CN113299444A

CN113299444A - Data line material processing equipment

Info

Publication number: CN113299444A
Application number: CN202110684043.6A
Authority: CN
Inventors: 刘祥
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-21
Filing date: 2021-06-21
Publication date: 2021-08-24

Abstract

The invention discloses a data line material processing device, which comprises a device bracket, wherein two groups of linear electric cylinders which are symmetrically distributed are fixedly arranged on the inner wall of the device bracket, a multidirectional wire stripping mechanism and a peeling component are fixedly arranged in the middle of the top end of the device bracket, a first bracket is arranged between the two groups of linear electric cylinders in a sliding manner and close to one side of the multidirectional wire stripping mechanism, a preprocessing mechanism is fixedly arranged at the top end of the first bracket, a driving component is fixedly arranged at the lower end of one side of the preprocessing mechanism, and a second bracket is arranged between the two groups of linear electric cylinders in a sliding manner and close to one side of the peeling component. The subsequent multidirectional transverse cutting of the outer covers of a plurality of groups of waste data lines is facilitated.

Description

Data line material processing equipment

Technical Field

The invention relates to the technical field of data line material processing, in particular to data line material processing equipment.

Background

The data line is a line body for connecting hardware equipment such as a hard disk, an optical drive, a floppy drive, a card reader and the like and corresponding interfaces on a mainboard, and also comprises a data line which is used for charging or data transmission of digital products such as smart phones, computers and the like, wherein the data line mainly comprises an outer cover, a wire core and a plug, the wire core mainly comprises copper or aluminum, and some wire cores can be plated with tin or silver; in the selection of the plug, one end of the plug is a standard USB plug used on a computer, and the other end of the plug is selected according to requirements; the outer coating material comprises three materials, namely TPE (thermoplastic elastomer), PVC (polyvinyl chloride) and braided wire, and as digital products such as smart phones and computers are widely used, data wires are widely used, so that waste data wires are gradually increased, if the waste data wires are discarded at will, material resources are wasted, and the waste data wires are generally subjected to material recovery processing in order to reduce the waste of the material resources;

however, in the conventional data line material recycling and processing technology, most of single-group data lines are directly and manually peeled by using a peeling knife in sequence, so that an outer cover and a wire core are separated, a large amount of labor is required when the material recycling and processing of the multiple groups of data lines are carried out, the data lines are not well separated due to lack of pretreatment, and the material recycling and processing efficiency of waste data lines is seriously affected.

Disclosure of Invention

The present invention is directed to a data line material processing apparatus to solve the above problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a data line material processing equipment, includes the equipment support, the inner wall fixed mounting of equipment support has two sets of sharp electric jars that are the symmetric distribution, the top middle part fixed mounting of equipment support has multidirectional wire stripping mechanism and dials the skin subassembly, and is two sets of one side slip that is close to multidirectional wire stripping mechanism between the electric jar of straight line is equipped with first support, the top fixed mounting of first support has preprocessing mechanism, one side lower extreme fixed mounting that preprocessing mechanism has drive assembly, and is two sets of one side slip that is close to between the electric jar of straight line and dials the skin subassembly is equipped with the second support, the top fixed mounting of second support has the defeated mechanism of clamp.

Preferably, the multidirectional wire stripping mechanism comprises two symmetrically distributed special-shaped frames, the bottom ends of the two special-shaped frames and the middle part of the top end of the equipment support are fixedly installed, the top ends of the two special-shaped frames are fixedly provided with a wire stripping outer frame, a plurality of groups of threading grooves which are distributed equidistantly are arranged on the wire stripping outer frame, driving discs which are symmetrically distributed are rotationally clamped in the threading grooves, the middle parts of the two groups of driving discs are fixedly inserted with threading pipes, the through pipes are rotatably arranged in the corresponding threading grooves, the threading grooves extend from the opposite sides of the two groups of through pipes, the chain wheel sets are fixedly sleeved on the opposite sides of the two groups of through pipes, four groups of transverse cutting tool rests distributed in an annular array are arranged between the two groups of driving discs, four groups of inner contracting clamping plates distributed in an annular array are arranged between the two groups of driving discs, and the four groups of transverse cutting tool rests and the four groups of inner contracting clamping plates are distributed in a staggered mode.

Preferably, the opposite sides of the two groups of driving discs are provided with thread protrusions, the two sides of the transverse cutting tool rest and the inner contracting clamping plate are provided with thread grooves matched with the thread protrusions for use, and the thread protrusions are movably clamped in the thread grooves.

Preferably, the preprocessing mechanism comprises an L-shaped outer frame, a plurality of groups of L-shaped wire distributing grooves distributed equidistantly are formed in the L-shaped outer frame, two groups of wire distributing rollers distributed symmetrically are rotatably mounted on the outer side of each L-shaped wire distributing groove, a heating sleeve is fixedly clamped in the middle of each L-shaped wire distributing groove, semicircular clamping frames distributed symmetrically are slidably clamped at the bottom of each L-shaped wire distributing groove, double-headed screws are inserted between the plurality of groups of semicircular clamping frames corresponding horizontally in a threaded manner and rotatably mounted in the L-shaped outer frame, one sides of the two groups of double-headed screws extend out of one side of the L-shaped outer frame and are fixedly sleeved with a first belt pulley group, two groups of cutting knives distributed symmetrically are fixedly mounted on the inner walls of the two groups of semicircular clamping frames, two groups of driving transverse rods distributed symmetrically are rotatably mounted in the middle of the L-shaped outer frame, and the driving transverse rods are fixedly connected with the plurality of wire distributing rollers corresponding horizontally, and one side of each group of driving cross rods, which extends out of one side of the L-shaped outer frame, is fixedly provided with driving gears which are mutually meshed and connected.

Preferably, drive assembly includes driving motor and annular frame, driving motor fixed mounting is at one side lower extreme of L type frame, annular frame sliding connection is at one side lower extreme of L type frame, driving motor's output fixed mounting has the drive bevel gear, the interior upper wall and the interior lower wall fixedly connected with drive rack of annular frame, the drive bevel gear is connected with one of them a set of drive rack meshing, one side fixed mounting of annular frame has the drive pinion rack, the lower extreme meshing of drive pinion rack is connected with reciprocating gear, the fixed cover of reciprocating gear is in one of them one side of a set of double-end screw, the fixed cover of drive bevel gear and one of them between a set of drive horizontal pole is equipped with the second pulley group.

Preferably, press from both sides defeated mechanism and include chassis and roof-rack, the bottom of chassis and the top fixed mounting of second support, the top middle part fixing clip of roof-rack is equipped with two sets of electric telescopic handle that are the symmetric distribution, electric telescopic handle's output passes the bottom of roof-rack and with the top fixed connection of chassis, the equal fixing clip in opposite side of chassis and roof-rack is equipped with the multiunit semicircle that is the equidistance and distributes and glues the frame.

Preferably, the guide rods are fixedly mounted on two sides of the top end of the bottom frame and are respectively clamped on two sides of the bottom end of the top frame in a sliding mode.

Preferably, dial the skin subassembly and include U type support, U type support fixed mounting is at the top middle part of equipment support, the inner wall upper portion slide card of U type support is equipped with dials the board, the top middle part fixed mounting of U type support has electric lift rod, electric lift rod's output pass U type support and with dial the top middle part fixed connection of board.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural connection diagram of the multi-directional wire stripping mechanism of the present invention;

FIG. 3 is a schematic view of a connection of a portion of the multi-directional wire stripping mechanism of the present invention;

FIG. 4 is a schematic view of the structural connection of the preprocessing mechanism of the present invention;

FIG. 5 is an enlarged view taken at A of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic view of the structural connection between the pre-processing mechanism and the driving assembly of the present invention;

FIG. 7 is an enlarged view taken at B of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of the structural connection between the gripping mechanism and the peeling assembly of the present invention.

In the figure: 1. an equipment support; 2. a linear electric cylinder; 3. a multidirectional wire stripping mechanism; 4. a first bracket; 5. a preprocessing mechanism; 6. a second bracket; 7. a clamping and conveying mechanism; 8. a peeling assembly; 9. a drive assembly; 31. a special-shaped frame; 32. stripping the wire to form an outer frame; 33. a drive disc; 331. a threaded boss; 34. pipe penetration; 35. a transverse cutting tool rest; 351. a threaded groove; 36. an inner contracting splint; 37. a sprocket set; 51. an L-shaped outer frame; 511. an L-shaped wire distributing groove; 52. a thread-thinning roller; 521. a drive rail; 522. a drive gear; 53. heating the sleeve; 54. a semicircular clamping frame; 541. a cutting knife; 542. a double-ended screw; 543. a first pulley set; 71. a chassis; 711. a guide bar; 72. a top frame; 73. an electric telescopic rod; 74. a semicircular rubber frame; 81. a U-shaped bracket; 82. dialing a plate; 83. an electric lifting rod; 91. a drive motor; 92. an annular frame; 921. the bevel gear is driven; 93. a driving toothed plate; 931. a reciprocating gear; 94. a second pulley set.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a data line material processing equipment, including equipment support 1, equipment support 1's inner wall fixed mounting has two sets of sharp electric jars 2 that are the symmetric distribution, equipment support 1's top middle part fixed mounting has multidirectional wire stripping mechanism 3 and dials skin subassembly 8, one side slip that is close to multidirectional wire stripping mechanism 3 between two sets of sharp electric jars 2 is equipped with first support 4, through two sets of sharp electric jars 2 of synchronous start, can drive first support 4 and carry out horizontal migration, the top fixed mounting of first support 4 has preprocessing mechanism 5, one side lower extreme fixed mounting of preprocessing mechanism 5 has drive assembly 9, one side slip that is close to between two sets of sharp electric jars 2 and dials skin subassembly 8 is equipped with second support 6, through two sets of sharp electric jars 2 of synchronous start, can drive second support 6 and carry out horizontal migration, the top fixed mounting of second support 6 has the defeated mechanism 7 of clamp.

The multidirectional wire stripping mechanism 3 comprises a special-shaped frame 31, two groups of the special-shaped frame 31 are symmetrically distributed, the bottom ends of the two groups of the special-shaped frames 31 and the middle part of the top end of the equipment support 1 are fixedly installed, wire stripping outer frames 32 are fixedly installed at the top ends of the two groups of the special-shaped frames 31, a plurality of groups of wire threading grooves which are equidistantly distributed are arranged on the wire stripping outer frames 32 and are used for threading waste data wires, driving discs 33 which are symmetrically distributed are rotatably clamped in the wire threading grooves, penetrating pipes 34 are fixedly inserted in the middle parts of the two groups of the driving discs 33, the penetrating pipes 34 are rotatably installed in the corresponding wire threading grooves, the driving discs 33 and the penetrating pipes 34 can rotate in the wire threading grooves, wherein the penetrating pipes 34 are used for threading the waste data wires, the wire threading grooves extend out of the opposite sides of the two groups of the penetrating pipes 34 and are fixedly sleeved with chain wheel groups 37, one side of chains in the two groups of the chain wheel groups 37 are meshed with coaxial gears, and the gears are driven to rotate clockwise and anticlockwise by using an external driving mechanism, the chain wheel sets 37 on two sides can be synchronously driven to transmit, so that a plurality of groups of driving disks 33 and the through pipe 34 are synchronously driven to rotate clockwise and anticlockwise in the wire threading groove, four groups of transverse cutting tool holders 35 distributed in an annular array are arranged between two groups of driving disks 33, four groups of internal contraction clamping plates 36 distributed in an annular array are arranged between two groups of driving disks 33, the opposite ends of the groups of internal contraction clamping plates 36 are respectively and rotatably provided with a roller, the four groups of transverse cutting tool holders 35 and the four groups of internal contraction clamping plates 36 are distributed in a staggered manner, and the transverse cutting tool holders 35 and the internal contraction clamping plates 36 are respectively and slidably clamped in the wire stripping outer frame 32; the opposite sides of two sets of driving-discs 33 all are equipped with screw thread protrusion 331, the both sides of horizontal cutter frame 35 and the splint 36 that contracts in all offer the screw thread recess 351 that uses with screw thread protrusion 331 cooperation, and screw thread protrusion 331 activity joint is in screw thread recess 351, carry out the same direction as contrarotation in the threading groove through driving multiunit driving-disc 33, thereby drive horizontal cutter frame 35 and the splint 36 that contracts in step or expand outward, thereby carry out the roll formula centre gripping to the old and useless data line that is located the threading groove, stability when increasing the old and useless data line and leading, and carry out multidirectional horizontal cutting to the outer cover of old and useless data line of defeated guide in-process through four groups of horizontal cutter frame 35, realize the separation of outer cover and sinle silk, the material processing recycle of the old and useless data line of being convenient for.

The preprocessing mechanism 5 comprises an L-shaped outer frame 51, a plurality of sets of L-shaped thinning grooves 511 distributed at equal intervals are arranged in the L-shaped outer frame 51, two sets of thinning rollers 52 distributed symmetrically are rotatably mounted on the outer sides of the L-shaped thinning grooves 511, wherein paired thinning rollers 52 are distributed on the outer sides of the L-shaped thinning grooves 511 at equal intervals to facilitate the transmission and the conduction of waste data wires in the L-shaped thinning grooves 511, heating sleeves 53 are fixedly clamped in the middle of the L-shaped thinning grooves 511, the waste data wires are continuously heated in the transmission and the conduction process to facilitate the multidirectional cutting of the waste data wire coatings, semicircular clamping frames 54 distributed symmetrically are slidably clamped at the bottoms of the L-shaped thinning grooves 511, double-threaded screws 542 are inserted between the plurality of sets of semicircular clamping frames 54 corresponding horizontally in a threaded manner, wherein the double-threaded screws 542 positioned at the two sets of semicircular clamping frames 54 distributed symmetrically are provided with symmetrical threaded grooves, the double-head screws 542 are rotatably installed in the L-shaped outer frame 51, one side of each of the two groups of double-head screws 542 extends out of one side of the L-shaped outer frame 51 and is fixedly sleeved with a first belt pulley group 543, one group of double-head screws 542 is driven to synchronously rotate in the same direction, so that a plurality of pairs of symmetrically distributed semicircular clamping frames 54 are synchronously driven to move in the opposite direction or in the back direction, two groups of symmetrically distributed cutting knives 541 are fixedly installed on the inner walls of the two groups of semicircular clamping frames 54, the plurality of pairs of symmetrically distributed semicircular clamping frames 54 move in the opposite direction or in the back direction, the two corresponding groups of cutting knives 541 are driven to move in the opposite direction or in the back direction and segment-cut the waste data line outer cover, so as to facilitate the multi-direction transverse cutting of the subsequent waste data line outer cover, two groups of symmetrically distributed driving cross bars 521 are rotatably installed in the middle of the L-shaped outer frame 51, and the driving cross bars 521 are fixedly connected with a plurality of horizontally corresponding sparse line rollers 52, one side of the two groups of driving cross rods 521 extending out of the L-shaped outer frame 51 is fixedly provided with driving gears 522 which are meshed with each other, and the two groups of driving cross rods 521 are driven to synchronously and reversely rotate by driving one group of driving cross rods 521, so that a plurality of pairs of symmetrically distributed thinning rollers 52 are driven to synchronously and reversely rotate, and the stable driving of the waste data lines in the L-shaped thinning groove 511 is facilitated.

The driving assembly 9 comprises a driving motor 91 and an annular frame 92, the driving motor 91 is fixedly installed at the lower end of one side of the L-shaped outer frame 51, the annular frame 92 is slidably connected at the lower end of one side of the L-shaped outer frame 51, a driving bevel 921 is fixedly installed at the output end of the driving motor 91, driving racks are fixedly connected to the inner upper wall and the inner lower wall of the annular frame 92, the driving bevel 921 is engaged with one group of the driving racks, the driving bevel 921 is driven to rotate slowly by starting the driving motor 91, the annular frame 92 is driven to horizontally reciprocate at the lower end of one side of the L-shaped outer frame 51, a driving toothed plate 93 is fixedly installed at one side of the annular frame 92, a reciprocating gear 931 is engaged with the lower end of the driving toothed plate 93, the reciprocating gear 931 is fixedly sleeved at one side of one group of the double-headed screw 542, and horizontally reciprocates at the lower end of one side of the L-shaped outer frame 51 through the annular frame 92, the driving toothed plate 93 is driven to horizontally reciprocate, so that one group of double-head screws 542 is driven to rotate in a reciprocating mode within a certain range, a second belt pulley group 94 is fixedly sleeved between the driving bevel teeth 921 and one group of driving cross rods 521, and the one group of driving cross rods 521 is driven to stably rotate through the rotation of the driving bevel teeth 921.

The clamping and conveying mechanism 7 comprises an underframe 71 and an upper frame 72, the bottom end of the underframe 71 and the top end of the second support 6 are fixedly installed, two groups of electric telescopic rods 73 which are symmetrically distributed are fixedly clamped in the middle of the top end of the upper frame 72, the output ends of the electric telescopic rods 73 penetrate through the bottom end of the upper frame 72 and are fixedly connected with the top end of the underframe 71, multiple groups of semicircular rubber frames 74 which are distributed equidistantly are fixedly clamped on the opposite sides of the underframe 71 and the upper frame 72, and the upper frame 72 is driven to lift by starting the two groups of electric telescopic rods 73, so that waste data lines can be clamped and fixed through the multiple groups of semicircular rubber frames 74; the equal fixed mounting in top both sides of chassis 71 has guide bar 711, and guide bar 711 slides the joint respectively in the bottom both sides of roof-rack 72, has effectively increased the stability that roof-rack 72 goes up and down.

Dial skin subassembly 8 and include U type support 81, U type support 81 fixed mounting is in the top middle part of equipment support 1, the inner wall upper portion slide card of U type support 81 is equipped with dials board 82, the top middle part fixed mounting of U type support 81 has electric lift rod 83, electric lift rod 83's output pass U type support 81 and with dial the top middle part fixed connection of board 82, start electric lift rod 83 drive and dial board 82 and reciprocate, through dialling board 82 and cutting back old and useless data line and contact, and through the defeated of old and useless data line leading, dial off-line core with the outer cover after the cutting, effectively realize the separation of old and useless data line outer cover and sinle silk, be convenient for the processing recycle of material in the old and useless data line.

When the data line material processing equipment is used, the preprocessing mechanism 5 and the clamping and conveying mechanism 7 are close to the multidirectional line stripping mechanism 3 by using two groups of linear electric cylinders 2, then, a plurality of groups of waste data lines sequentially pass through the corresponding L-shaped line thinning grooves 511 and the corresponding line threading grooves, and the tail ends of the waste data lines are arranged on the corresponding semicircular rubber frames 74. Two sets of electric telescopic handle 73 are started, the top frame 72 is driven to stably lift, and the corresponding waste data lines are clamped and fixed through the plurality of sets of semicircular rubber frames 74.

Subsequently, slowly to keeping away from one side removal of multidirectional mechanism of peeling off line 3 and pressing from both sides defeated mechanism 7, drive multiunit old and useless data line and carry out slow pulling defeated guide, defeated in-process of leading, synchronous start driving motor 91 slowly rotates, thereby it rotates to drive bevel gear 921, and then drive annular frame 92 at one side lower extreme horizontal reciprocating motion of L type frame 51, thereby drive pinion rack 93 carries out horizontal reciprocating motion, and then drive wherein a set of double-end screw 542 and carry out reciprocating motion in the certain limit, and one of them set of drive horizontal pole 521 of synchronous drive carries out stable rotation.

By driving one of the driving beams 521, the two driving beams 521 are driven to synchronously rotate in opposite directions, thereby driving a plurality of pairs of the symmetrically distributed sparse line rollers 52 to synchronously and reversely rotate, facilitating the stable driving of the transmission and the guidance of the waste data lines in the L-shaped sparse line groove 511, and drives the two sets of double-threaded screws 542 to synchronously rotate in the same direction by driving one set of double-threaded screws 542, thereby synchronously driving a plurality of pairs of symmetrically distributed semicircular clamping frames 54 to move in the opposite direction or the back direction, driving two corresponding groups of cutting knives 541 to move in the opposite direction or the back direction and cutting the waste data line outer covers in a segmented manner, therefore, the waste data line outer cover is segmented and cut in the waste data line transmission and guide process, and the waste data line outer cover is continuously heated in the waste data line transmission and guide process by using the heating sleeve 53, so that the subsequent multi-directional transverse cutting of the waste data line outer cover is facilitated.

The waste data lines after segmented cutting sequentially enter the multidirectional wire stripping mechanism 3, at the moment, an external driving mechanism is used for driving gears to rotate clockwise and anticlockwise, chain wheel sets 37 on two sides can be synchronously driven to transmit, so that a plurality of groups of driving disks 33 and a through pipe 34 are synchronously driven to rotate clockwise and anticlockwise in a wire passing groove, the plurality of groups of driving disks 33 are driven to rotate clockwise and anticlockwise in the wire passing groove, corresponding transverse cutter frames 35 and corresponding inner contraction clamping plates 36 are driven to contract synchronously or expand outwards, the waste data lines in the wire passing groove are clamped in a rolling mode, the stability of waste data line guiding is improved, and the waste data line outer cover in the guiding process is cut in a multidirectional transverse mode through four transverse cutter frames 35.

Then, the electric lifting rod 83 is started to drive the shifting plate 82 to move up and down, the shifting plate 82 is contacted with the cut waste data line, the cut outer wrapping is separated from the wire core through the transmission and the guide of the waste data line, the separation of the outer wrapping and the wire core of the waste data line is effectively realized, the processing and the recycling of materials in the waste data line are facilitated, and the recycling efficiency of the materials of the waste data line is effectively improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a data line material processing equipment, includes equipment support (1), its characterized in that: the inner wall fixed mounting of equipment support (1) has two sets of sharp electric jar (2) that are the symmetric distribution, the top middle part fixed mounting of equipment support (1) has multidirectional wire stripping mechanism (3) and dials skin subassembly (8), and is two sets of be close to the one side slip of multidirectional wire stripping mechanism (3) between the electric jar (2) of straight line and be equipped with first support (4), the top fixed mounting of first support (4) has preprocessing mechanism (5), one side lower extreme fixed mounting of preprocessing mechanism (5) has drive assembly (9), and is two sets of be close to the one side slip of dialling skin subassembly (8) between the electric jar (2) of straight line and be equipped with second support (6), the top fixed mounting of second support (6) has clamp defeated mechanism (7).

2. The data line material processing apparatus of claim 1, wherein: the multidirectional wire stripping mechanism (3) comprises a special-shaped frame (31), two groups of the special-shaped frame (31) are symmetrically distributed, the bottom ends of the two groups of the special-shaped frame (31) and the middle part of the top end of the equipment support (1) are fixedly installed, a wire stripping outer frame (32) is fixedly installed at the top ends of the two groups of the special-shaped frame (31), a plurality of groups of wire threading grooves which are equidistantly distributed are arranged on the wire stripping outer frame (32), driving discs (33) which are symmetrically distributed are rotatably clamped in the wire threading grooves, penetrating pipes (34) are fixedly inserted in the middle parts of the two groups of the driving discs (33), the penetrating pipes (34) are rotatably installed in the corresponding wire threading grooves, wire threading grooves are respectively extended from the opposite sides of the two groups of the penetrating pipes (34) and fixedly sleeved with chain wheel groups (37), four groups of transverse cutting knife rests (35) which are distributed in an annular array are arranged between the two groups of the driving discs (33), and four groups of inner contracting splints (36) which are distributed in an annular array are arranged between the two groups of the driving discs (33), the four groups of the transverse cutting tool holders (35) and the four groups of the inward-contracting clamping plates (36) are distributed in a staggered manner.

3. The data line material processing apparatus of claim 2, wherein: the opposite sides of the two groups of driving discs (33) are respectively provided with a threaded protrusion (331), the two sides of the transverse cutting tool rest (35) and the inner contracting clamping plate (36) are respectively provided with a threaded groove (351) matched with the threaded protrusion (331) for use, and the threaded protrusion (331) is movably clamped in the threaded groove (351).

4. The data line material processing apparatus of claim 1, wherein: the preprocessing mechanism (5) comprises an L-shaped outer frame (51), a plurality of groups of L-shaped wire distributing grooves (511) distributed equidistantly are formed in the L-shaped outer frame (51), two groups of wire distributing rollers (52) distributed symmetrically are installed on the outer side of each L-shaped wire distributing groove (511) in a rotating mode, heating sleeves (53) are fixedly clamped in the middle of each L-shaped wire distributing groove (511), semicircular clamping frames (54) distributed symmetrically are arranged on the bottom of each L-shaped wire distributing groove (511) in a sliding clamping mode, double-threaded screws (542) are inserted between the corresponding groups of semicircular clamping frames (54) in a threaded mode, the double-threaded screws (542) are rotatably installed in the L-shaped outer frame (51), one sides of the two groups of double-threaded screws (542) extend out of one side of the L-shaped outer frame (51) and are fixedly sleeved with first belt pulley groups (543), two groups of semicircular clamping frames (54) are fixedly installed on the inner walls of the two groups of semicircular clamping frames (541) in a symmetrical mode, two sets of drive horizontal pole (521) that are the symmetric distribution are installed in the rotation of the middle part of L type frame (51), drive horizontal pole (521) and the multiunit that the level corresponds sparse line gyro wheel (52) fixed connection, two sets of one side that L type frame (51) was extended to one side of drive horizontal pole (521) is fixed mounting has drive gear (522) that intermeshing connects.

5. The data line material processing apparatus of claim 4, wherein: the drive assembly (9) comprises a drive motor (91) and an annular frame (92), the driving motor (91) is fixedly arranged at the lower end of one side of the L-shaped outer frame (51), the annular frame (92) is connected to the lower end of one side of the L-shaped outer frame (51) in a sliding manner, the output end of the driving motor (91) is fixedly provided with a driving bevel gear (921), the inner upper wall and the inner lower wall of the annular frame (92) are fixedly connected with driving racks, the driving bevel gears (921) are meshed and connected with one group of the driving racks, a driving toothed plate (93) is fixedly arranged on one side of the annular frame (92), the lower end of the driving toothed plate (93) is connected with a reciprocating gear (931) in a meshing manner, the reciprocating gear (931) is fixedly sleeved on one side of one group of double-head screws (542), a second pulley group (94) is fixedly sleeved between the driving bevel gear (921) and one group of the driving cross rod (521).

6. The data line material processing apparatus of claim 1, wherein: the clamp conveying mechanism (7) comprises a bottom frame (71) and a top frame (72), the bottom end of the bottom frame (71) and the top end of a second support (6) are fixedly installed, two sets of electric telescopic rods (73) which are symmetrically distributed are arranged on a fixing clamp at the middle of the top end of the top frame (72), the output ends of the electric telescopic rods (73) penetrate through the bottom end of the top frame (72) and are fixedly connected with the top end of the bottom frame (71), and multiple sets of semicircular rubber frames (74) which are equidistantly distributed are arranged on fixing clamps on the opposite sides of the bottom frame (71) and the top frame (72).

7. The data line material processing apparatus of claim 6, wherein: guide rods (711) are fixedly mounted on two sides of the top end of the bottom frame (71), and the guide rods (711) are respectively connected to two sides of the bottom end of the top frame (72) in a sliding and clamping mode.

8. The data line material processing apparatus of claim 1, wherein: dial skin subassembly (8) including U type support (81), U type support (81) fixed mounting is in the top middle part of equipment support (1), the inner wall upper portion slide card of U type support (81) is equipped with dials board (82), the top middle part fixed mounting of U type support (81) has electric lift pole (83), the output of electric lift pole (83) passes U type support (81) and dials the top middle part fixed connection of board (82).