CN112623337A

CN112623337A - Binding apparatus is used in cable processing

Info

Publication number: CN112623337A
Application number: CN202011519710.7A
Authority: CN
Inventors: 朱昀
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-04-09

Abstract

The invention discloses a bundling device for cable processing, which belongs to the technical field of cable processing and comprises a workbench, a conveying device, a cutting device, a winding device, a blocking device, a bundling device, a blanking device and a blanking box, wherein the conveying device is arranged on the workbench, the cutting device is arranged on the workbench and positioned beside the conveying device, the winding device is arranged on the workbench and positioned beside the cutting device, the blocking device is arranged on the winding device, the bundling device is arranged beside the workbench, the blanking box is arranged beside the workbench, and the blanking box is arranged between the blanking device and the workbench. The invention provides a bundling device for cable processing, which is used for blocking cables, conveniently bundling and blanking the cables, and simultaneously conveying the cables with different specifications before the work is started, so that the bundling efficiency of the device is improved.

Description

Binding apparatus is used in cable processing

Technical Field

The invention relates to the technical field of cable processing, in particular to a bundling device for cable processing.

Background

The cable includes power cable, control cable, compensation cable, shielding cable, high-temperature cable, computer cable, signal cable, coaxial cable, fire-resistant cable, marine cable, mining cable, aluminum alloy cable and the like. They are composed of single or multi-strand wires and insulating layers, and are used for connecting circuits, electric appliances and the like.

The invention discloses a bundling device for processing a cable wrapping tape, which is disclosed as CN109215886, and relates to the technical field of production and processing of wrapping tapes. The invention solves the problems that the joint part of the existing wrapping tape is mostly stuck by the adhesive tape, and the wrapping tape is still scattered when the wrapping tape is severely shaken and contacts with water.

The invention does not block the cable, cannot conveniently bundle and discharge the cable, is difficult to take out the cable coil, cannot convey cables with different specifications before work starts, and has low bundling efficiency.

Disclosure of Invention

The invention aims to provide a bundling device for cable processing, which aims to solve the technical problem.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a binding apparatus for cable processing, includes workstation, conveyor, tailors device, coiling mechanism, arresting gear, binding apparatus, unloading frame, unloader and unloading case down, conveyor sets up on the workstation, tailor the device setting and just be located conveyor's side on the workstation, the coiling mechanism sets up on the workstation and is located the side of tailorring the device, arresting gear sets up on the coiling mechanism, binding apparatus sets up the side at the workstation, unloader sets up the side at the workstation, the unloading frame sets up the side at the workstation, the unloading case sets up between unloader and workstation.

Further, conveyor includes carriage, conveying motor, carries bracing piece, conveying spring, carries gag lever post, two transport blocks and two delivery wheels, the carriage sets up at the top of workstation, two the transport block slides and sets up in the carriage, two the delivery wheel rotates respectively and sets up on two transport blocks, two all be equipped with the bearing groove on the delivery wheel, carry the bracing piece setting between two transport blocks, carry the gag lever post setting and be located two transport block tops on the carriage, carry the spring housing and establish on carrying the gag lever post, conveying motor sets up on the carriage and conveying motor's main shaft is connected on one of them delivery wheel.

Further, tailor the device including tailor the frame, tailor the cutter, tailor the bottom knife, tailor dwang, supporting spring, tailor the bracing piece, promote the electric jar, tailor catch plate and two bearing spring, tailor the frame setting on the workstation, tailor and go up the cutter slip setting on tailoring the frame, tailor the bottom knife setting on tailoring the frame, two bearing spring sets up and tailors the cutter and tailor between the frame, tailor the bracing piece setting at the side of tailorring the frame, tailor the dwang cover and establish and tailor the dwang and tailor bracing piece sliding fit on tailoring the bracing piece, supporting spring sets up and tailors between the bracing piece at tailoring the dwang, promote the electric jar setting on tailoring the frame, tailor the catch plate setting and serve in the flexible of promoting the electric jar.

Further, the winding device comprises a winding wheel, a winding frame and a winding motor, the winding frame is arranged on the workbench, the winding wheel is rotatably arranged on the winding frame, the winding motor is arranged on the winding frame, and a main shaft of the winding motor penetrates through the winding frame and is connected to the winding wheel.

Furthermore, the blocking device comprises a blocking framework, two sliding rings, four blocking connecting rods, four blocking supporting rods and four blocking arc plates, the blocking framework is arranged beside the winding wheel, the two sliding rings are sleeved on the blocking framework in a sliding mode, the four blocking arc plates are hinged to the winding wheel, one ends of the four blocking connecting rods are hinged to the four blocking arc plates respectively, the other ends of the four blocking connecting rods are hinged to one of the sliding rings, one ends of the four blocking supporting rods are hinged to the four blocking connecting rods respectively, and the other ends of the four blocking supporting rods are hinged to the other sliding ring.

Furthermore, the bundling device comprises a bundling frame, a telescopic electric cylinder, a bundling hinge rod, a bundling arc rod, a bundling support plate, a bundling ring, a bundling rotating wheel, a bundling motor, two bundling electric cylinders and two bundling blocks, wherein the bundling frame is arranged beside the winding wheel, the bundling frame is also provided with a bundling groove plate, the telescopic electric cylinder is arranged on the bundling frame, one end of the bundling hinge rod is hinged on the telescopic end of the telescopic electric cylinder, the bundling arc rod is hinged on the bundling frame, one end of the bundling arc rod is hinged on the other end of the bundling hinge rod, the bundling support plate is arranged on the bundling frame, the bundling ring is rotatably arranged on the bundling support plate, the bundling motor is arranged on the bundling support plate, a main shaft of the bundling motor penetrates through the bundling support plate, the bundling motor is meshed with the bundling ring, the two bundling electric cylinders are symmetrically arranged on the bundling ring, the two bundling blocks are respectively arranged at the telescopic ends of the two bundling electric cylinders.

Further, unloader includes two unloading electricity jars and two unloading subassemblies, two the unloading electricity jar all sets up on the work or material rest, two the unloading subassembly sets up respectively on the flexible end of two unloading electricity jars, two the unloading subassembly all includes removal electricity jar, unloading seat, unloading piece, two unloading folded plates and unloading connecting rod, it sets up on the flexible end of unloading electricity jar to remove the electricity jar, the unloading seat sets up on the flexible end of unloading electricity jar, two one end of unloading folded plate articulates on the unloading seat, the unloading piece sets up on the flexible end of removal electricity jar, two the one end of unloading connecting rod all articulates on the unloading piece and the other end of two unloading connecting rods articulates on two unloading folded plates.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when a cable enters a bearing groove between two conveying wheels, a conveying motor starts to operate to drive one conveying wheel to rotate, the two conveying wheels drive the cable to move, and when the diameter of the cable changes, the cable pushes the upper conveying wheel and the upper conveying block to move on a conveying frame to push the conveying spring to retract, meanwhile, the conveying spring generates elasticity to compress and convey the cable through extruding the conveying wheels, so that the phenomenon that the conveying wheels cannot convey the cable due to the fact that the cable slides due to different diameters is prevented, and the bundling efficiency of the device is improved.

Secondly, when the cable winder is used for winding, the two sliding rings are pushed to move to drive the four blocking support rods to move so as to drive the four blocking connecting rods to move, the four blocking connecting rods move to start to push the four blocking arc plates to move on the winding wheel, the winding wheel is closed, when the cable winder is used for blanking, the two sliding rings return to the original positions, the four blocking support rods drive the four blocking connecting rods to move so as to drive the four blocking arc plates to rotate on the winding wheel, the winding wheel is opened, the cable can be wound and blanked conveniently, the cable can be blocked, the cable can be blanked when the cable winder is used for blanking, and the efficiency of the cable winder is improved.

Thirdly, when the cable is bundled, the bundling wire is placed on the bundling groove plate, the telescopic electric cylinders start to operate to drive the bundling hinge rod to move, the bundling hinge rod drives the bundling arc rod to rotate on the bundling frame to drive the bundling wire to be arranged around the cable, then the two bundling electric cylinders start to operate to drive the bundling block to combine two ends of the bundling wire, then the bundling motor starts to operate to drive the bundling rotating wheel to rotate, the bundling rotating wheel rotates to drive the bundling ring to rotate, and the bundling ring drives the two bundling electric cylinders to rotate, so that the bundling wire is tightly bundled, the cable is prevented from loosening in the moving process, and the cable is bundled and tightly bundled.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic perspective view of the conveyor of the present invention;

FIG. 4 is a schematic perspective view of a cutting device according to the present invention;

FIG. 5 is a schematic perspective view of the stopping device of the present invention;

FIG. 6 is a perspective view of the strapping device of the present invention;

fig. 7 is a schematic perspective view of the blanking assembly of the present invention.

The reference numbers in the figures are:

a workbench 1, a conveying device 2, a cutting device 3, a winding device 4, a blocking device 5, a bundling device 6, a blanking frame 11, a blanking device 7, a blanking box 12, a conveying frame 21, a conveying motor 22, a conveying support rod 23, a conveying spring 24, a conveying limit rod 25, a conveying block 26, a conveying wheel 27, a cutting frame 31, a cutting upper cutter 32, a cutting lower cutter 33, a cutting rotating rod 34, a support spring 35, a cutting support rod 36, a pushing electric cylinder 37, a cutting pushing plate 38, a bearing spring 39, a winding wheel 41, a winding frame 42, a winding motor 43, a blocking framework 51, a sliding ring 52, a blocking connecting rod 53, a blocking support rod 54, a blocking arc plate 55, a bundling frame 61, a telescopic electric cylinder 62, a bundling hinge rod 63, a bundling arc rod 64, a bundling support plate 65, a bundling ring 66, a bundling rotating wheel 67, a bundling motor 68, a bundling electric cylinder 69, a bundling block 691, a binding slot plate 692, a blanking electric cylinder 71, a blanking assembly 72, a movable electric cylinder 73, a blanking seat 74, a blanking block 75, a blanking folded plate 76 and a blanking connecting rod 77.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 7, the invention provides a cable processing bundling device, which comprises a workbench 1, a conveying device 2, a cutting device 3, a winding device 4, a blocking device 5, a bundling device 6, a blanking frame 11, a blanking device 7 and a blanking box 12, wherein the conveying device 2 is arranged on the workbench 1, the cutting device 3 is arranged on the workbench 1 and located beside the conveying device 2, the winding device 4 is arranged on the workbench 1 and located beside the cutting device 3, the blocking device 5 is arranged on the winding device 4, the bundling device 6 is arranged beside the workbench 1, the blanking device 7 is arranged beside the workbench 1, the blanking frame 11 is arranged beside the workbench 1, and the blanking box 12 is arranged between the blanking device 7 and the workbench 1.

The conveying device 2 comprises a conveying frame 21, a conveying motor 22, a conveying support rod 23, a conveying spring 24, a conveying limiting rod 25, two conveying blocks 26 and two conveying wheels 27, wherein the conveying frame 21 is arranged at the top of the workbench 1, the two conveying blocks 26 are slidably arranged in the conveying frame 21, the two conveying wheels 27 are respectively rotatably arranged on the two conveying blocks 26, bearing grooves are formed in the two conveying wheels 27, the conveying support rod 23 is arranged between the two conveying blocks 26, the conveying limiting rod 25 is arranged on the conveying frame 21 and located above the two conveying blocks 26, the conveying spring 24 is sleeved on the conveying limiting rod 25, the conveying motor 22 is arranged on the conveying frame 21, and a main shaft of the conveying motor 22 is connected to one of the conveying wheels 27; when a cable enters a bearing groove between two conveying wheels 27, the conveying motor 22 starts to operate to drive one of the conveying wheels 27 to rotate, the two conveying wheels 27 rotate to drive the cable to move, and meanwhile, when the diameter of the cable changes, the cable pushes the upper conveying wheel 27 and the upper conveying block 26 to move on the conveying frame 21 to push the conveying spring 24 to retract, meanwhile, the conveying spring 24 generates elasticity to compress and convey the cable through extruding the conveying wheels 27, the situation that the conveying wheels 27 slide due to different diameters of the cable is prevented, the cable cannot be conveyed, and the bundling efficiency of the device is improved.

The cutting device 3 comprises a cutting frame 31, an upper cutting tool 32, a lower cutting tool 33, a rotating cutting rod 34, a supporting spring 35, a supporting cutting rod 36, an electric pushing cylinder 37, a pushing cutting plate 38 and two bearing springs 39, the cutting frame 31 is arranged on the workbench 1, the cutting upper cutter 32 is arranged on the cutting frame 31 in a sliding way, the lower cutting knife 33 is arranged on the cutting frame 31, two bearing springs 39 are arranged between the upper cutting knife 32 and the cutting frame 31, the cutting support rod 36 is arranged at the side of the cutting frame 31, the cutting rotating rod 34 is sleeved on the cutting support rod 36, the cutting rotating rod 34 is in sliding fit with the cutting support rod 36, the supporting spring 35 is arranged between the cutting rotating rod 34 and the cutting supporting rod 36, the electric pushing cylinder 37 is arranged on the cutting frame 31, and the cutting pushing plate 38 is arranged on the telescopic end of the electric pushing cylinder 37; when the cable needs to be cut, the cutting rotating rod 34 rotates and moves to the position above the cutting upper cutter 32, then the electric cylinder 37 is pushed to start to operate, the cutting pushing plate 38 is driven to move, the cutting pushing plate 38 moves to start to extrude and cut the cutting rotating rod 34 to move, the cutting rotating rod 34 retracts to extrude and cut the cutting upper cutter 32 to descend and retract the supporting spring 35, the cutting upper cutter 32 moves to drive the two bearing springs 39 to retract, then the cutting upper cutter 32 extrudes the cable through the cutting lower cutter 33 to cut, and after the cutting is finished, the cable returns to the original position through the two bearing springs 39 and the supporting spring 35 so as to cut the cable for the next time.

The winding device 4 comprises a winding wheel 41, a winding frame 42 and a winding motor 43, the winding frame 42 is arranged on the workbench 1, the winding wheel 41 is rotatably arranged on the winding frame 42, the winding motor 43 is arranged on the winding frame 42, and a main shaft of the winding motor 43 penetrates through the winding frame 42 and is connected to the winding wheel 41; when the cable is wound, the winding motor 43 starts to operate to rotate the winding wheel 41 on the winding frame 42, so that the cable is wound on the winding wheel 41 to be bundled by the bundling device 6.

The blocking device 5 comprises a blocking framework 51, two sliding rings 52, four blocking connecting rods 53, four blocking supporting rods 54 and four blocking arc plates 55, the blocking framework 51 is arranged at the side of the winding wheel 41, the two sliding rings 52 are slidably sleeved on the blocking framework 51, the four blocking arc plates 55 are hinged to the winding wheel 41, one ends of the four blocking connecting rods 53 are hinged to the four blocking arc plates 55 respectively, the other ends of the four blocking connecting rods 53 are hinged to one of the sliding rings 52, one ends of the four blocking supporting rods 54 are hinged to the four blocking connecting rods 53 respectively, and the other ends of the four blocking supporting rods 54 are hinged to the other sliding ring 52; during winding, the two sliding rings 52 are pushed to move to drive the four blocking support rods 54 to move so as to drive the four blocking connecting rods 53 to move, the four blocking connecting rods 53 move to start to push the four blocking arc plates 55 to move on the winding wheel 41 to seal the winding wheel 41, when discharging is performed, the two sliding rings 52 return to the original position, the four blocking support rods 54 drive the four blocking connecting rods 53 to move so as to drive the four blocking arc plates 55 to rotate on the winding wheel 41 to open the winding wheel 41, so that the cable can be wound and discharged conveniently, the cable can be blocked, and the cable can be discharged when discharging is performed, so that the efficiency of the device is improved.

The binding apparatus 6 includes a binding frame 61, a telescopic electric cylinder 62, a binding hinge rod 63, a binding arc rod 64, a binding support plate 65, a binding ring 66, a binding rotating wheel 67, a binding motor 68, two binding electric cylinders 69 and two binding blocks 691, the binding frame 61 is provided beside the winding wheel 41, the binding frame 61 is further provided with a binding slot 692, the telescopic electric cylinder 62 is provided on the binding frame 61, one end of the binding hinge rod 63 is hinged on the telescopic end of the telescopic electric cylinder 62, the binding arc rod 64 is hinged on the binding frame 61 and one end of the binding arc rod 64 is hinged on the other end of the binding hinge rod 63, the binding support plate 65 is provided on the binding frame 61, the binding ring 66 is rotatably provided on the binding support plate 65, the binding motor 68 is provided on the binding support plate 65 and the main shaft of the binding motor 68 penetrates through the binding support plate 65, the binding motor 68 is engaged with the binding ring 66, the two bundling electric cylinders 69 are symmetrically arranged on the bundling ring 66, and the two bundling blocks 691 are respectively arranged on the telescopic ends of the two bundling electric cylinders 69; when the cable is bound, the binding wire is placed on the binding groove plate 692, the telescopic electric cylinders 62 start to operate to drive the binding hinge rod 63 to move, the binding hinge rod 63 drives the binding arc rod 64 to rotate on the binding frame 61 to drive the binding wire to be arranged around the cable, then the two binding electric cylinders 69 start to operate to drive the binding blocks 691 to combine two ends of the binding wire, then the binding motor 68 starts to operate to drive the binding rotating wheel 67 to rotate, the binding rotating wheel 67 rotates to drive the binding ring 66 to rotate, and the binding ring 66 drives the two binding electric cylinders 69 to rotate, so that the binding wire is bound, the cable is prevented from loosening in the moving process, and the cable is bound and bound.

The blanking device 7 comprises two blanking electric cylinders 71 and two blanking assemblies 72, wherein the two blanking electric cylinders 71 are arranged on the blanking frame 11, the two blanking assemblies 72 are respectively arranged at the telescopic ends of the two blanking electric cylinders 71, each of the two blanking assemblies 72 comprises a movable electric cylinder 73, a blanking seat 74, a blanking block 75, two blanking folded plates 76 and a blanking connecting rod 77, the movable electric cylinder 73 is arranged at the telescopic end of the blanking electric cylinder 71, the blanking seat 74 is arranged at the telescopic end of the blanking electric cylinder 71, one ends of the two blanking folded plates 76 are hinged to the blanking seat 74, the blanking block 75 is arranged at the telescopic end of the movable electric cylinder 73, one ends of the two blanking connecting rods 77 are hinged to the blanking block 75, and the other ends of the two blanking connecting rods 77 are hinged to the two blanking folded plates 76; after the cables are bound, the winding wheel 41 is opened by the blocking arc plate 55, the two blanking electric cylinders 71 start to operate to drive the two movable electric cylinders 73 to move, then the two movable electric cylinders 73 start to move to drive the blanking block 75 to move, the blanking block 75 moves to drive the two blanking connecting rods 77 to move, the two blanking connecting rods 77 drive the two blanking folded plates 76 to compress and fix the cables, then the two blanking electric cylinders 71 retract to take out the cable coils, then the two movable electric cylinders 73 operate to drive the two blanking folded plates 76 to loosen the cable coils and fall into the blanking box 12.

The working principle of the invention is as follows: when the cable cutting device is used, when a cable enters a bearing groove between two conveying wheels 27, the conveying motor 22 starts to operate to drive one conveying wheel 27 to rotate, the two conveying wheels 27 rotate to drive the cable to move, meanwhile, when the diameter of the cable changes, the cable pushes against the upper conveying wheel 27 and the upper conveying block 26 to move on the conveying frame 21, the conveying spring 24 is pushed to retract, meanwhile, the conveying spring 24 generates elastic force to press and convey the cable through the extrusion conveying wheel 27, the situation that the conveying wheels 27 cannot convey the cable due to the fact that the cable slides due to different diameters is prevented, the bundling efficiency of the device is improved, when the cable needs to be cut, the cutting rotating rod 34 rotates and moves to the position above the cutting upper cutter 32, then the electric cylinder 37 is pushed to operate to drive the cutting pushing plate 38 to move, the cutting pushing plate 38 moves to extrude and move the cutting rotating rod 34, the cutting rotating rod 34 retracts to extrude the cutting upper cutter 32 to descend and the supporting springs 35 retract, the cutting upper cutter 32 moves to drive the two bearing springs 39 to retract, then the cutting upper cutter 32 performs cutting by extruding cables with the cutting lower cutter 33, after cutting is finished, the two bearing springs 39 and the supporting springs 35 return to the original positions so as to perform next cutting, when winding, the two sliding rings 52 are pushed to move, the four blocking supporting rods 54 are driven to move, the four blocking connecting rods 53 move, the four blocking arc plates 55 start to be pushed to move on the winding wheel 41 so as to seal the winding wheel 41, when blanking, the two sliding rings 52 return to the original positions, the four blocking supporting rods 54 drive the four blocking connecting rods 53 to move, the four blocking arc plates 55 are driven to rotate on the winding wheel 41 so as to open the winding wheel 41, when the cables are bundled, the bundling wire is placed on the bundling groove plate 692, the telescopic electric cylinder 62 starts to operate to drive the bundling hinge rod 63 to move, the bundling hinge rod 63 drives the bundling arc rod 64 to rotate on the bundling frame 61 to drive the bundling wire to be arranged around the cables, then the two bundling electric cylinders 69 start to operate to drive the bundling block 691 to combine two ends of the bundling wire, then the bundling motor 68 starts to operate to drive the bundling rotating wheel 67 to rotate, the bundling rotating wheel 67 rotates to drive the bundling ring 66 to rotate, the bundling ring 66 drives the two bundling electric cylinders 69 to rotate, thereby the bundling wire is tightly bundled, the cables are prevented from loosening in the moving process, the cables are bundled and tightly bundled, and after the cables are completely bundled, the winding wheel 41 is opened by the blocking arc plate 55, the two blanking electric cylinders 71 start to operate to drive the two movable electric cylinders 73 to move, then the two movable electric cylinders 73 start to move to drive the blanking block 75 to move, the blanking block 75 moves to drive the two blanking connecting rods 77 to move, the two blanking connecting rods 77 drive the two blanking folded plates 76 to compress and fix the cable, then the two blanking electric cylinders 71 retract to take out the cable coil, then the two movable electric cylinders 73 operate to drive the two blanking folded plates 76 to loosen the cable coil and fall into the blanking box 12, automatic blanking is adopted in the device, the weight of the cable coil is too large, manpower can be saved, the efficiency of the device is improved, and the matching of the devices is promoted.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The binding apparatus for processing the cables is characterized by comprising a workbench (1), a conveying device (2), a cutting device (3), a winding device (4), a stopping device (5), a binding apparatus (6), a blanking frame (11), a blanking device (7) and a blanking box (12), wherein the conveying device (2) is arranged on the workbench (1), the cutting device (3) is arranged on the workbench (1) and positioned beside the conveying device (2), the winding device (4) is arranged on the workbench (1) and positioned beside the cutting device (3), the stopping device (5) is arranged on the winding device (4), the binding device (6) is arranged beside the workbench (1), the blanking device (7) is arranged beside the workbench (1), and the blanking frame (11) is arranged beside the workbench (1), the blanking box (12) is arranged between the blanking device (7) and the workbench (1).

2. The cable processing strapping device as set forth in claim 1, wherein: the conveying device (2) comprises a conveying frame (21), a conveying motor (22), a conveying support rod (23), a conveying spring (24), a conveying limiting rod (25), two conveying blocks (26) and two conveying wheels (27), the conveying frame (21) is arranged at the top of the workbench (1), the two conveying blocks (26) are arranged in the conveying frame (21) in a sliding manner, the two conveying wheels (27) are respectively and rotatably arranged on the two conveying blocks (26), bearing grooves are respectively arranged on the two conveying wheels (27), the conveying support rod (23) is arranged between the two conveying blocks (26), the conveying limiting rod (25) is arranged on the conveying frame (21) and is positioned above the two conveying blocks (26), the conveying spring (24) is sleeved on the conveying limiting rod (25), the conveying motor (22) is arranged on the conveying frame (21), and the main shaft of the conveying motor (22) is connected to one of the conveying wheels (27).

3. The cable processing strapping device as set forth in claim 1, wherein: the cutting device (3) comprises a cutting frame (31), an upper cutting tool (32), a lower cutting tool (33), a cutting rotating rod (34), a supporting spring (35), a cutting supporting rod (36), a pushing electric cylinder (37), a cutting pushing plate (38) and two bearing springs (39), wherein the cutting frame (31) is arranged on a workbench (1), the upper cutting tool (32) is arranged on the cutting frame (31) in a sliding manner, the lower cutting tool (33) is arranged on the cutting frame (31), the two bearing springs (39) are arranged between the upper cutting tool (32) and the cutting frame (31), the cutting supporting rod (36) is arranged at the side of the cutting frame (31), the cutting rotating rod (34) is sleeved on the cutting supporting rod (36) and is in sliding fit with the cutting supporting rod (36), the supporting spring (35) is arranged between the cutting frame (34) and the cutting supporting rod (36), the electric pushing cylinder (37) is arranged on the cutting frame (31), and the cutting pushing plate (38) is arranged on the telescopic end of the electric pushing cylinder (37).

4. The cable processing strapping device as set forth in claim 1, wherein: coiling mechanism (4) include rolling wheel (41), rolling frame (42) and rolling motor (43), rolling frame (42) set up at workstation (1), rolling wheel (41) rotate to set up on rolling frame (42), rolling motor (43) set up on rolling frame (42), the main shaft of rolling motor (43) runs through rolling frame (42) and connects on rolling wheel (41).

5. The binding apparatus for cable processing according to claim 4, wherein: the blocking device (5) comprises a blocking framework (51), two sliding rings (52), four blocking connecting rods (53), four blocking supporting rods (54) and four blocking arc plates (55), the blocking framework (51) is arranged on the side of the winding wheel (41), the two sliding rings (52) are sleeved on the blocking framework (51) in a sliding mode, the four blocking arc plates (55) are hinged to the winding wheel (41), one ends of the four blocking connecting rods (53) are hinged to the four blocking arc plates (55) respectively, the other ends of the four blocking connecting rods (53) are hinged to one of the sliding rings (52), one ends of the four blocking supporting rods (54) are hinged to the four blocking connecting rods (53) respectively, and the other ends of the four blocking supporting rods (54) are hinged to the other sliding ring (52).

6. The binding apparatus for cable processing according to claim 4, wherein: the binding device (6) comprises a binding frame (61), a telescopic electric cylinder (62), a binding articulated rod (63), a binding arc rod (64), a binding support plate (65), a binding ring (66), a binding rotating wheel (67), a binding motor (68), two binding electric cylinders (69) and two binding blocks (691), wherein the binding frame (61) is arranged beside the winding wheel (41), a binding groove plate (692) is further arranged on the binding frame (61), the telescopic electric cylinder (62) is arranged on the binding frame (61), one end of the binding articulated rod (63) is articulated on the telescopic end of the telescopic electric cylinder (62), the binding arc rod (64) is articulated on the binding frame (61) and one end of the binding arc rod (64) is articulated on the other end of the binding articulated rod (63), the binding support plate (65) is arranged on the binding frame (61), and the binding ring (66) is rotationally arranged on the binding support plate (65), the bundling motor (68) is arranged on the bundling support plate (65), a main shaft of the bundling motor (68) penetrates through the bundling support plate (65), the bundling motor (68) is meshed with the bundling ring (66), the two bundling electric cylinders (69) are symmetrically arranged on the bundling ring (66), and the two bundling blocks (691) are respectively arranged on the telescopic ends of the two bundling electric cylinders (69).

7. The cable processing strapping device as set forth in claim 1, wherein: unloader (7) include two unloading electricity jar (71) and two unloading subassemblies (72), two unloading electricity jar (71) all sets up on work or material rest (11) down, two unloading subassembly (72) set up respectively on the flexible end of two unloading electricity jars (71), two unloading subassembly (72) all includes removal electricity jar (73), unloading seat (74), unloading piece (75), two unloading folded plates (76) and unloading connecting rod (77), it sets up on the flexible end of unloading electricity jar (71) to remove electricity jar (73), unloading seat (74) set up on the flexible end of unloading electricity jar (71), two the one end of unloading folded plate (76) articulates on unloading seat (74), material piece (75) set up on the flexible end of removal electricity jar (73) down, two the one end of unloading connecting rod (77) all articulates on material piece (75) down and the other end of two unloading connecting rods (77) articulates at two unloading folded plates 76) The above.