CN212891346U

CN212891346U - Wire and cable winding and bundling equipment

Info

Publication number: CN212891346U
Application number: CN202020888944.8U
Authority: CN
Inventors: 陈雪清; 刘锋
Original assignee: Dongguan Ruisheng Wire & Cable Co ltd
Current assignee: Dongguan Ruisheng Wire & Cable Co ltd
Priority date: 2020-05-25
Filing date: 2020-05-25
Publication date: 2021-04-06
Anticipated expiration: 2030-05-25

Abstract

The utility model discloses a wire and cable winding and bundling equipment, include: the winding device, the bundling device and the carrying manipulator are arranged in sequence and correspond to the winding device and the bundling device; the winding device comprises a lower rotary table, an upper rotary table movably arranged on the lower rotary table and a rotary motor for driving the lower rotary table and the upper rotary table to rotate; a first cylinder is fixed on a motor shaft of the rotating motor, a driving gear is fixed at the tail end of a cylinder shaft of the first cylinder, and a first gear slot and a second gear slot are respectively formed in the lower rotating disc and the upper rotating disc corresponding to the driving gear; the upper rotary disc is fixed with a bobbin fixture for positioning the bobbin, and the lower rotary disc is fixed with a plurality of compression roller assemblies corresponding to the bobbin fixture. The utility model realizes the automatic winding and binding of the electric wires and cables, greatly reduces the participation degree of manpower, reduces the labor cost, reduces the manual participation error and ensures that the yield is controllable; and the problem that the wound and bundled wires and cables are loose and irregular is solved.

Description

Wire and cable winding and bundling equipment

Technical Field

The utility model relates to a wire and cable field, concretely relates to equipment is tied up in wire and cable winding.

Background

Electric wires and cables, in which a product having a small number of cores, a small product diameter, and a simple structure is generally called an electric wire, and a product having no insulation is called a bare wire, and the other products are called cables; it is a wire product used for transmitting electric energy, information and realizing electromagnetic energy conversion. With the development of social economy, the demand for electric wires in life and industry is increasing, and with the increase of supply quantity, the production efficiency of electric wire manufacturers is examined.

After the electric wire and the cable are processed, the electric wire and the cable need to be wound into a coil so as to be convenient for later transportation, selling, laying, reprocessing and the like, and meanwhile, the electric wire and the cable need to be wound by the aid of the derivative of the electric wire such as the induction coil. At present, the wire winding operation is generally performed by adopting a manual winding mode, the requirement on the concentration degree of personnel is high, and the wound wire and cable are loose and irregular, so that the inconvenience is caused for subsequent laying and reprocessing, and the yield is uncontrollable.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model discloses an electric wire and cable winding and bundling equipment.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

a wire and cable winding and bundling apparatus, comprising: the winding device and the bundling device are arranged in sequence, and the carrying manipulator is arranged corresponding to the winding device and the bundling device; the winding device comprises a lower rotary table, an upper rotary table movably arranged on the lower rotary table and a rotary motor driving the lower rotary table and the upper rotary table to rotate; a first air cylinder is fixed on a motor shaft of the rotating motor, a driving gear is fixed at the tail end of an air cylinder shaft of the first air cylinder, and a first gear slot and a second gear slot are respectively formed in the lower rotating disc and the upper rotating disc corresponding to the driving gear; and the upper rotary table is fixedly provided with a bobbin jig for positioning a bobbin, and the lower rotary table is fixedly provided with a plurality of compression roller assemblies corresponding to the bobbin jig.

The bobbin jig comprises a second cylinder vertically arranged upwards and a bobbin clamping block fixed at the tail end of a piston rod of the second cylinder; the second cylinder is fixedly connected with the upper rotating disc.

The compression roller assembly comprises a third air cylinder and a fourth air cylinder which are correspondingly arranged on two sides of the second air cylinder; the third cylinder and the fourth cylinder are both fixedly connected with the lower rotary table; the piston rod head end of third cylinder, fourth cylinder is fixed with first installation piece, second installation piece respectively, be fixed with first installation axle, the second installation axle of vertical setting up upwards on first installation piece, the second installation piece respectively, first installation epaxial respectively movable mounting have first compression roller, second compression roller on the installation axle of first installation axle, second.

A first limiting plate and a second limiting plate are respectively fixed on the lower rotary table corresponding to the third cylinder and the fourth cylinder; the first limiting plate is connected with the first mounting block through a first extension spring, and the second limiting plate is connected with the second mounting block through a second extension spring.

The strapping device comprises a fifth cylinder which is vertically arranged upwards; a mounting bracket is fixed on the fifth cylinder, a first clamping finger and a second clamping finger are respectively and movably mounted on two sides of the upper end of the mounting bracket, a first horizontal clamping block extends from the tail end of the first clamping finger to the second clamping finger, and a second horizontal clamping block extends from the tail end of the second clamping finger to the tail end of the first clamping finger; the head ends of the first clamping finger and the second clamping finger are respectively and movably connected with a piston rod of the fifth cylinder through a first connecting rod and a second connecting rod; and a first carrying rod and a second carrying rod are respectively fixed on the first clamping finger and the second clamping finger correspondingly to each other.

The tail end of the first horizontal clamping block penetrates through the upper end face and the lower end face of the first horizontal clamping block to be provided with a first ribbon through groove; run through the terminal correspondence of second horizontal clamp splice first ribbon leads to the groove and is equipped with the logical groove of second ribbon.

An arc-shaped rubber sheet is placed on the upper end surfaces of the first horizontal clamping block and the second horizontal clamping block corresponding to the first ribbon through groove and the second ribbon through groove; the head end and the tail end of the arc-shaped rubber sheet extend to form positioning rubber sheets corresponding to the outer side wall surfaces of the first horizontal clamping block and the second horizontal clamping block respectively; and a first reset guide inclined plane and a second reset guide inclined plane are respectively arranged in the first ribbon through groove and the second ribbon through groove.

The strapping device also comprises a pneumatic clamping jaw which is horizontally movably arranged above the first horizontal clamping block and the second horizontal clamping block, and a driving motor which drives the pneumatic clamping jaw to rotate.

The bundling device also comprises a ribbon feeding mechanism arranged corresponding to the head end of the arc-shaped rubber sheet; the ribbon feeding mechanism comprises a feeding block, a feeding driving wheel arranged corresponding to the feeding block and a feeding driven wheel arranged above the feeding driving wheel; a feeding channel penetrates through the left end surface and the right end surface of the feeding block, and a cutting knife is arranged on the right side of the feeding block corresponding to the feeding channel; the cutting knife is driven to move up and down by a cutting cylinder.

A wire inlet platform is arranged corresponding to the winding device; the wire inlet platform comprises an installation platform, a first vertical roller movably installed on the installation platform, and a transverse moving cylinder which is transversely fixed on the installation platform corresponding to the first vertical roller; the tail end of a piston rod of the transverse moving cylinder is movably provided with a second vertical roller, and a first horizontal roller and a second horizontal roller which are transversely arranged are further arranged on two sides of the first vertical roller and the second vertical roller.

The utility model has the advantages that: the utility model has reasonable and ingenious structural design, simple structure and high efficiency; the automatic winding and bundling of the electric wires and the cables are realized, the wires are sequentially wound for the second time through the compression roller assembly in the automatic winding process, the labor participation degree is greatly reduced, the labor cost is reduced, the manual participation error is reduced, and the yield is controllable; meanwhile, the problem that the wound and bundled electric wires and cables are loose and irregular is solved. Through the arrangement of the extension spring, the problem that the internal structure of the wire and the cable is damaged due to overlarge pressure of the first compression roller and the second compression roller on the wire and the cable is effectively solved; the arrangement of the wire inlet platform realizes the wire inlet positioning of the electric wire; besides, the product is also suitable for winding and bundling wire derivatives such as induction coils and the like, and has a wide application range.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

Fig. 1 is a perspective view of an electric wire and cable winding and binding apparatus according to an embodiment of the present invention;

fig. 2 is an exploded view of the main structure of a winding device according to an embodiment of the present invention;

fig. 3 is an exploded view of the upper rotary plate and the lower rotary plate in the embodiment of the present invention;

FIG. 4 is a perspective view of a strapping device in an embodiment of the present invention;

FIG. 5 is a schematic view of the main structure of a binding apparatus according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of the incoming line platform in the embodiment of the present invention.

Detailed Description

Embodiment, referring to fig. 1 to 6, the present embodiment provides an electric wire and cable winding and bundling apparatus, including: a winding device 1, a binding device 2 and a conveying manipulator 3 arranged corresponding to the winding device 1 and the binding device 2; the winding device 1 comprises a lower rotary table 11, an upper rotary table 12 movably arranged on the lower rotary table 11 and a rotary motor driving the lower rotary table 11 and the upper rotary table 12 to rotate; a first cylinder is fixed on a motor shaft of the rotating motor, a driving gear 131 is fixed at the tail end of a cylinder shaft 13 of the first cylinder, and a first gear slot 111 and a second gear slot 121 are respectively arranged on the lower rotating disk 11 and the upper rotating disk 12 corresponding to the driving gear 131; the upper rotary table 12 is fixed with a bobbin fixture 4 for positioning a bobbin, and the lower rotary table 11 is fixed with a plurality of compression roller assemblies 5 corresponding to the bobbin fixture 4.

Specifically, the rotary motor drives the first cylinder to rotate, when the cylinder shaft 13 of the first cylinder drives the driving gear 131 to be matched with the first gear slot 111 of the lower rotary table 11, the rotary motor drives the lower rotary table 11 to rotate, and when the cylinder shaft 13 of the first air rod drives the driving gear 131 to be matched with the second gear slot 121 of the upper rotary table 12, the rotary motor drives the upper rotary table 12 to rotate.

Further, firstly, winding the wire to be wound on the bobbin by one to two turns, fixing the bobbin by a bobbin fixture 4, enabling the wire to be wound to be tightly attached to the bobbin through a plurality of compression roller assemblies 5 for primary wire arrangement, driving the upper rotating disc 12 to rotate by a rotating motor so as to realize the winding of the wire, then carrying out the bundling operation on the wound wire through the carrying manipulator 3 and the bundling device 2, driving the driving gear 131 to be matched with the first gear slot 111 of the lower rotating disc 11 through the cylinder shaft 13 of the first air rod, and driving the compression roller assemblies 5 to rotate around the bobbin for secondary wire arrangement; the automatic winding and bundling of the wires and the cables are realized, the efficiency is greatly improved, the wires are sequentially wound for the second time through the compression roller assembly 5 in the automatic winding process, the labor participation degree is greatly reduced, the labor cost is reduced, the manual participation error is reduced, and the yield is controllable; meanwhile, the problem that the wound and bundled electric wires and cables are loose and irregular is solved.

In addition, the bobbin is a common bobbin in the market, and the side surface of the bobbin is I-shaped. Except that electric wire and cable, the utility model discloses also be applicable to simultaneously and tie up the winding of wire derivative such as induction coil, application scope is wide.

The bobbin fixture 4 comprises a second cylinder 41 vertically arranged upwards and a bobbin clamping block 42 fixed at the tail end of a piston rod of the second cylinder 41; the second cylinder 41 is fixedly connected with the upper rotating disc 12.

Specifically, when the rotary motor orders about the upper winding reel jig 4 to wind the electric wire and cable in a rotating manner, because the following wire inlet platform positions the wire and cable inlet wire, the second cylinder 41 orders about the winding reel clamping block 42 to perform regular up-and-down reciprocating movement, so that the winding positions of the electric wire and cable on the winding reel can be adjusted simultaneously, the electric wire and cable are uniformly wound on the winding reel, and the problem that the electric wire and cable after being wound and bound are loose and irregular is further solved.

The compression roller assembly 5 comprises a third air cylinder 51 and a fourth air cylinder 52 which are correspondingly arranged at two sides of the second air cylinder 41; the third cylinder 51 and the fourth cylinder 52 are both fixedly connected with the lower rotary table 11; the head ends of the piston rods of the third cylinder 51 and the fourth cylinder 52 are respectively fixed with a first mounting block 53 and a second mounting block 54, the first mounting block 53 and the second mounting block 54 are respectively fixed with a first mounting shaft 55 and a second mounting shaft 56 which are vertically arranged upwards, and the first mounting shaft 55 and the second mounting shaft 56 are respectively and movably mounted with a first press roller 57 and a second press roller 58.

Specifically, the wire and cable are pressed by the first pressing roller 57 and the second pressing roller 58, so that the wire and cable can be tightly attached to the bobbin; in addition, the third and

fourth air cylinders

51 and 52 may adjust horizontal positions of the first and second

pressing rollers

57 and 58 according to a required amount of the wire-wound cable.

A first limit plate 57 and a second limit plate 58 are respectively fixed on the lower rotary table 11 corresponding to the third cylinder 51 and the fourth cylinder 52; the first limit plate 57 is connected to the first mounting block 53 through a first extension spring, and the second limit plate 58 is connected to the second mounting block 54 through a second extension spring.

Specifically, after the first compression roller 57 and the second compression roller 58 are adjusted according to the amount of the wires to be wound, the third air cylinder 51 and the fourth air cylinder 52 stop working, the first compression roller 57 and the second compression roller 58 are driven to press the wires through the first extension spring and the second extension spring, and the problem that the internal structures of the wires are damaged due to the fact that the pulling-in force of the extension spring is soft is effectively solved.

The strapping device 2 comprises a fifth cylinder 21 which is vertically arranged upwards; a mounting bracket 211 is fixed on the fifth cylinder 21, a first clamping finger 22 and a second clamping finger 23 are respectively movably mounted on two sides of the upper end of the mounting bracket 211, a first horizontal clamping block 221 extends from the tail end of the first clamping finger 22 to the second clamping finger 23, and a second horizontal clamping block 231 extends from the tail end of the second clamping finger 23 to the tail end of the first clamping finger 22; the head ends of the first clamping finger 22 and the second clamping finger 23 are respectively movably connected with the piston rod of the fifth cylinder 21 through a first connecting rod and a second connecting rod; the first and

second clamping fingers

22 and 23 are respectively fixed with a first loading rod 222 and a second loading rod 232 correspondingly.

Specifically, the bobbin is generally provided with a fixing through hole at the center thereof for the above-mentioned engagement and fixation with the bobbin clamping block 42; during the binding operation, the carrying manipulator 3 puts the bobbin wound with the electric wire and cable between the first clamping finger 22 and the second clamping finger 23 and on the first carrying rod 222 and the second carrying rod 232, and the fixing through hole of the bobbin is sleeved on the second clamping finger 23. The fifth cylinder 21 controls the first clamping finger 22 and the second clamping finger 23 to clamp the bobbin, so that the binding and positioning of the cable wound with the wires can be realized.

The tail end of the first horizontal clamping block 221 penetrates through the upper end face and the lower end face of the first horizontal clamping block 221 and is provided with a first tie through groove 223; a second band through groove 233 is arranged through the end of the second horizontal clamping block 231 corresponding to the first band through groove 223.

An arc-shaped rubber sheet 24 is placed on the upper end surfaces of the first horizontal clamping block 221 and the second horizontal clamping block 231 corresponding to the first ribbon through groove 223 and the second ribbon through groove 233; the head end and the tail end of the arc-shaped rubber sheet 24 respectively correspond to the outer side wall surfaces of the first horizontal clamping block 221 and the second horizontal clamping block 231, and a positioning rubber sheet 241 extends; a first reset guide inclined plane 224 and a second reset guide inclined plane 234 are respectively arranged in the first band through groove 223 and the second band through groove 233.

The binding apparatus 2 further includes a pneumatic jaw 25 horizontally movably disposed above the first horizontal clamp block 221 and the second horizontal clamp block 231, and a driving motor 26 for driving the pneumatic jaw 25 to rotate.

Specifically, when the ribbon is placed on the arc-shaped rubber sheet 24, in the process that the carrying manipulator 3 places the bobbin wound with the electric wire and cable between the first clamping finger 22 and the second clamping finger 23 and places the bobbin on the first carrying rod 222 and the second carrying rod 232, the arc-shaped rubber sheet 24 and the ribbon are pressed downwards to enter between the first clamping finger 22 and the second clamping finger 23; due to the arrangement of the first ribbon through groove 223 and the second ribbon through groove 233, the positioning rubber piece 241 at the head end and the tail end of the arc-shaped rubber piece 24 penetrates out of the first ribbon through groove 223 and the second ribbon through groove 233 and is attached to the first reset guide inclined plane 224 and the second reset guide inclined plane 234, and two ends of the ribbon penetrate out of the first ribbon through groove 223 and the second ribbon through groove 233 and form the upper end faces of the horizontal clamping block and the second horizontal clamping block 231; the fifth cylinder 21 controls the first clamping finger 22 and the second clamping finger 23 to clamp the bobbin, the delivered binding belt is clamped through the pneumatic clamping jaw 25, and the driving motor 26 drives the pneumatic clamping jaw 25 to rotate so as to achieve automatic binding of the electric wires and the electric cables.

After the binding operation is finished, the fifth cylinder 21 controls the first clamping finger 22 and the second clamping finger 23 to loosen the clamping of the bobbin, the bobbin is taken out and discharged by the carrying manipulator 3, the downward-pressed arc-shaped rubber sheet 24 is reset along the first reset guide inclined plane 224 and the second reset guide inclined plane 234 in the process of taking out the bobbin between the first clamping finger 22 and the second clamping finger 23, finally, the arc-shaped rubber sheet 24 is reset to the upper end surfaces 241 of the first horizontal clamping block 221 and the second horizontal clamping block 231 corresponding to the first ribbon through groove 223 and the second ribbon through groove 233, and is matched and positioned with the outer side wall surfaces of the first clamping finger 22 and the second clamping finger 23 through the positioning rubber sheet.

The bundling device 2 further comprises a ribbon feeding mechanism arranged corresponding to the head end of the arc-shaped rubber sheet 24; the ribbon feeding mechanism comprises a feeding block 27, a feeding driving wheel 281 arranged corresponding to the feeding block 27, and a feeding driven wheel 282 arranged above the feeding driving wheel 281; a feeding channel 271 is arranged through the left and right end surfaces of the feeding block 27, and a cutting knife 29 is arranged at the right side of the feeding block 27 corresponding to the feeding channel 271; the cutting blade 29 is driven to move up and down by a cutting cylinder 291.

Specifically, the feeding driving wheel 281 is driven to rotate by a rotating cylinder, and the ribbon feeding mechanism is used for conveying a ribbon to the upper surface of the arc-shaped rubber sheet 24; in addition, a cutting blade 29 is used to cut the strap before bundling.

A wire inlet platform 6 is arranged corresponding to the winding device 1; the incoming line platform 6 comprises a mounting table 61, a first vertical roller 62 movably mounted on the mounting table 61, and an upper transverse moving cylinder 63 transversely fixed on the mounting table 61 corresponding to the first vertical roller 62; a second vertical roller 64 is movably mounted at the tail end of the piston rod of the transverse moving cylinder 63, and a first horizontal roller 65 and a second horizontal roller which are transversely arranged are further arranged on two sides of the first vertical roller 62 and the second vertical roller 64.

Specifically, during winding operation, firstly, the wire to be wound is wound on the bobbin by one to two turns, the bobbin fixture 4 fixes the bobbin, then the wire to be wound is placed on the first horizontal roller 65 and the second horizontal roller 66 corresponding to the first vertical roller 62 and the second vertical roller 64, and the traversing cylinder 63 drives the second vertical roller 64 to move towards the first vertical roller 62 to clamp the wire and the cable; through the setting of inlet wire platform 6, realized the inlet wire location to wire and cable.

When the wire winding machine is used, a wire to be wound is wound on the winding drum for one to two circles, the winding drum jig 4 fixes the winding drum, the wire to be wound is tightly attached to the winding drum through the plurality of pressing roller assemblies 5, the wire to be wound is placed on the first horizontal roller 65 and the second horizontal roller 66 corresponding to the first vertical roller 62 and the second vertical roller 64, and the transverse moving cylinder 63 drives the second vertical roller 64 to move towards the first vertical roller 62 to clamp a wire cable;

the cylinder shaft 13 of the first cylinder drives the driving gear 131 to be matched with the first gear slot 111 of the lower rotary table 11, the rotary motor drives the first cylinder to rotate, and the upper rotary table 12 is driven to rotate so as to wind the electric wire;

then, the cylinder shaft 13 of the first air rod drives the driving gear 131 to be matched with the first gear slot 111 of the lower rotary table 11, the rotary motor drives the first air cylinder to rotate, the pressing roller assembly 5 is driven to rotate around the winding reel, and the wound wires and cables are managed again;

the rotary cylinder drives the feeding driving wheel 281 to rotate, and the ribbon feeding mechanism conveys the ribbon towards the upper surface of the arc-shaped rubber sheet 24; a cutting knife 29 cuts the ribbon before bundling;

the carrying robot 3 places the bobbin wound with the electric wire or cable between the first and second gripping

fingers

22 and 23 and on the first and

second loading bars

222 and 232. Wherein, the arc-shaped rubber sheet 24 and the binding belt are pressed down to enter between the first clamping finger 22 and the second clamping finger 23; due to the arrangement of the first ribbon through groove 223 and the second ribbon through groove 233, the positioning rubber piece 241 at the head end and the tail end of the arc-shaped rubber piece 24 penetrates out of the first ribbon through groove 223 and the second ribbon through groove 233 and is attached to the first reset guide inclined plane 224 and the second reset guide inclined plane 234, and two ends of the ribbon penetrate out of the first ribbon through groove 223 and the second ribbon through groove 233 and form the upper end faces of the horizontal clamping block and the second horizontal clamping block 231; the fifth cylinder 21 controls the first clamping finger 22 and the second clamping finger 23 to clamp the bobbin, the delivered binding belt is clamped through the pneumatic clamping jaw 25, and the driving motor 26 drives the pneumatic clamping jaw 25 to rotate so as to achieve automatic binding of the electric wires and the electric cables.

The utility model has reasonable and ingenious structural design, simple structure and high efficiency; the automatic winding and bundling of the wires and the cables are realized, the wires are sequentially wound for the second time through the compression roller assembly 5 in the automatic winding process, the manual participation degree is greatly reduced, the labor cost is reduced, the manual participation error is reduced, and the yield is controllable; meanwhile, the problem that the wound and bundled electric wires and cables are loose and irregular is solved. Through the arrangement of the extension spring, the problem that the internal structure of the wire and the cable is damaged due to overlarge pressure of the first compression roller 57 and the second compression roller 58 on the wire and the cable is effectively solved; the arrangement of the wire inlet platform 6 realizes the wire inlet positioning of the electric wire; besides, the product is also suitable for winding and bundling wire derivatives such as induction coils and the like, and has a wide application range.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, using the technical means and contents disclosed above, without departing from the scope of the technical solution of the present invention. Therefore, the equivalent changes made according to the shape, structure and principle of the present invention should be covered in the protection scope of the present invention.

Claims

1. An electric wire and cable winding and bundling apparatus, comprising: the winding device and the bundling device are arranged in sequence, and the carrying manipulator is arranged corresponding to the winding device and the bundling device;

the winding device comprises a lower rotary table, an upper rotary table movably arranged on the lower rotary table and a rotary motor driving the lower rotary table and the upper rotary table to rotate;

a first air cylinder is fixed on a motor shaft of the rotating motor, a driving gear is fixed at the tail end of an air cylinder shaft of the first air cylinder, and a first gear slot and a second gear slot are respectively formed in the lower rotating disc and the upper rotating disc corresponding to the driving gear;

and the upper rotary table is fixedly provided with a bobbin jig for positioning a bobbin, and the lower rotary table is fixedly provided with a plurality of compression roller assemblies corresponding to the bobbin jig.

2. The electric wire and cable winding and binding apparatus according to claim 1, wherein the bobbin fixture includes a second cylinder vertically disposed upward, and a bobbin clamping block fixed to a distal end of a piston rod of the second cylinder;

the second cylinder is fixedly connected with the upper rotating disc.

3. The electric wire and cable winding and bundling apparatus according to claim 2, wherein said press roller assembly comprises a third cylinder, a fourth cylinder correspondingly disposed at both sides of said second cylinder;

the third cylinder and the fourth cylinder are both fixedly connected with the lower rotary table;

the piston rod head end of third cylinder, fourth cylinder is fixed with first installation piece, second installation piece respectively, be fixed with first installation axle, the second installation axle of vertical setting up upwards on first installation piece, the second installation piece respectively, first installation epaxial respectively movable mounting have first compression roller, second compression roller on the installation axle of first installation axle, second.

4. The electric wire and cable winding and bundling device according to claim 3, wherein a first limiting plate and a second limiting plate are respectively fixed on the lower rotary table corresponding to the third cylinder and the fourth cylinder;

the first limiting plate is connected with the first mounting block through a first extension spring, and the second limiting plate is connected with the second mounting block through a second extension spring.

5. The electric wire and cable winding and bundling apparatus according to claim 4, wherein said bundling means comprises a fifth cylinder vertically disposed upward;

a mounting bracket is fixed on the fifth cylinder, a first clamping finger and a second clamping finger are respectively and movably mounted on two sides of the upper end of the mounting bracket, a first horizontal clamping block extends from the tail end of the first clamping finger to the second clamping finger, and a second horizontal clamping block extends from the tail end of the second clamping finger to the tail end of the first clamping finger;

the head ends of the first clamping finger and the second clamping finger are respectively and movably connected with a piston rod of the fifth cylinder through a first connecting rod and a second connecting rod;

and a first carrying rod and a second carrying rod are respectively fixed on the first clamping finger and the second clamping finger correspondingly to each other.

6. The wire and cable winding and bundling apparatus according to claim 5, wherein said first horizontal clamping block has a first strap through slot at a distal end thereof extending through upper and lower end surfaces of said first horizontal clamping block;

run through the terminal correspondence of second horizontal clamp splice first ribbon leads to the groove and is equipped with the logical groove of second ribbon.

7. The electric wire and cable winding and bundling apparatus according to claim 6, wherein an arc-shaped rubber sheet is placed on the upper end surfaces of said first and second horizontal clamping blocks corresponding to said first and second strap through slots;

the head end and the tail end of the arc-shaped rubber sheet extend to form positioning rubber sheets corresponding to the outer side wall surfaces of the first horizontal clamping block and the second horizontal clamping block respectively;

and a first reset guide inclined plane and a second reset guide inclined plane are respectively arranged in the first ribbon through groove and the second ribbon through groove.

8. The electric wire and cable winding and bundling apparatus according to claim 7, wherein said bundling device further comprises a pneumatic jaw horizontally movably disposed above said first horizontal clamping block, said second horizontal clamping block, and a driving motor for driving said pneumatic jaw to rotate.

9. The electric wire and cable winding and bundling apparatus according to claim 8, wherein said bundling means further comprises a ribbon feeding mechanism provided in correspondence with a head end of said arc-shaped rubber sheet;

the ribbon feeding mechanism comprises a feeding block, a feeding driving wheel arranged corresponding to the feeding block and a feeding driven wheel arranged above the feeding driving wheel;

a feeding channel penetrates through the left end surface and the right end surface of the feeding block, and a cutting knife is arranged on the right side of the feeding block corresponding to the feeding channel;

the cutting knife is driven to move up and down by a cutting cylinder.

10. The electric wire and cable winding and binding equipment as claimed in claim 9, wherein an incoming line platform is further provided corresponding to the winding device;

the wire inlet platform comprises an installation platform, a first vertical roller movably installed on the installation platform, and a transverse moving cylinder which is transversely fixed on the installation platform corresponding to the first vertical roller;

the tail end of a piston rod of the transverse moving cylinder is movably provided with a second vertical roller, and a first horizontal roller and a second horizontal roller which are transversely arranged are further arranged on two sides of the first vertical roller and the second vertical roller.