CN217650595U - Automatic reciprocating winding device for insulated electromagnetic wire of high-power generator - Google Patents

Abstract

An automatic reciprocating winding device of an insulated electromagnetic wire of a high-power generator comprises a winding device and a reciprocating device; reciprocating motion device includes supporting platform, horizontal migration device, U type support frame, guide roll and last spacing roller down, horizontal migration device can drive U type support frame along horizontal direction reciprocating motion, guide roll and last spacing roller all set up on U type support frame down to the guide roll is located the spacing roller under down, can pass the electromagnetism line between guide roll and the last spacing roller down. The utility model discloses an automatic reciprocating winding device of insulating electromagnetic wire of high-power generator drives down the reciprocating motion of the electromagnetic wire between guide roll and the last spacing roller through the horizontal migration device for the electromagnetic wire makes the even encircleing of electromagnetic wire at the bobbin surface around rolling up horizontal direction reciprocating motion in-process at the coiling mechanism, makes the electromagnetic wire after the bobbin rolling reach the standard of using, has improved the work efficiency and the rolling quality of electromagnetic wire rolling.

Description

Automatic reciprocating winding device for insulated electromagnetic wire of high-power generator

Technical Field

The utility model belongs to the technical field of aluminium, copper, magnesium, titanium alloy cleaner production and deep-processing, specifically, relate to an automatic reciprocating coiling mechanism of insulating electromagnetic wire of high-power generator.

Background

Electromagnetic wires are insulated electrical wires used to make coils or windings in electrical products. Also known as winding wire. Magnet wires must meet a variety of requirements for use and manufacturing processes. The general purpose of the electromagnetic wire is mainly used for motors, electric appliances, instruments, transformers and the like, the electromagnetic effect is generated by winding coils, and the aim of converting electric energy and magnetic energy is fulfilled by utilizing the electromagnetic induction principle.

With the continuous development of economy, the modern industry in China shows a high-speed growth development trend, the development speed of the generator industry is high, the demand of the generator on electromagnetic wires is relatively high, and the quality requirement on the electromagnetic wires is relatively high. The electromagnetic wire is one of core materials of the high-power generator, and the performance of the electromagnetic wire plays an important role in the overall performance of the high-power generator.

In the winding process of the electromagnetic wire, the winding device is often needed for winding, how to disassemble the wound coil from the winding device, and how to uniformly wind the electromagnetic wire in the process of winding the electromagnetic wire on the winding drum, which is a difficult problem in the production link.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing an automatic reciprocating winding device of insulating electromagnetic wire of high-power generator has solved the electromagnetic wire rolling in-process, how to make the even winding of electromagnetic wire on the bobbin to and how to unload the problem that gets off from the coiling mechanism with the coil that the wire winding was accomplished.

The technical scheme is as follows: the utility model provides an automatic reciprocating winding device of an insulated electromagnetic wire of a high-power generator, which comprises a winding device and a reciprocating device, wherein the reciprocating device is positioned in front of the winding direction of the winding device; the reciprocating device comprises a supporting platform, a horizontal moving device, a U-shaped supporting frame, a lower guide roller and an upper limiting roller, wherein the horizontal moving device is fixedly arranged on the supporting platform, the U-shaped supporting frame is connected with the horizontal moving device, the horizontal moving device can drive the U-shaped supporting frame to reciprocate along the horizontal direction, the lower guide roller and the upper limiting roller are both arranged on the U-shaped supporting frame, the lower guide roller is positioned under the upper limiting roller, and an electromagnetic wire can pass through the lower guide roller and the upper limiting roller. The utility model discloses an automatic reciprocating winding device of insulating electromagnetic wire of high-power generator drives down the reciprocating motion of the electromagnetic wire between guide roll and the last spacing roller through the horizontal migration device for the electromagnetic wire makes the even encircleing of electromagnetic wire at the bobbin surface around rolling up horizontal direction reciprocating motion in-process at the coiling mechanism, makes the electromagnetic wire after the bobbin rolling reach the standard of using, has improved the work efficiency and the rolling quality of electromagnetic wire rolling.

Furthermore, according to the automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator, the first groove is formed in the outer circumference of the lower guide roller, the second groove is formed in the outer circumference of the upper limiting roller, and the electromagnetic wire is arranged in the first groove and the second groove. The first groove and the second groove can enable the electromagnetic wire to be limited at two ends of the lower guide roller and the upper limiting roller in the axial direction, and the electromagnetic wire is prevented from slipping from the lower guide roller and the upper limiting roller.

Furthermore, foretell automatic reciprocating rolling device of insulating magnet wire of high-power generator, horizontal migration device includes horizontal driving motor one, pivot one, horizontal driving action wheel, horizontal driving from the driving wheel, gear area one, horizontal driving lead screw, a set of screw-nut and horizontal support plate one, shaft coupling and pivot one are passed through in the pivot of horizontal driving motor one and are connected, the horizontal driving action wheel passes through key and pivot one and connects, the gear area is set up at horizontal driving action wheel and horizontal driving from the driving wheel, horizontal driving is connected from the one end of key and horizontal driving lead screw, a set of screw-nut and horizontal driving lead screw threaded connection, horizontal support plate one and a set of screw-nut fixed connection, U type support frame is fixed to be set up on horizontal support plate one. Through the switching of the positive and negative rotation of the horizontal driving motor, the direction of the horizontal movement can be flexibly changed, so that the horizontal reciprocating movement of the lower guide roller and the upper limiting roller is realized, and the electromagnetic wire is driven to reciprocate.

Further, according to the automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator, the lead screw nut is connected with the guide sliding plate, the upper table top of the supporting platform is provided with two parallel linear guide rails, the two parallel linear guide rails are parallel to the axis of the horizontal driving lead screw, the two parallel linear guide rails are respectively located on two sides of the horizontal driving lead screw, the guide sliding plate is connected with the guide sliding block, and the guide sliding block is connected with the linear guide rails in a sliding manner. The two parallel linear guide rails provide sliding support and guide, so that the horizontal moving device is more stable and reliable in the horizontal moving process.

Furthermore, the automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator is characterized in that the supporting platform is provided with a rotating shaft supporting seat, and the first rotating shaft is arranged on the rotating shaft supporting seat. The rotating shaft supporting seat is used for supporting the rotating shaft I, so that the rotating shaft I rotates.

Further, the automatic reciprocating winding device of the insulating electromagnetic wire of the high-power generator comprises a winding driving assembly, a second rotating shaft supporting seat, a third rotating shaft supporting seat, a driving winding shaft, a driven winding shaft, a first winding disc, a second winding disc and a winding machine table, wherein the winding driving assembly, the second rotating shaft supporting seat and the third rotating shaft supporting seat are all arranged on the winding machine table, the winding driving assembly is connected with the driving winding shaft, the driving winding shaft is arranged on the second rotating shaft supporting seat, the driven winding shaft is arranged on the third rotating shaft supporting seat, the first winding disc is connected with the driving winding shaft, the second winding disc is connected with the driven winding shaft, and the first winding disc and the second winding disc are symmetrically arranged. The winding device adopts the separated winding disc I and the winding disc II, and the winding reel can be conveniently mounted and dismounted.

Furthermore, in the automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator, the axes of the driving winding shaft and the driven winding shaft are positioned on the same straight line. The driving winding shaft and the driven winding shaft are located on the same axis, so that the first winding disc and the second winding disc which are identical in structure are located on the same straight line, and two ends of the winding drum are conveniently connected with the first winding disc and the second winding disc.

Further, foretell automatic reciprocating rolling device of insulating electromagnetic wire of high-power generator, rolling drive assembly includes rolling driving motor, speed reducer, rolling pivot, rolling action wheel, gear area two and rolling from the driving wheel, rolling driving motor and speed reducer are connected, speed reducer and rolling pivot are connected, the rolling action wheel passes through the key and is connected with the rolling pivot, gear area two is established at rolling action wheel and rolling from the driving wheel, the rolling is connected with the initiative rolling axle from the driving wheel through the key. The winding driving motor can flexibly set the rotating speed according to the working requirement to carry out winding of the electromagnetic wire.

Further, foretell automatic reciprocating rolling device of insulating electromagnetic wire of high-power generator, the structure of rolling dish one is the same with rolling dish two to rolling dish one and rolling dish two all include sleeve, a set of pin, drum and a set of wrapping post, the sleeve cover is established on initiative rolling axle and driven rolling axle, a set of pin sets up on the sleeve to a set of pin passes the sleeve and offsets with the outer wall of initiative rolling axle and driven rolling axle, drum and sleeve fixed connection, the one end setting of a set of wrapping post is on the drum. The sleeve is of a split type connecting structure with the driving winding shaft and the driven winding shaft, the sleeve is fixed through a group of pins, and the wire coil is convenient to install.

Further, according to the automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator, the wire coil is a disc, the wire coil is coaxially arranged with the driving winding shaft and the driven winding shaft, and the group of winding posts are arranged in an annular array mode by taking the center of the wire coil as the center of a circle.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has: automatic reciprocating winding device of insulating electromagnetic wire of high-power generator, through reciprocating motion device in coiling mechanism the place ahead along bobbin axis direction reciprocating motion, can be with electromagnetic wire layer by layer even winding on the bobbin, avoided rolling in-process electromagnetic wire to pile up together, the coiling mechanism that sets up makes things convenient for operating personnel to install and dismantle in addition, makes electromagnetic wire rolling efficiency obtain improving.

Drawings

Fig. 1 is a schematic structural view of an automatic reciprocating winding device for insulated electromagnetic wires of a high-power generator according to the present invention;

fig. 2 is a front view of the reciprocating device of the present invention;

fig. 3 is a side view of the shuttle of the present invention;

fig. 4 is the structure diagram of the winding device of the present invention.

In the figure: the winding device comprises a winding device 1, a winding driving component 11, a winding driving motor 111, a speed reducer 112, a winding rotating shaft 113, a winding driving wheel 114, a gear belt II 115, a winding driven wheel 116, a rotating shaft supporting seat II 12, a rotating shaft supporting seat III 13, a driving winding shaft 14, a driven winding shaft 15, a winding disc I16, a sleeve 161, a pin 162, a wire coil 163, a wire winding column 164, a winding disc II 17, a winding machine table 18, a reciprocating device 2, a supporting platform 21, a linear guide rail 211, a guide slider 212, a rotating shaft supporting seat 213, a horizontal moving device 22, a horizontal driving motor I221, a rotating shaft I222, a horizontal driving wheel 223, a horizontal driving driven wheel 224, a gear belt I225, a horizontal driving screw rod 226, a screw rod nut 227, a horizontal supporting plate I228, a guide sliding plate 229, a U-shaped supporting frame 23, a lower guide roller 24, a groove I241, an upper limit roller 25 and a groove II 251.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example one

The automatic reciprocating winding device of the insulated electromagnetic wire of the high-power generator shown in fig. 1 comprises a winding device 1 and a reciprocating device 2, wherein the reciprocating device 2 is positioned in front of the winding device 1 in the winding direction. The winding device 1 provides traction force, and the electromagnetic wire is continuously wound on the winding device 1, and meanwhile, the moving direction of the reciprocating device 2 and the axis direction of the coil on the winding device 1 are the same, so that the electromagnetic wire is uniformly wound in the reciprocating moving process of the reciprocating device 2 along the axis direction of the coil on the winding device 1.

The reciprocating device 2 shown in fig. 2 and 3 includes a supporting platform 21, a horizontal moving device 22, a U-shaped supporting frame 23, a lower guide roller 24 and an upper limit roller 25, wherein the horizontal moving device 22 is fixedly disposed on the supporting platform 21, the U-shaped supporting frame 23 is connected with the horizontal moving device 22, the horizontal moving device 22 can drive the U-shaped supporting frame 23 to reciprocate along the horizontal direction, the lower guide roller 24 and the upper limit roller 25 are both disposed on the U-shaped supporting frame 23, the lower guide roller 24 is disposed right below the upper limit roller 25, and electromagnetic wires can pass between the lower guide roller 24 and the upper limit roller 25. The outer circumference of the lower guide roller 24 is provided with a first groove 241, the outer circumference of the upper limiting roller 25 is provided with a second groove 251, and the electromagnetic wire is arranged in the first groove 241 and the second groove 251. The horizontal movement device 22 drives the lower guide roller 24 and the upper limit roller 25 to reciprocate along the axial direction of the coil on the winding device 1.

In the above structure, the horizontal moving device 22 includes a first horizontal driving motor 221, a first rotating shaft 222, a first horizontal driving wheel 223, a second horizontal driving driven wheel 224, a first gear belt 225, a horizontal driving screw 226, a set of screw nuts 227, and a first horizontal supporting plate 228, the rotating shaft of the first horizontal driving motor 221 is connected with the first rotating shaft 222 through a coupling, the first horizontal driving wheel 223 is connected with the first rotating shaft 222 through a key, the first gear belt 225 is sleeved on the horizontal driving wheel 223 and the horizontal driving driven wheel 224, the horizontal driving driven wheel 224 is connected with one end of the horizontal driving screw rod 226 through a key, the group of screw rod nuts 227 are in threaded connection with the horizontal driving screw rod 226, the first horizontal supporting plate 228 is fixedly connected with the group of screw rod nuts 227, and the U-shaped supporting frame 23 is fixedly arranged on the first horizontal supporting plate 228.

The screw rod nut 227 is connected with a guide sliding plate 229, the upper table top of the supporting platform 21 is provided with two parallel linear guide rails 211, the axes of the two parallel linear guide rails 211 are parallel to the axis of the horizontal driving screw rod 226, the two parallel linear guide rails 211 are respectively positioned at two sides of the horizontal driving screw rod 226, the guide sliding plate 229 is connected with a guide sliding block 212, and the guide sliding block 212 is connected with the linear guide rails 211 in a sliding manner.

In addition, the supporting platform 21 is provided with a rotating shaft supporting seat 213, and the first rotating shaft 222 is disposed on the rotating shaft supporting seat 213.

The first horizontal driving motor 221 drives the horizontal driving screw 226 to rotate through the transmission of the first rotating shaft 222, the first horizontal driving wheel 223, the second horizontal driving driven wheel 224 and the first gear belt 225, so that the group of screw nuts 227 move along the axial direction of the horizontal driving screw 226.

Example two

The winding device 1 shown in fig. 4 comprises a winding driving assembly 11, a second rotating shaft supporting seat 12, a third rotating shaft supporting seat 13, a driving winding shaft 14, a driven winding shaft 15, a first winding disc 16, a second winding disc 17 and a winding machine table 18, wherein the winding driving assembly 11, the second rotating shaft supporting seat 12 and the third rotating shaft supporting seat 13 are all arranged on the winding machine table 18, the winding driving assembly 11 is connected with the driving winding shaft 14, the driving winding shaft 14 is arranged on the second rotating shaft supporting seat 12, the driven winding shaft 15 is arranged on the third rotating shaft supporting seat 13, the first winding disc 16 is connected with the driving winding shaft 14, the second winding disc 17 is connected with the driven winding shaft 15, and the first winding disc 16 and the second winding disc 17 are symmetrically arranged. And the axes of the driving winding shaft 14 and the driven winding shaft 15 are on the same straight line. The bobbins of the electromagnetic wire are respectively sleeved on the first winding disc 16 and the second winding disc 17, so that the driven winding shaft 15 rotates along with the driving winding shaft 14 in the process that the driving winding shaft 14 is driven by the winding driving component 11 to rotate.

In the above structure, rolling drive assembly 11 includes rolling driving motor 111, speed reducer 112, rolling pivot 113, rolling action wheel 114, gear belt two 115 and rolling from driving wheel 116, rolling driving motor 111 and speed reducer 112 are connected, speed reducer 112 and rolling pivot 113 are connected, rolling action wheel 114 passes through the key and is connected with rolling pivot 113, two 115 covers of gear belt are established on rolling action wheel 114 and rolling from driving wheel 116, rolling from driving wheel 116 passes through the key and is connected with initiative rolling axle 14.

The winding driving motor 111 drives the driving winding shaft 14 to rotate through the transmission of the winding rotating shaft 113, the winding driving wheel 114, the gear belt II 115 and the winding driven wheel 116.

In addition, the structure of the first winding disc 16 and the second winding disc 17 is the same, each of the first winding disc 16 and the second winding disc 17 comprises a sleeve 161, a set of pins 162, a wire coil 163 and a set of winding posts 164, the sleeve 161 is sleeved on the driving winding shaft 14 and the driven winding shaft 15, the set of pins 162 are arranged on the sleeve 161, the set of pins 162 penetrate through the sleeve 161 to abut against the outer walls of the driving winding shaft 14 and the driven winding shaft 15, the wire coil 163 is fixedly connected with the sleeve 161, and one end of the set of winding posts 164 is arranged on the wire coil 163. The sleeve 161 is sleeved on the driving winding shaft 14 and the driven winding shaft 15, and a group of pins 162 are screwed, so that the first winding disc 16 and the second winding disc 17 are fixedly connected with the driving winding shaft 14 and the driven winding shaft 15 respectively, when the driving winding shaft 14 rotates, the first winding disc 16 is driven to rotate, the first winding disc 16 and the second winding disc 17 are sleeved with the winding drums, and therefore the first winding disc 16 and the second winding disc 17 synchronously rotate to wind the electromagnetic wire.

In addition, the wire coil 163 is a circular disk, and the wire coil 163 is disposed coaxially with the driving winding shaft 14 and the driven winding shaft 15, and the group of winding posts 164 are disposed in an annular array around the center of the wire coil 163.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic reciprocating coiling mechanism of insulating magnet wire of high-power generator which characterized in that: the winding device comprises a winding device (1) and a reciprocating device (2), wherein the reciprocating device (2) is positioned in front of the winding direction of the winding device (1);

the reciprocating device (2) comprises a supporting platform (21), a horizontal moving device (22), a U-shaped supporting frame (23), a lower guide roller (24) and an upper limiting roller (25), wherein the horizontal moving device (22) is fixedly arranged on the supporting platform (21), the U-shaped supporting frame (23) is connected with the horizontal moving device (22), the horizontal moving device (22) can drive the U-shaped supporting frame (23) to reciprocate in the horizontal direction, the lower guide roller (24) and the upper limiting roller (25) are both arranged on the U-shaped supporting frame (23), the lower guide roller (24) is located under the upper limiting roller (25), and electromagnetic wires can pass through between the lower guide roller (24) and the upper limiting roller (25).

2. The automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator as claimed in claim 1, wherein: a first groove (241) is formed in the outer circumference of the lower guide roller (24), a second groove (251) is formed in the outer circumference of the upper limiting roller (25), and the electromagnetic wire is arranged in the first groove (241) and the second groove (251).

3. The automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator as claimed in claim 1 or 2, wherein: the horizontal moving device (22) comprises a horizontal driving motor I (221), a rotating shaft I (222), a horizontal driving wheel (223), a horizontal driving driven wheel (224), a gear belt I (225), a horizontal driving screw rod (226), a group of screw rod nuts (227) and a horizontal supporting plate I (228), wherein the rotating shaft of the horizontal driving motor I (221) is connected with the rotating shaft I (222) through a coupler, the horizontal driving wheel (223) is connected with the rotating shaft I (222) through a key, the gear belt I (225) is sleeved on the horizontal driving wheel (223) and the horizontal driving driven wheel (224), the horizontal driving driven wheel (224) is connected with one end of the horizontal driving screw rod (226) through a key, the group of screw rod nuts (227) are in threaded connection with the horizontal driving screw rod (226), the horizontal supporting plate I (228) is fixedly connected with the group of screw rod nuts (227), and the U-shaped supporting frame (23) is fixedly arranged on the horizontal supporting plate I (228).

4. The automatic reciprocating winding device of the insulated electromagnetic wire of the high-power generator as claimed in claim 3, characterized in that: the lead screw nut (227) is connected with a guide sliding plate (229), two parallel linear guide rails (211) are arranged on the upper table top of the supporting platform (21), the two parallel linear guide rails (211) are parallel to the axis of the horizontal driving lead screw (226), the two parallel linear guide rails (211) are respectively positioned on two sides of the horizontal driving lead screw (226), a guide sliding block (212) is connected to the guide sliding plate (229), and the guide sliding block (212) is connected with the linear guide rails (211) in a sliding mode.

5. The automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator as claimed in claim 4, wherein: the supporting platform (21) is provided with a rotating shaft supporting seat (213), and the first rotating shaft (222) is arranged on the rotating shaft supporting seat (213).

6. The automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator as claimed in claim 1, wherein: the winding device (1) comprises a winding driving assembly (11), a second spindle supporting seat (12), a third spindle supporting seat (13), a driving winding shaft (14), a driven winding shaft (15), a first winding disc (16), a second winding disc (17) and a winding machine table (18), wherein the winding driving assembly (11), the second spindle supporting seat (12) and the third spindle supporting seat (13) are all arranged on the winding machine table (18), the winding driving assembly (11) is connected with the driving winding shaft (14), the driving winding shaft (14) is arranged on the second spindle supporting seat (12), the driven winding shaft (15) is arranged on the third spindle supporting seat (13), the first winding disc (16) is connected with the driving winding shaft (14), the second winding disc (17) is connected with the driven winding shaft (15), and the first winding disc (16) and the second winding disc (17) are symmetrically arranged.

7. The automatic reciprocating winding device of the insulated electromagnetic wire of the high-power generator as claimed in claim 6, wherein: the axes of the driving winding shaft (14) and the driven winding shaft (15) are in the same straight line.

8. The automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator as claimed in claim 7, wherein: rolling drive assembly (11) are including rolling driving motor (111), speed reducer (112), rolling pivot (113), rolling action wheel (114), gear belt two (115) and rolling from driving wheel (116), rolling driving motor (111) and speed reducer (112) are connected, speed reducer (112) and rolling pivot (113) are connected, rolling action wheel (114) are connected through key and rolling pivot (113), gear belt two (115) cover is established on rolling action wheel (114) and rolling from driving wheel (116), rolling from driving wheel (116) is connected through key and initiative rolling axle (14).

9. The automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator as claimed in claim 8, wherein: the structure of the first winding disc (16) is the same as that of the second winding disc (17), the first winding disc (16) and the second winding disc (17) both comprise a sleeve (161), a group of pins (162), a wire coil (163) and a group of winding posts (164), the sleeve (161) is sleeved on the driving winding shaft (14) and the driven winding shaft (15), the group of pins (162) is arranged on the sleeve (161), the group of pins (162) penetrate through the sleeve (161) to abut against the outer walls of the driving winding shaft (14) and the driven winding shaft (15), the wire coil (163) is fixedly connected with the sleeve (161), and one end of the group of winding posts (164) is arranged on the wire coil (163).

10. The automatic reciprocating winding device for the insulated electromagnetic wire of the high-power generator as claimed in claim 9, wherein: the wire coil (163) is a disc, the wire coil (163) is coaxially arranged with the driving winding shaft (14) and the driven winding shaft (15), and the group of winding posts (164) are arranged in an annular array mode by taking the center of the wire coil (163) as the center of a circle.

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