CN111807148A

CN111807148A - Multifunctional device for winding and bundling wires

Info

Publication number: CN111807148A
Application number: CN202010811374.7A
Authority: CN
Inventors: 江辉
Original assignee: Xiangshan Royal Electronics Technology Co ltd
Current assignee: Xiangshan Royal Electronics Technology Co ltd
Priority date: 2020-08-13
Filing date: 2020-08-13
Publication date: 2020-10-23

Abstract

The invention discloses a multifunctional device for winding and bundling wires, which comprises a case, wherein a belt cavity is arranged in the case, a bidirectional motor is fixedly arranged in the right wall of the belt cavity, a driving shaft is fixedly arranged on an output shaft on the left side of the bidirectional motor, a winding cavity positioned on the left side of the belt cavity is arranged in the case, a disc is rotatably connected in the right wall of the winding cavity, compared with the traditional wire winding mode, firstly, the wire winding mode is realized by the invention in an electric driving mode, secondly, the invention can automatically strip the wire and prevent the wire from winding unevenly, in addition, the invention can automatically pop up after the wire winding is received, and finally, the invention can reset after ejecting the bundled electric wires and start the next electric wire winding.

Description

Multifunctional device for winding and bundling wires

Technical Field

The invention relates to the field of wire arrangement, in particular to a multifunctional device for winding and bundling wires.

Background

With the progress of the times, electric energy is widely applied to the lives of residents as an energy source, the electric energy refers to the capability of using electricity to do work in various forms, the electric energy is an energy form which is economic, practical, clean and easy to control and convert, and the electric energy is a special product (which also has a plurality of characteristics of the product, such as measurement, estimation, guarantee or improvement) which is provided for the quality of power users by three parties, namely sending, supplying and using.

The transmission of electric energy is accomplished through the electric wire, and the electric wire often adopts the mode of bundling to place in the transportation, and the space size that occupies can be reduced to the electric wire of bundling, can prevent again that the electric wire from receiving to roll over and cause inside destruction, but, present electric wire winding device generally adopts the manpower wire winding, even adopt electronic wire winding function also comparatively single, need design one kind and can give the electric wire winding bundle automatically and function device not single.

Disclosure of Invention

The technical problem is as follows: at present, the wire winding mode is carried out through manpower, even if a device for winding electric power is arranged, the function is single, and a device which can automatically wind wires into bundles and has a non-single function is required to be designed.

In order to solve the above problems, the present embodiment provides a multifunctional device for bundling wire coils, which includes a housing, a belt cavity is disposed in the housing, a bidirectional motor is fixedly disposed in a right wall of the belt cavity, a driving shaft is fixedly disposed on an output shaft at a left side of the bidirectional motor, a wire winding cavity is disposed in the housing and located at a left side of the belt cavity, a disk is rotatably connected to a right wall of the wire winding cavity, the driving shaft extends into the disk and can drive the disk to rotate forward to perform wire coils, a delivery cavity connected to a left side of the wire winding cavity and having a downward opening is disposed in the housing, symmetrical sliding cavities are disposed in the delivery cavity and a front wall and a rear wall of the wire winding cavity, sliding plates are slidably connected in the sliding cavities, ring plates are disposed on left and right sides of the disk, and side grooves are disposed on the ring plates in an annular distribution manner, the sliding plate is fixedly provided with a pushing device which extends into the side groove to connect the sliding plate with the disc, the case is internally provided with a pushing device which can drive the sliding plate to slide along the sliding cavity to drive the annular plate to leave the disc so as to eject the electric wire wound on the disc into the discharging cavity, the bundled electric wire ejected out of the discharging cavity can be output to the outside of the case through an opening at the lower side of the discharging cavity, the winding cavity is internally provided with a wire smoothing device which can drive the electric wire to move left and right, the case is internally provided with a wire breaking device which can break the electric wire when the electric wire is wound to the limit degree by the disc, and the disc is internally provided with a clamping device which can clamp the broken electric wire when the driving shaft driven by the two-way motor rotates reversely.

Wherein, the pushing device comprises a pushing cavity which is arranged at the lower side of the belt cavity and at the right side of the winding cavity in the case, the driving shaft extends into the pushing cavity, a driving bevel gear is fixedly arranged on the driving shaft in the pushing cavity, a transmission shaft is rotationally connected with the rear wall of the pushing cavity, a transmission bevel gear which is meshed with the driving bevel gear is fixedly arranged on the transmission shaft, a pushing outer plate is connected in the bottom wall of the pushing cavity in a sliding way, a first rack plate is connected at the upper side of the pushing outer plate, a gear which is meshed with the first rack plate is fixedly arranged on the transmission shaft, an inner cavity is arranged in the pushing outer plate, push rod grooves are annularly distributed in the circular ring plate at the right side, a push rod which extends into the push rod grooves is connected in the inner cavity in a sliding way, and a jacking spring which is connected between the right wall of the, the quick-witted incasement be equipped with connect in promote the left swash plate chamber in chamber, swash plate intracavity sliding connection has the slip swash plate, be equipped with the ascending first pivot of opening on the catch bar, thereby the slip swash plate can stretch into thereby the first intracavity that inserts blocks the catch bar, it inserts the chamber to be equipped with the second that the opening is right in the slip swash plate, thereby first rack board moves left can be through the extrusion the second inserts the chamber and drives the slip swash plate rebound.

Wherein, smooth out the line device including rotate connect in last band pulley axle in the right wall of belt chamber, last band pulley epaxial has set firmly, the belt has set firmly down in the drive shaft, go up the band pulley with be connected with the belt down between the belt, the left wall internal rotation of wire winding chamber is connected with the spool of smoothing out the fingers, it has stretching out to smooth out spool internal spline connection smooth out spool right side and splined connection in the integral key shaft of last band pulley axle, smooth out the spool and be equipped with the recess on the axle, sliding connection has the movable block in the wire winding chamber roof, smooth out the spool and rotate and can drive the movable block is made a round trip to remove, be equipped with through the mouth in the movable block, pass through the electric wire in through the.

Wherein, the broken string device is including locating quick-witted incasement and connect in the removal chamber on wire winding chamber right side, sliding connection has the carriage release lever in removing the chamber bottom wall, the carriage release lever left side has set firmly and has stretched into the right side in the ring plate blade in the side recess, the blade is used for cutting the electric wire, it is fixed in to remove the intracavity be equipped with the carriage release lever upside and rotate connect in the epaxial removal limiting plate of integral key, it can restrict to remove the limiting plate position about the integral key shaft.

Wherein the clamping device comprises a rack cavity which is arranged in the disc and has an upward opening, a second rack plate is connected in the rack cavity in a sliding way, a clamping device for clamping the electric wire is fixedly arranged on the upper side of the second rack plate, the clamping device can clamp the electric wire when being positioned at the upper limit position and does not clamp the electric wire when being positioned at the lower limit position, an external gear meshed and connected with the second rack plate is connected on the driving shaft extending into the disc, the outer gear is internally provided with a first clamping cavity in an annular distribution manner, the driving shaft is provided with a first extending cavity in an annular distribution manner, a first rotating shaft is rotatably connected to the left wall of the first extending cavity, a first clamping plate capable of extending into the first clamping cavity and the first extending cavity is fixedly arranged on the first rotating shaft, and a first torsion spring is wound on the first rotating shaft and connected between the right side of the first clamping plate and the driving shaft.

Beneficially, second clamping cavities are annularly distributed in the disc, second extending cavities are annularly distributed on the driving shaft, a second rotating shaft is rotatably connected to the left wall of each second extending cavity, second clamping plates capable of extending into the second clamping cavities and the second extending cavities are fixedly arranged on the second rotating shaft, and a second torsion spring connected between the right side of each second clamping plate and the driving shaft is wound on the second rotating shaft.

The invention has the beneficial effects that: compared with the traditional wire winding mode, firstly, the wire winding mode is realized in an electrically driven mode, secondly, the wire straightening device can automatically straighten out wires and prevent the wire winding from being uneven, in addition, the wire straightening device can automatically pop out after the wire winding is received, and finally, the wire straightening device can reset after the wires are popped out to form a bundle and start the next wire winding.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic view of the overall structure of a multifunctional device for wire winding and bundling according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" in FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" in FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 4, for the sake of convenience of description, the following orientations are now defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a multifunctional device for winding and bundling wires, which is further explained by combining the attached drawings of the invention:

the invention relates to a multifunctional device for bundling wire coils, which comprises a case 11, wherein a belt cavity 22 is arranged in the case 11, a bidirectional motor 25 is fixedly arranged in the right wall of the belt cavity 22, a driving shaft 31 is fixedly arranged on an output shaft on the left side of the bidirectional motor 25, a wire winding cavity 39 positioned on the left side of the belt cavity 22 is arranged in the case 11, a disc 49 is rotatably connected in the right wall of the wire winding cavity 39, the driving shaft 31 extends into the disc 49 and can drive the disc 49 to rotate forwards to wind wires, a delivery cavity 12 which is connected to the left side of the wire winding cavity 39 and has a downward opening is arranged in the case 11, symmetrical sliding cavities 13 are arranged in the front and rear walls of the wire winding cavity 39 and in the delivery cavity 12, sliding plates 51 are slidably connected in the sliding cavities 13, circular ring plates 48 are respectively arranged on the left side and the right side of the disc 49, side grooves 47 are annularly distributed on the circular ring plates 48, the sliding plate 51 is fixedly provided with a clamping device 104 which extends into the side groove 47 so as to connect the sliding plate 51 with the disc 49, a pushing device 101 which can drive the sliding plate 51 to slide along the sliding cavity 13 to drive the annular plate 48 to leave the disc 49 so as to eject the electric wire wound on the disc 49 into the delivery cavity 12 is arranged in the case 11, the bundled electric wire ejected out of the delivery cavity 12 can be output to the outside of the case 11 through an opening on the lower side of the delivery cavity 12, a wire smoothing device 102 which can drive the electric wire to move left and right is arranged in the winding cavity 39, a wire breaking device 103 which can break the electric wire when the disc 49 winds the electric wire to a limit degree is arranged in the case 11, and a clamping device 104 which can clamp the broken electric wire when the driving shaft 31 is driven by the bidirectional motor 25 to rotate reversely is arranged in the disc 49.

According to the embodiment, the pushing device 101 is described in detail below, the pushing device 101 includes a pushing cavity 27 located at the lower side of the belt cavity 22 and at the right side of the winding cavity 39 in the chassis 11, the driving shaft 31 extends into the pushing cavity 27, a driving bevel gear 32 is fixedly disposed on the driving shaft 31 in the pushing cavity 27, a transmission shaft 35 is rotatably connected to the rear wall of the pushing cavity 27, a transmission bevel gear 34 engaged with the driving bevel gear 32 is fixedly disposed on the transmission shaft 35, a pushing outer plate 28 is slidably connected to the bottom wall of the pushing cavity 27, a first rack plate 26 is connected to the upper side of the pushing outer plate 28, a gear 33 engaged with the first rack plate 26 is fixedly disposed on the transmission shaft 35, an inner cavity 30 is disposed in the pushing outer plate 28, and push rod grooves 38 are annularly distributed in the annular plate 48 at the right side, a push rod 36 extending into the push rod groove 38 is slidably connected in the inner cavity 30, a top pressure spring 29 connected between the right wall of the inner cavity 30 and the right side of the push rod 36 is arranged in the inner cavity 30, a swash plate cavity 63 connected to the left side of the push cavity 27 is arranged in the case 11, a sliding swash plate 37 is slidably connected in the swash plate cavity 63, a first rotating shaft 54 with an upward opening is arranged on the push rod 36, the sliding swash plate 37 can extend into the first insertion cavity 64 to clamp the push rod 36, a second insertion cavity 62 with a rightward opening is arranged in the sliding swash plate 37, the first rack plate 26 can move leftward to drive the sliding swash plate 37 to move upward by extruding the second insertion cavity 62, when the bidirectional motor 25 is started, the drive shaft 31 can be driven to rotate forward, and the drive shaft 31 drives the drive shaft 35 to rotate by meshing the drive bevel gear 32 and the drive bevel gear 34, the transmission shaft 35 rotates to drive the first rack plate 26 to move leftward through the meshing of the gear 33 and the first rack plate 26, that is, to drive the push outer plate 28 to move leftward, when the push outer plate 28 moves leftward, the push rod 36 is blocked by the sliding inclined plate 37 and cannot move, so that the top pressure spring 29 is compressed and contracted, when the first rack plate 26 moves leftward until the top pressure second insertion cavity 62 drives the sliding inclined plate 37 to move upward, the sliding inclined plate 37 does not clamp the column push rod 36, and the contracted top pressure spring 29 drives the push rod 36 to move leftward, so that the top pressure annular plate 48 moves leftward, that is, the slide plate 51 is driven to move leftward along the slide cavity 13, so that bundled wires on the circular disc 49 are sent into the outlet cavity 12 and output to the outside of the case 11.

According to an embodiment, the wire smoothing device 102 is described in detail below, the wire smoothing device 102 includes an upper pulley shaft 20 rotatably connected in a right wall of the belt cavity 22, an upper pulley 21 is fixedly arranged on the upper pulley shaft 20, a lower belt 24 is fixedly arranged on the driving shaft 31, a belt 23 is connected between the upper pulley 21 and the lower belt 24, a smoothing shaft 14 is rotatably connected in a left wall of the winding cavity 39, a spline shaft 18 extending out of a right side of the smoothing shaft 14 and splined to the upper pulley shaft 20 is splined in the smoothing shaft 14, a groove 15 is arranged on the smoothing shaft 14, a moving block 16 is slidably connected in a top wall of the winding cavity 39, the moving block 16 can be driven to move left and right by rotation of the smoothing shaft 14, a through hole 46 is arranged in the moving block 16, an electric wire can pass through the through hole 46, when the bidirectional motor 25 is started to drive the driving shaft 31, the driving bevel gear 32 rotates positively to drive the lower belt 24 to rotate positively, the lower belt 24 rotates positively through the belt 23 and the electric upper belt wheel 21 to drive the upper belt wheel shaft 20 to rotate positively, the upper belt wheel shaft 20 rotates positively through the spline to drive the subsequent spline shaft 18 and the wire smoothing shaft 14 to rotate, so that the moving block 16 is driven to move left and right through the groove 15, namely, the electric wire is driven to move left and right to achieve the effect of wire smoothing, and the uneven winding of the electric wire is prevented.

According to the embodiment, the following detailed description is given to the wire breaking device 103, the wire breaking device 103 includes a moving cavity 17 disposed in the case 11 and connected to the right side of the winding cavity 39, a moving rod 65 is slidably connected to the bottom wall of the moving cavity 17, the left side of the moving rod 65 is fixedly provided with a blade 44 extending into the right side of the annular plate 48 in the side groove 47, the blade 44 is used for cutting the electric wire, a moving limiting plate 19 is disposed in the moving cavity 17 and fixed on the upper side of the moving rod 65 and rotatably connected to the spline shaft 18, the moving limiting plate 19 can limit the left and right positions of the spline shaft 18, when the annular plate 48 moves left, the blade 44 can be driven by the side groove 47 to move left to cut the electric wire passing through the opening 46, and meanwhile, the blade 44 moves left to drive the moving limiting plate 19 to move left by driving the moving rod 65 to move left to drive the spline shaft 18 to move left so that the spline shaft 18 The rotation of the axle 20, i.e., the upper pulley axle 20, does not rotate the spline shaft 18.

According to an embodiment, the gripping device 104 is described in detail below, the gripping device 104 includes a rack cavity 40 with an upward opening, the rack cavity 40 is slidably connected with a second rack plate 41, a gripper 43 for gripping an electric wire is fixedly arranged on an upper side of the second rack plate 41, the gripper 43 can grip the electric wire when located at an upper limit position, and does not grip the electric wire when located at a lower limit position, an outer gear 42 engaged with the second rack plate 41 is connected to the driving shaft 31 extending into the disk 49, a first clamping cavity 52 is annularly arranged in the outer gear 42, a first extending cavity 53 is annularly arranged on the driving shaft 31, a first rotating shaft 54 is rotatably connected to a left wall of the first extending cavity 53, a first clamping plate 55 capable of extending into the first clamping cavity 52 and the first extending cavity 53 is fixedly arranged on the first rotating shaft 54, the first torsion spring 56 is wound around the first rotating shaft 54 and connected between the right side of the first clamping plate 55 and the driving shaft 31, when the two-way motor 25 is started to drive the driving shaft 31 to rotate forward, because the second rack plate 41 is located at the lower limit position in the rack cavity 40, the driving shaft 31 rotates forward to press the first clamping plate 55 so as to leave the first clamping cavity 52 and extend into the first extending cavity 53, i.e. the first clamping plate cannot drive the outer gear 42 to rotate, when the two-way motor 25 is started to drive the driving shaft 31 to rotate backward, the driving shaft 31 rotates backward to enable the first clamping plate 55 to extend into the first clamping cavity 52 and drive the outer gear 42 to rotate, and the outer gear 42 rotates to drive the second rack plate 41 to move upward by meshing with the second rack plate 41 so as to drive the clamping device 43 to move upward to the same height position as the passing opening 46 so as to clamp.

Advantageously, a second clamping cavity 57 is annularly arranged in the disc 49, a second extending cavity 61 is annularly arranged in the driving shaft 31, a second rotating shaft 59 is rotatably connected to the left wall of the second extending cavity 61, a second clamping plate 60 capable of extending into the second clamping cavity 57 and the second extending cavity 61 is fixedly arranged on the second rotating shaft 59, a second torsion spring 58 connected between the right side of the second clamping plate 60 and the driving shaft 31 is wound on the second rotating shaft 59, when the bidirectional motor 25 is started to drive the driving shaft 31 to rotate forwards, the second clamping plate 60 on the driving shaft 31 extends into the second clamping cavity 57 so that the driving shaft 31 rotates forwards to drive the disc 49 to rotate for winding the electric wires, when the bidirectional motor 25 is started to drive the driving shaft 31 to rotate backwards, the second clamping plate 60 is squeezed out of the second clamping cavity 57 and extends into the second extending cavity 61 due to the smaller force of the second torsion spring 58, i.e. the drive shaft 31 is not able to rotate the disc 49 in reverse.

The following describes in detail the use steps of a multifunctional device for wire winding and bundling according to the present disclosure with reference to fig. 1 to 4: in the initial state, the push outer plate 28 is in the right limit state, the slide swash plate 37 is in the lower limit state, the spline shaft 18 is spline-connected to the upper pulley shaft 20, the second rack plate 41 is in the lower limit position, and the slide plate 51 is in the right limit position.

When the wire winding is to be carried out, the bidirectional motor 25 is started to drive the driving shaft 31 to rotate forwards, the driving shaft 31 can drive the disc 49 to rotate forwards so as to carry out the wire winding, meanwhile, the driving bevel gear 32 rotates forwards to drive the lower belt 24 to rotate forwards, the lower belt 24 rotates forwards through the belt 23 and the electric upper belt wheel 21 to drive the upper belt wheel shaft 20 to rotate forwards, the upper belt wheel shaft 20 rotates forwards through the spline to drive the subsequent spline shaft 18 and the wire smoothing shaft 14 to rotate so as to drive the moving block 16 to move left and right through the groove 15, namely, the wire is driven to move left and right to achieve the wire smoothing effect, the wire winding is prevented from being uneven, meanwhile, the driving shaft 31 rotates forwards through the engagement of the driving bevel gear 32 and the driving bevel gear 34 to drive the transmission shaft 35 to rotate, the transmission shaft 35 can drive the first rack, when the outer plate 28 is pushed to move leftwards, the push rod 36 is blocked by the sliding inclined plate 37 and cannot move, so that the top pressure spring 29 is pressed to contract, when the first rack plate 26 moves leftwards to drive the sliding inclined plate 37 to move upwards through the top pressure second insertion cavity 62, the sliding inclined plate 37 is not clamped with the push rod 36, the contracted top pressure spring 29 drives the push rod 36 to move leftwards, so that the top pressure circular plate 48 moves leftwards, namely, the sliding plate 51 is driven to move leftwards along the sliding cavity 13, so that the bundled wires on the circular disc 49 are sent into the goods outlet cavity 12 and output to the outside of the case 11.

When resetting is to be carried out, the bidirectional motor 25 is started to drive the driving shaft 31 to rotate reversely, the driving shaft 31 rotates reversely to drive the push outer plate 28 to move rightwards until the original position is reached, the circular ring plate 48 moves rightwards correspondingly to the original position, the circular ring plate 48 moves rightwards to drive the blades 44 to move rightwards to the original position, the blades 44 move rightwards to drive the spline shaft 18 to move rightwards through the moving limiting plate 19 so that the spline shaft 18 is connected with the upper belt wheel shaft 20 in a spline mode, namely, the upper belt wheel shaft 20 can drive the spline shaft 18 to rotate, meanwhile, the driving shaft 31 rotates reversely to enable the first clamping plate 55 to extend into the first clamping cavity 52 and drive the outer gear 42 to rotate, the outer gear 42 rotates to drive the second rack plate 41 to move upwards through the meshing with the second rack plate 41 so as to drive the clamping device 43 to move upwards to, and after the resetting is finished, the next wire winding can be carried out.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. A multi-functional device for wire winding is in bundle, includes quick-witted case, its characterized in that: the machine is internally provided with a belt cavity, a bidirectional motor is fixedly arranged in the right wall of the belt cavity, a driving shaft is fixedly arranged on an output shaft on the left side of the bidirectional motor, the machine is internally provided with a winding cavity on the left side of the belt cavity, a disc is connected in the right wall of the winding cavity in a rotating manner, the driving shaft extends into the disc and can drive the disc to positively rotate to perform electric wire winding, the machine is internally provided with a delivery cavity which is connected with the left side of the winding cavity and has a downward opening, the delivery cavity and sliding cavities which are symmetrical are arranged in the front wall and the rear wall of the winding cavity, sliding plates are connected in the sliding cavities in a sliding manner, ring plates are respectively arranged on the left side and the right side of the disc, side grooves are annularly distributed on the ring plates, the sliding plates are fixedly arranged on the sliding plates and extend into the side grooves to enable the sliding plates to be connected with the disc, and the machine is internally provided with a sliding plate which The electric wire on the disc is popped to the pushing device in the discharging cavity, the bundled electric wire popped out of the discharging cavity can be output to the outside of the case through an opening on the lower side of the discharging cavity, a wire smoothing device capable of driving the electric wire to move left and right is arranged in the winding cavity, a wire breaking device capable of cutting off the electric wire when the electric wire is wound around to a limit degree by the disc is arranged in the case, and a clamping device capable of clamping the broken electric wire when the bidirectional motor drives the driving shaft to rotate reversely is arranged in the disc.

2. A multi-function device for wire winding and bundling in accordance with claim 1, characterized in that: the pushing device comprises a pushing cavity which is arranged in the case, is positioned at the lower side of the belt cavity and is positioned at the right side of the winding cavity, the driving shaft extends into the pushing cavity, a driving bevel gear is fixedly arranged on the driving shaft in the pushing cavity, a transmission shaft is rotatably connected to the rear wall of the pushing cavity, a transmission bevel gear which is meshed with the driving bevel gear is fixedly arranged on the transmission shaft, a pushing outer plate is slidably connected to the bottom wall of the pushing cavity, a first rack plate is connected to the upper side of the pushing outer plate, a gear which is meshed with the first rack plate is fixedly arranged on the transmission shaft, an inner cavity is arranged in the pushing outer plate, push rod grooves are annularly distributed in the circular plate at the right side of the pushing cavity, a pushing rod which extends into the push rod grooves is slidably connected in the inner cavity, and a jacking spring which is connected between the right wall, the quick-witted incasement be equipped with connect in promote the left swash plate chamber in chamber, swash plate intracavity sliding connection has the slip swash plate, be equipped with the ascending first pivot of opening on the catch bar, thereby the slip swash plate can stretch into thereby the first intracavity that inserts blocks the catch bar, it inserts the chamber to be equipped with the second that the opening is right in the slip swash plate, thereby first rack board moves left can be through the extrusion the second inserts the chamber and drives the slip swash plate rebound.

3. A multi-function device for wire winding and bundling in accordance with claim 1, characterized in that: smooth out with fingers the line device including rotate connect in last band pulley axle in the right wall of belt chamber, last band pulley is epaxial to set firmly, the drive shaft has set firmly down the belt, go up the band pulley with be connected with the belt down between the belt, the spool is smoothed out with the fingers to the left wall internal rotation of wire winding chamber, smooth out spool internal spline connection has and stretches out smooth out spool right side and splined connection in the integral key shaft of last band pulley axle, smooth out the epaxial recess that is equipped with of spool, sliding connection has the movable block in the wire winding chamber roof, smooth out the spool rotation can drive the movable block is made a round trip to remove, be equipped with the mouth that passes through in the movable block, pass through the electric wire in the mouth.

4. A multi-function device for wire winding and bundling in accordance with claim 1, characterized in that: the wire cutting device comprises a machine case, a wire winding cavity, a movable rod, a circular ring plate, a blade, a movable limiting plate, a wire cutting device and a wire cutting device, wherein the machine case is internally provided with a movable cavity, the movable cavity is arranged on the right side of the wire winding cavity, the movable rod is connected to the bottom wall of the movable cavity in a sliding mode, the left side of the movable rod is fixedly provided with the movable rod, the movable rod extends into the right side of the circular ring plate, the blade is arranged in a side groove and is used for cutting an electric wire, the movable cavity is.

5. A multi-function device for wire winding and bundling in accordance with claim 1, characterized in that: the clamping device comprises a rack cavity which is arranged in the disc and provided with an upward opening, a second rack plate is connected in the rack cavity in a sliding way, a clamping device for clamping the electric wire is fixedly arranged on the upper side of the second rack plate, the clamping device can clamp the electric wire when being positioned at the upper limit position and does not clamp the electric wire when being positioned at the lower limit position, an external gear meshed and connected with the second rack plate is connected on the driving shaft extending into the disc, the outer gear is internally provided with a first clamping cavity in an annular distribution manner, the driving shaft is provided with a first extending cavity in an annular distribution manner, a first rotating shaft is rotatably connected to the left wall of the first extending cavity, a first clamping plate capable of extending into the first clamping cavity and the first extending cavity is fixedly arranged on the first rotating shaft, and a first torsion spring is wound on the first rotating shaft and connected between the right side of the first clamping plate and the driving shaft.

6. A multi-function device for wire winding and bundling in accordance with claim 1, characterized in that: be the annular distribution in the disc and be equipped with second card chamber, it stretches into the chamber to be the annular distribution in the drive shaft and be equipped with the second, the second stretches into the chamber left wall internal rotation and is connected with the second pivot, set firmly in the second pivot can stretch into second card chamber with the second stretches into the second cardboard of intracavity, the winding has in the second pivot connect in second cardboard right side with the second torsional spring between the drive shaft.