a circle of first cutting disc 8 is arranged on the rolling disc 7, the number of the first cutting disc 8 can be set according to the design requirement, the first cutting disc 8 can rotate in the first groove 3, a second wire inlet hole 9 is formed in the first cutting disc 8, the second wire inlet hole 9 corresponds to the first wire inlet hole 2, so that the communication cable can be penetrated into the second wire inlet hole 9 through the first wire inlet hole 2, a first cutting knife 56 is arranged in the second wire inlet hole 9, the protective outer skin of the communication cable can be cut through the first cutting knife 56, a plurality of cables in the communication cable can be further exposed, and further processing can be further performed on the cable in the communication cable.
Still be equipped with in the organism 1 with the first inner tube 11 of the corresponding intercommunication in first entrance hole 2, be equipped with a pivoted third in the first inner tube 11 and collect runner 60, be provided with in the organism 1 with the first inner tube 11 of the corresponding intercommunication in first entrance hole 2, and be provided with a pivoted third in the first inner tube 11 and collect runner 60 to can twine the protection crust of communication cable on the third collects runner 60, thereby can carry out further recovery to the crust of communication cable, avoided utilizing the air pollution that the combustion system caused, further protect the environment.
A second inner cylinder 12 correspondingly communicated with the first wire inlet 2 is arranged in the machine body 1, a rotating comb wire wheel 17 is arranged in the second inner cylinder 12, a comb wire column 72 is arranged on the comb wire wheel 17, a second inner cylinder 12 correspondingly communicated with the first wire inlet 2 is also arranged in the machine body 1, a rotating comb wire rotating wheel 17 is arranged in the second inner cylinder 12, the comb wire rotating wheel 17 is arranged in a circular ring shape, the comb wire column 72 is arranged on the comb wire wheel 17, the comb wire column 72 is cylindrical and made of nylon materials, the comb wire column 72 has certain elasticity, when the cable cuts the protective skin of the communication cable through the first cutting knife 56, the thinner cable in the communication cable can be combed through the comb wire column 72, and the thinner cable in the communication cable is wound together, the wire combing column 72 can further comb thin cables in the rotating process, so that the thin cables can be scattered one by one, and the cables can be further processed.
The machine body 1 is also internally provided with a second groove 13 correspondingly communicated with the second inner cylinder 12, the second groove 13 is internally provided with a first rotating positioning wheel 19 and a second rotating positioning wheel 20 corresponding to the wire combing wheel 17, the machine body 1 is also internally provided with a second groove 13, the second groove 13 is correspondingly communicated with the second inner cylinder 12, the second groove 13 is internally provided with a first rotating positioning wheel 19 and a second rotating positioning wheel 20 correspondingly, the first positioning wheel 19 and the second positioning wheel 20 are respectively arranged in a cylindrical shape, semicircular grooves are respectively arranged on the first positioning wheel 19 and the second positioning wheel 20, the semicircular grooves correspond to communication cables, and the first positioning wheel 19 and the second positioning wheel 20 can be correspondingly clamped and rotated, so that the communication cables can be further scattered through the first positioning wheel 19 and the second positioning wheel 19 which rotate correspondingly 20, so that the telecommunication cables can be clamped side by side, thereby preventing the telecommunication cables from being scattered and enabling further processing of the telecommunication cables.
A fourth inner cylinder 15 correspondingly communicated with the second groove 13 is further arranged in the machine body 1, a branching runner 21 is arranged in the fourth inner cylinder 15, the branching runner 21 is provided with a plurality of pieces, each two adjacent branching runners 21 are respectively provided with a positioning wire groove 61 corresponding to the first positioning wheel 19 and the second positioning wheel 20, a rotary cutting runner 22 is respectively arranged between each two adjacent branching runners 21, the cutting runner 22 is respectively provided with a second cutting knife 64 rotating in the positioning wire groove 61, the fourth inner cylinder 15 is further internally provided with a rotary fluted disc 59 driving the cutting runner 22 to rotate, the machine body 1 is further internally provided with a fourth inner cylinder 15, the fourth inner cylinder 15 is correspondingly communicated with the second groove 13, the fourth inner cylinder 15 is cylindrical, and the fourth inner cylinder 15 is internally provided with a branching runner 21, the wire dividing rotating wheels 21 are arranged in a circular ring shape, the wire dividing rotating wheels 21 are provided with a plurality of pieces, the number of the wire dividing rotating wheels 21 can be set according to the design requirement, after every two adjacent wire dividing rotating wheels 21 are correspondingly connected, the wire dividing rotating wheels 21 are respectively provided with an inclined end surface, a positioning wire slot 61 is formed between every two adjacent wire dividing rotating wheels 21, a rotating cutting rotating wheel 22 is respectively arranged between every two adjacent wire dividing rotating wheels 21, the cutting rotating wheel 22 is arranged in a circular ring shape, the cutting rotating wheel 22 can rotate between the two wire dividing rotating wheels 21, the cutting rotating wheels 22 are respectively connected with a second cutting knife 64, the second cutting knife 64 is arranged in a circular ring shape, the second cutting knife 64 can rotate in the positioning wire slot 61, the positioning wire slot 61 corresponds to the first positioning wheel 19 and the second positioning wheel 20, therefore, the communication cable can be further conveyed into the positioning wire groove 61 through the first positioning wheel 19 and the second positioning wheel 20, a rotating fluted disc 59 for driving the cutting runner 22 to rotate is arranged in the fourth inner cylinder 15, a tooth groove corresponding to the rotating fluted disc 59 is arranged on the cutting runner 22, so that the cutting runner 22 can be further driven to rotate through the rotation of the rotating fluted disc 59, the second cutting knife 64 can be further driven to rotate through the cutting runner 22, the communication cable can be further cut by the second cutting knife 64, the insulating sheath can be further cut, the insulating sheath and the copper wire body of the communication cable can be further recycled, air pollution caused by combustion is avoided, and difficulty caused by cleaning combustion attachment on the copper wire body after combustion is also avoided, thereby further improving the recovery rate of the communication cable.
A third groove 16 correspondingly communicated with the fourth inner cylinder 15 is further formed in the machine body 1, a first collecting rotating wheel 26 and a second collecting rotating wheel 27 which rotate correspondingly are arranged in the third groove 16, a third groove 16 is further formed in the machine body 1, the third groove 16 is correspondingly communicated with the fourth inner cylinder 15, a first collecting rotating wheel 26 and a second collecting rotating wheel 27 which rotate correspondingly are arranged in the third groove 16, and therefore the insulating sheath and the copper wire body of the communication cable can be further recycled through the corresponding rotation of the first collecting rotating wheel 26 and the second collecting rotating wheel 27, the purpose of recycling the insulating sheath and the copper wire body of the communication cable can be further achieved, and the communication cable can be further pulled to further advance through the rotation of the first collecting rotating wheel 26 and the second collecting rotating wheel 27 Thereby, the recovery processing of the communication cable can be ensured.
A main rotating shaft 30 driven by a first motor 28 is further arranged in the machine body 1, the main rotating shaft 30 respectively drives the first collecting rotating wheel 26 to rotate correspondingly with the second collecting rotating wheel 27 and the third collecting rotating wheel 60, the main rotating shaft 30 respectively drives the first positioning wheel 19 to rotate correspondingly with the second positioning wheel 20, a main rotating shaft 30 driven by a first motor 28 is arranged in the machine body 1, so that the first collecting rotating wheel 26 can be further driven to rotate correspondingly with the second collecting rotating wheel 27 and the third collecting rotating wheel 60 by the rotation of the main rotating shaft 30, the first collecting rotating wheel 26 corresponds to the second collecting rotating wheel 27 and the third collecting rotating wheel 60, and the protection of the communication cable and the insulation sheath and the copper wire body of the sheath communication cable can be respectively recovered and processed under the condition that one communication cable is in one piece, and the main rotating shaft 30 can respectively drive the first positioning wheel 19 and the second positioning wheel 20 to correspondingly rotate, and the first positioning wheel 19 and the second positioning wheel 20 can be driven by the main rotating shaft 30, so that the rotation of the first positioning wheel 19 and the second positioning wheel 20 can be further driven to further correspond to the rotation of the first collecting rotating wheel 26, the second collecting rotating wheel 27 and the third collecting rotating wheel 60, and the rotation speed of the first positioning wheel 19 and the second positioning wheel 20 can be further ensured to correspond to the feeding speed of the cable.
As shown in fig. 3 and 4, a ninth rotating shaft 58 driven by a second motor 86 is disposed in the fourth inner cylinder 15, the rotating fluted disc 59 is disposed on the ninth rotating shaft 58, the branching runners 21 are cylindrically disposed and respectively sleeved on the rotating fluted disc 59, a support frame 67 is respectively connected to the branching runners 21, the support frames 67 are respectively connected to the machine body 1, a concave sliding inner groove 62 is respectively disposed between every two adjacent branching runners 21, the cutting runners 22 are T-shaped and annularly disposed, the cutting runners 22 respectively rotate in the sliding inner grooves 62, tooth grooves correspondingly engaged with the rotating fluted disc 59 are respectively disposed on the cutting runners 22, first oil pipes 65 correspondingly communicated with the sliding inner grooves 62 are further respectively disposed on the branching runners 21, a lubricating oil groove 87 disposed on the machine body 1 is included in the fourth inner cylinder 15, an oil pump is arranged in the lubricating oil groove 87, a second oil pipe 66 is connected to the oil pump, the first oil pipe 65 is respectively communicated with the second oil pipe 66, a first belt pulley 68 is connected to an end portion of the ninth rotating shaft 58, a ninth rotating shaft 58 driven by a second motor 86 is arranged in the fourth inner cylinder 15, so that the ninth rotating shaft 58 can be further driven to rotate by the second motor 86, the rotating fluted disc 59 is arranged on the ninth rotating shaft 58, so that the rotating fluted disc 59 can be further driven to rotate by the second motor 86, the branching runners 21 are arranged in a cylindrical shape, the branching runners 21 are respectively sleeved on the rotating fluted disc 59, a support frame 67 is respectively connected to the branching runners 21, so that the branching runners 21 can be respectively supported by the support frame 67, so that the rotating fluted disc 59 can further rotate in the branching runners 21, a concave sliding inner groove 62 is respectively arranged between every two adjacent branching runners 21, the sliding inner groove 62 is arranged in a circular ring shape, the cutting surface of the cutting runner 22 is arranged in a T shape, the cutting runner 22 is arranged in a circular ring shape, the cutting runner 22 can rotate in the sliding inner groove 62, so that the second cutting knife 64 can be further driven to rotate by the rotation of the cutting runner 22, the branching runners 21 are respectively connected with a first oil pipe 65, the first oil pipes 65 are respectively communicated with the sliding inner grooves 62 correspondingly, a lubricating oil groove 87 is arranged in the fourth inner cylinder 15, an oil pump is arranged in the lubricating oil groove 87, so that the lubricating oil can be further conveyed into the second oil pipe 66 by the oil pump, so that the cutting fluid can be further conveyed into the sliding inner groove 62 through the first oil pipe 65, thereby further ensuring the normal rotation of the cutting wheel 22, avoiding the problem of friction heating of the cutting wheel 22 during the rotation of the sliding inner groove 62, thereby ensuring the normal cutting function of the second cutting knife 64, and connecting a first belt pulley 68 at the end of the ninth rotating shaft 58.
As shown in fig. 3 and 4, a fourteenth rotating shaft 70 is disposed in the second inner cylinder 12 and rotates in the machine body 1, the wire combing wheel 17 is disposed on the fourteenth rotating shaft 70, the second inner cylinder 12 further includes a row of wire guiding grooves 73 disposed on the machine body 1, the wire guiding grooves 73 are disposed in a semicircular shape, the wire combing posts 72 correspond to the wire guiding grooves 73, a second belt pulley 69 corresponding to the first belt pulley 68 is connected to an end of the fourteenth rotating shaft 70, the first belt pulley 68 is correspondingly connected to the second belt pulley 69 through a connecting belt, a fourteenth rotating shaft 70 is disposed in the second inner cylinder 12, the wire combing wheel 17 is disposed on the fourteenth rotating shaft 70, and a second belt pulley 69 corresponding to the first belt pulley 68 is connected to the fourteenth rotating shaft 70, so that the first belt pulley 68 and the second belt pulley 69 can be correspondingly connected through a connecting belt, so that the second belt pulley 69 can be further driven to rotate through the rotation of the first belt pulley 68, so that the rotation of the wire combing wheel 17 can be further driven, the second inner cylinder 12 comprises a row of wire guiding grooves 73 arranged on the machine body 1, the wire guiding grooves 73 are arranged in a semicircular shape, the wire guiding grooves 73 correspond to communication cables, and the wire combing columns 72 correspond to the wire guiding grooves 73, so that the rotation of the wire combing columns 72 can be further driven in the rotating process of the wire combing wheel 17, thin cables in the communication cables can slide in the second inner cylinder 12 after the protective outer sleeves are peeled off, so that the thin communication cables can be further scattered through the rotation of the wire combing columns 72, and the communication cables can be further dispersed in the wire guide 73, so that the communication cables can be further dispersed one by one, and further processing can be performed.
As shown in fig. 1, 5 and 6, a first rotating hole 4 is formed in the machine body 1, the first groove 3 is correspondingly communicated with the first rotating hole 4, a first rotating shaft 5 is formed in the first rotating hole 4, the rotating disc 7 is arranged on the first rotating shaft 5, eight first cutting discs 8 are arranged, a second cutting disc 52 is connected to each first cutting disc 8, connecting threaded shafts 53 connected to the first cutting discs 8 are respectively arranged on two sides of each second cutting disc 52, the second cutting discs 52 slide on the connecting threaded shafts 53 respectively, the connecting threaded shafts 53 are arranged in a T shape, first springs 54 for elastically pressing the second cutting discs 52 are arranged on the connecting threaded shafts 53 respectively, fourth grooves 57 are formed in the second cutting discs 52, eighth rotating shafts 55 connected to the second cutting discs 52 are arranged in the fourth grooves 57 respectively, the first cutting knife 56 is connected to the eighth rotating shaft 55, the first rotating shaft 5 is connected to a rotating handle 6, the diameter of the second wire inlet hole 9 is gradually changed in sequence, a first rotating hole 4 correspondingly communicated with the first groove 3 is formed in the machine body 1, a rotating first rotating shaft 5 is arranged in the first rotating hole 4, the rotating disc 7 is arranged on the first rotating shaft 5, so that the rotating disc 7 can be further driven to rotate by the rotation of the first rotating shaft 5, the number of the first cutting discs 8 is eight, the first cutting discs 8 are respectively connected to a second cutting disc 52, connecting threaded shafts 53 connected to the first cutting discs 8 are respectively arranged on two sides of the second cutting discs 52, so that the second cutting discs 52 can be further connected to the first cutting discs 8 through the connecting threaded shafts 53, and the second cutting disk 52 is provided with a through hole corresponding to the connection screw shaft 53 so that the second cutting disk 52 can be rotated on the connection screw shaft 53, the connection screw shaft 53 is provided in a T-shape, the connection screw shaft 53 is provided with a first spring 54, respectively, so that the second cutting disk 52 can be further pressed by the first spring 54, the second cutting disk 52 is provided with a concave fourth groove 57, respectively, the fourth groove 57 is provided with an eighth rotating shaft 55, respectively, the first cutting blade 56 is provided on the eighth rotating shaft 55, the first cutting blade 56 corresponds to the second wire inlet hole 9, respectively, so that the second cutting disk 52 can be pressed by the first spring 54, so that the first cutting blade 56 can be further pressed, the first cutting knife 56 can be further pressed tightly corresponding to the protective outer skin of the communication cable, so that the protective outer skin of the communication cable can be further cut by the first cutting knife 56 in the sliding process of the communication cable, the diameters of the second wire inlet holes 9 are gradually changed in sequence, the second wire inlet holes 9 with different diameters and sizes can be formed in the first cutting disc 8, the communication cables with different diameters can be further cut, a rotating handle 6 is arranged on the first rotating shaft 5, the first rotating shaft 5 can be further driven to rotate, and the second wire inlet holes 9 with proper diameters and sizes can be further formed.
As shown in fig. 1 and 2, a rotating shaft rotating hole 29 is formed in the machine body 1, the main rotating shaft 30 rotates in the rotating shaft rotating hole 29, a third bevel gear 33 is connected to the main rotating shaft 30, a rotating second rotating shaft 37 is further formed in the machine body 1, one end of the second rotating shaft 37 is connected to a fourth bevel gear 34 which is correspondingly engaged with the third bevel gear 33, the other end of the second rotating shaft 37 is connected to a seventh bevel gear 40, a fifth rotating shaft 43 which rotates in the machine body 1 is formed in the first inner cylinder 11, the third collecting rotating wheel 60 is connected to the fifth rotating shaft 43, the end of the fifth rotating shaft 43 is connected to a tenth bevel gear 48 which is correspondingly engaged with the seventh bevel gear 40, a third wire inlet hole 10 which is correspondingly communicated with the first wire inlet hole 2 is formed in the machine body 1, and the third wire inlet hole 10 is correspondingly communicated with the first inner cylinder 11, a rotating shaft rotating hole 29 is arranged in the machine body 1, the main rotating shaft 30 can rotate in the rotating shaft rotating hole 29, a third bevel gear 33 is connected on the main rotating shaft 30, a rotating second rotating shaft 37 is also arranged in the machine body 1, a fourth bevel gear 34 correspondingly engaged and connected with the third bevel gear 33 is connected on the second rotating shaft 37, so that the second rotating shaft 37 can be further driven to rotate by the rotation of the main rotating shaft 30, a seventh bevel gear 40 is connected at the other end of the second rotating shaft 37, a rotating fifth rotating shaft 43 is arranged in the first inner cylinder 11, a tenth bevel gear 48 correspondingly engaged and connected with the seventh bevel gear 40 is connected on the fifth rotating shaft 43, so that the fifth rotating shaft 43 can be further driven to rotate, and the third collecting rotating wheel 60 is arranged on the fifth rotating shaft 43, therefore, the third collecting rotating wheel 60 can be further driven to rotate, a third wire inlet hole 10 correspondingly communicated with the first wire inlet hole 2 is formed in the machine body 1, the third wire inlet hole 10 is correspondingly communicated with the first inner cylinder 11, so that after a protective outer sleeve is cut, the protective outer skin can be further connected to the third collecting rotating wheel 60 through the third wire inlet hole 10, and the protective outer skin can be further recovered through the third collecting rotating wheel 60.
As shown in fig. 1 and 8, a sliding distributing positioning plate 18 is disposed in the second groove 13, a third inner cylinder 14 correspondingly communicated with the second inner cylinder 12 is disposed on the distributing positioning plate 18, a tenth rotating shaft 74 and an eleventh rotating shaft 75 rotating on the distributing positioning plate 18 are disposed in the third inner cylinder 14, the first positioning wheel 19 and the second positioning wheel 20 are respectively disposed on the tenth rotating shaft 74 and the eleventh rotating shaft 75, one end of the tenth rotating shaft 74 and one end of the eleventh rotating shaft 75 are respectively provided with a first gear 76 correspondingly engaged with each other, the other end of the eleventh rotating shaft 75 is further provided with a first counter joint 77 disposed in a square shape, the second groove 13 is disposed in a concave shape, a sliding distributing positioning plate 18 is disposed in the second groove 13, and a third inner cylinder 14 is disposed on the distributing positioning plate 18, the third inner cylinder 14 is correspondingly communicated with the second inner cylinder 12, a rotating tenth rotating shaft 74 and an eleventh rotating shaft 75 are arranged in the third inner cylinder 14, the first positioning wheel 19 and the second positioning wheel 20 are respectively arranged on the tenth rotating shaft 74 and the eleventh rotating shaft 75, a first gear 76 which is correspondingly meshed and connected is respectively arranged at the end parts of the tenth rotating shaft 74 and the eleventh rotating shaft 75, so that the first positioning wheel 19 and the second positioning wheel 20 can be further correspondingly rotated in opposite directions through the corresponding meshing and connection of the first gear 76, the first positioning wheel 19 and the second positioning wheel 20 are correspondingly clamped and arranged, so that the communication cables can be further poured to the first positioning wheel 19 and the second positioning wheel 20 through the wire guide groove 73, so that the first positioning wheel 19 and the second positioning wheel 20 can be further utilized to correspondingly clamp, the problem of loosening of the communication cable can be prevented, and the communication cable can be further conveyed, a first butt joint 77 which is arranged in a square shape is further arranged at the other end of the eleventh rotating shaft 75, a second bevel gear 32 is connected to the main rotating shaft 30, a rotating third rotating shaft 38 is further arranged in the machine body 1, a fifth bevel gear 35 which is correspondingly engaged and connected with the second bevel gear 32 is connected to one end of the third rotating shaft 38, an eighth bevel gear 41 is connected to the other end of the third rotating shaft 38, a sixth rotating shaft 44 which rotates in the second groove 13 is further arranged in the machine body 1, an eleventh bevel gear 49 which is correspondingly engaged and connected with the eighth bevel gear 41 is connected to one end of the sixth rotating shaft 44, a first clamping head 46 rotating in the second groove 13 is connected to the other end of the sixth rotating shaft 44, the first clamping head 46 is correspondingly connected to the first pair of joints 77, a second bevel gear 32 is further connected to the main rotating shaft 30, a rotating third rotating shaft 38 is arranged in the machine body 1, a fifth bevel gear 35 correspondingly engaged with the second bevel gear 32 is connected to the third rotating shaft 38, an eighth bevel gear 41 is connected to the other end of the third rotating shaft 38, so that the third rotating shaft 38 can be further driven to rotate in the rotating process of the main rotating shaft 30, a rotating sixth rotating shaft 44 is arranged in the machine body 1, an eleventh bevel gear 49 correspondingly engaged with the eighth bevel gear 41 is connected to one end of the sixth rotating shaft 44, so that the sixth rotating shaft 44 can be further driven to rotate, the sixth rotating shaft 44 is connected with a first clamping head 46, so that the wire-dividing positioning plate 18 can slide in the second groove 13, and the first clamping head 46 can be further connected with the first counter head 77 correspondingly, so that the first positioning wheel 19 and the second positioning wheel 20 can be further driven to rotate in the rotating process of the main rotating shaft 30, the wire-dividing positioning plate 18 can be further mounted and dismounted by sliding the wire-dividing positioning plate 18 in the second groove 13, and the first positioning wheel 19 and the second positioning wheel 20 with proper sizes can be further conveniently mounted according to the diameter of a communication cable.
As shown in fig. 1, 2 and 7, a sliding collection slider 23 is disposed in the third groove 16, a slider inner groove 24 is disposed on the collection slider 23, a wire inlet 25 correspondingly connected to the slider inner groove 24 is further disposed on the collection slider 23, a twelfth rotating shaft 78 and a thirteenth rotating shaft 79 rotating in the collection slider 23 are respectively disposed in the slider inner groove 24, the first collection rotating wheel 26 and the second collection rotating wheel 27 are respectively disposed on the twelfth rotating shaft 78 and the thirteenth rotating shaft 79, one end of the twelfth rotating shaft 78 and one end of the thirteenth rotating shaft 79 are respectively disposed with a second gear 81 correspondingly engaged and connected, the other end of the thirteenth rotating shaft 79 is further disposed with a second pair of joints 80 disposed in a square shape, a sliding collection slider 23 is disposed in the third groove 16, the third groove 16 is disposed in a concave shape, the collecting slide block 23 can slide in the third groove 16, a slide block inner groove 24 is arranged on the collecting slide block 23, a wire inlet 25 correspondingly communicated with the slide block inner groove 24 is arranged on the collecting slide block 23, the wire inlet 25 correspondingly communicated with the fourth inner cylinder 15, a twelfth rotating shaft 78 and a thirteenth rotating shaft 79 are respectively arranged in the slide block inner groove 24, the first collecting rotating wheel 26 and the second collecting rotating wheel 27 are respectively arranged on the twelfth rotating shaft 78 and the thirteenth rotating shaft 79, a second gear 81 correspondingly engaged and connected is respectively arranged on the twelfth rotating shaft 78 and the thirteenth rotating shaft 79, so that the first collecting rotating wheel 26 and the second collecting rotating wheel 27 can further rotate correspondingly through the corresponding engagement and connection of the second gear 81, after the communication cable utilizes cutting runner 22 to cut, thereby can be established insulating crust and the copper body on the communication cable respectively first collection runner 26 with on the runner 27 is collected to the second, thereby can first collection runner 26 with runner 27 pivoted in-process can further carry out synchronous recovery with insulating crust and the copper body on the communication cable to can further avoid the environmental pollution that traditional combustion method caused, and also can further improve the results efficiency of communication cable the other end of thirteenth pivot 79 is connected with a second butt joint 80 that is square setting.
A first bevel gear 31 is further connected to the main rotating shaft 30, a fourth rotating shaft 39 rotating is further arranged in the machine body 1, one end of the fourth rotating shaft 39 is connected with a sixth bevel gear 36 correspondingly engaged with the first bevel gear 31, the other end of the fourth rotating shaft 39 is connected with a ninth bevel gear 42, a seventh rotating shaft 45 rotating in the third groove 16 is further arranged in the machine body 1, one end of the seventh rotating shaft 45 is connected with a twelfth bevel gear 50 correspondingly engaged with the ninth bevel gear 42, the other end of the seventh rotating shaft 45 is connected with a second clamping connector 47 rotating in the third groove 16, the second clamping connector 47 is correspondingly connected with the second pair of connectors 80, the main rotating shaft 30 is further connected with the first bevel gear 31, and a fourth rotating shaft 39 is arranged in the machine body 1, a sixth bevel gear 36 correspondingly connected to the first bevel gear 31 is connected to one end of the fourth rotating shaft 39, so that the fourth rotating shaft 39 can be further driven to rotate during the rotation of the main rotating shaft 30, a ninth bevel gear 42 is connected to the other end of the fourth rotating shaft 39, a seventh rotating shaft 45 rotating is further disposed in the machine body 1, a twelfth bevel gear 50 correspondingly engaged with the ninth bevel gear 42 is connected to one end of the seventh rotating shaft 45, so that the seventh rotating shaft 45 can be further driven to rotate, a second clamping joint 47 is connected to the other end of the seventh rotating shaft 45, the second clamping joint 47 can rotate in the third groove 16, the second clamping joint 47 is correspondingly connected to the second pair of joints 80, so that the collecting slider 23 can slide in the third groove 16, the second butt joint 80 and the second butt joint 47 can be further clamped correspondingly, so that the first collecting rotating wheel 26 and the second collecting rotating wheel 27 can be further driven to rotate correspondingly, the collecting sliding block 23 can slide in the third groove 16, and the first collecting rotating wheel 26 and the second collecting rotating wheel 27 can be further replaced.
As shown in fig. 2 and 10, a square-shaped engaging groove 51 is respectively disposed on the first engaging head 46 and the second engaging head 47, an opening corresponding to the first engaging head 77 and the second engaging head 80 is disposed on the engaging groove 51, a square-shaped engaging groove 51 is respectively disposed on the first engaging head 46 and the second engaging head 47, so that after the first engaging head 77 and the second engaging head 80 are engaged with the engaging groove 51, the first engaging head 46 and the second engaging head 47 can further respectively drive the first engaging head 77 and the second engaging head 80 to rotate, and an opening is respectively disposed on the first engaging head 77 and the second engaging head 80, so that the distribution positioning board 18 and the collecting slider 23 can slide, the first and second snap connectors 46 and 47 can be further inserted into the openings of the first and second pairs of connectors 77 and 80, respectively, so that the first and second snap connectors 46 and 47 can be further connected to the first and second pairs of connectors 77 and 80, respectively.
As shown in fig. 3 and 9, a circle of sliding inner cylinders 88 corresponding to the wire dividing rotating wheels 21 are respectively disposed on two sides of the fourth inner cylinder 15, a sliding pressing block 71 is respectively disposed in each sliding inner cylinder 88, a second spring 82 for biasing the pressing block 71 is respectively disposed in each sliding inner cylinder 88, a fifth groove 83 is respectively disposed on each pressing block 71, a pressing block rotating shaft 84 connected to the pressing block 71 is respectively disposed in each fifth groove 83, a rotating pressing rotating wheel 85 is respectively disposed on each pressing block rotating shaft 84, a circle of sliding inner cylinders 88 is respectively disposed on two sides of the fourth inner cylinder 15, the sliding inner cylinders 88 are cylindrically disposed, a sliding pressing block 71 is respectively disposed in each sliding inner cylinder 88, a fifth concave groove 83 is respectively disposed on each pressing block 71, a pressing block rotating shaft 84 is respectively arranged in the fifth groove 83, a rotating pressing runner 85 is respectively arranged on the pressing block rotating shaft 84, and a second spring 82 is respectively arranged in the sliding inner cylinder 88, so that the pressing blocks 71 can be correspondingly pressed through the second springs 82, the pressing runners 85 can be further pressed on the branching runners 21, the branching runners 21 are formed by correspondingly splicing a plurality of pieces, the branching runners 21 can be further correspondingly pressed together under the elastic pressure of the second springs 82, the communication cables are prevented from slipping between the adjacent branching runners 21, and the normal cutting of the communication cables is ensured.
As shown in fig. 1, an end cover 63 corresponding to the fourth inner cylinder 15 is further disposed on the machine body 1, and an end cover 63 can be disposed on the machine body 1, so that the fourth inner cylinder 15 can be further opened through the end cover 63, and thus, the communication cable on the branching runner 21 can be further conveniently checked and set, and the normal cutting function of the cutting runner 22 can be ensured.
The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.