CN118136399B

CN118136399B - Winding and unwinding device and method for winding of transformer coil

Info

Publication number: CN118136399B
Application number: CN202410298347.2A
Authority: CN
Inventors: 刘加慧; 夏金海; 吴志风
Original assignee: Dongtai Zhongshengxin Electronics Co ltd
Current assignee: Dongtai Zhongshengxin Electronics Co ltd
Priority date: 2024-03-15
Filing date: 2024-03-15
Publication date: 2025-04-08
Anticipated expiration: 2044-03-15
Also published as: CN118136399A

Abstract

The invention discloses a winding and unwinding device and a winding and unwinding method for winding a transformer coil, comprising a base component and a winding and unwinding mechanism, wherein a sliding mechanism assembled by bolts is arranged above two ends of the base component, positioning components assembled by bolts are arranged on two sides of a moving end of the sliding mechanism, and the winding and unwinding mechanism assembled by bolts is arranged on the top side of the positioning components. The device mainly comprises a fixed connecting rod arranged on the top side of a sleeve shell, wherein pneumatic hinge rods below two ends of the fixed connecting rod are used for outputting power to drive an output end to perform telescopic operation, so that under the cooperation of a hydraulic telescopic arm and a hinge base, the interaction between the hydraulic telescopic arm and a positioning part can be enabled to be oriented to a direction in which discharging is required, and then the wire ends can be effectively subjected to wire connection discharging under the transmission of a hinge of a mechanical arm and a mechanical clamp, so that the processing efficiency of equipment is improved, and the input and the work burden of labor cost are reduced.

Description

Winding and unwinding device and method for winding of transformer coil

Technical Field

The invention relates to the technical field of winding of a transformer coil, in particular to a winding and unwinding device and method for winding the transformer coil.

Background

The transformer is a common power equipment component, the working principle of which is a device for converting alternating voltage, alternating current and impedance, when alternating current is passed through a primary coil, alternating magnetic flux is generated in an iron core or a magnetic core, so that voltage or current is induced in a secondary coil, the transformer coil is one of main components in the transformer, and currently, when the transformer coil is wound, a wire coil wound with copper wires needs to be limited on a supporting structure.

When the existing winding and unwinding device and method are used, as in the technical field of transformer production, application number CN202110115323.5 relates to a winding and unwinding device for winding a transformer coil, and the winding and unwinding device comprises a carrier plate, wherein a shaft rod which is transversely arranged is rotatably arranged at the upper position of one side surface of the carrier plate, a wire coil is arranged on the shaft rod, a transverse cylinder body is arranged at the lower position of one side surface of the carrier plate, one end of the transverse cylinder body penetrates through the carrier plate and is provided with a vertical cylinder body, the upper end of the vertical cylinder body is provided with a ring, the lower position in the ring is provided with an arc-shaped clamping plate, and one side, far away from the vertical cylinder body, in the transverse cylinder body is provided with a first piston.

Disclosure of Invention

According to the winding and unwinding device and the winding and unwinding method for the transformer coil, the fixed connecting rod is arranged on the top side of the sleeve shell, the pneumatic hinge rod below two ends of the fixed connecting rod is used for outputting power to drive the output end to perform telescopic operation, so that under the cooperation of the hydraulic telescopic arm and the hinge base, the interaction between the hydraulic telescopic arm and the positioning component can be enabled to face the direction of alignment to be discharged, then the wire ends can be enabled to be effectively connected and discharged under the hinge transmission of the mechanical arm and the mechanical clamp, the effect of improving the processing efficiency of equipment is achieved, and the investment and the work burden of labor cost are reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The winding and unwinding device for the transformer coil winding comprises a base component and a winding and unwinding mechanism, wherein a sliding mechanism assembled by bolts is arranged above two ends of the base component, positioning components assembled by bolts are arranged on two sides of a moving end of the sliding mechanism, and the winding and unwinding mechanism assembled by bolts is arranged on the top side of the positioning components.

As a further technical scheme, the base component comprises a decompression cushion block, a bolt steel pad, an assembly base plate, a shock absorber and a side bedplate, wherein the assembly base plate is connected above two ends of the decompression cushion block through the bolt steel pad, and the side bedplate is fixedly connected to the top side of the assembly base plate through the shock absorber.

As a further technical scheme, slide mechanism includes end to piece, division board, bracket, output case, driving motor, drive pulley group, slotted plate, worm group, slider and control panel, the end to the piece sets up the top side of side platen, the interior bottom of end to the piece is provided with the division board of mounting bracket, one side of end to the piece is provided with the output case of connecting the driving motor output, the inside of output case is provided with the drive pulley group.

As a further technical scheme, the inner side of the end-to-block is provided with a grooved plate, the grooved plate is connected with a sliding block through a worm group in a threaded manner, and the end part of the end-to-block is provided with a control panel.

As a further technical scheme, the positioning component comprises a sleeved base, a hydraulic cylinder, an electric rotating seat and a rotating bracket, wherein the sleeved base is connected with the side of the sliding block through bolts, the hydraulic cylinder is arranged on the inner side of the sleeved base, the electric rotating seat is arranged on the top side of the hydraulic cylinder, and the output end of the electric rotating seat is connected with the rotating bracket.

As a further technical scheme, go out admission machine and construct including suit shell, fixed arm, drive machine case, centre gripping cylinder, line frame, carry on pole, pneumatic press stick, carry on the stick group, spacing stick group, carry on wheelset, hinge base, hydraulic telescoping arm, pneumatic hinge pole, fixed link, arm, mechanical clamp, rotating base and output wheel, the suit shell sets up the both sides top of rotating bracket, the rear portion one side of suit shell is provided with the fixed arm, just the one end inboard of fixed arm is provided with the line frame of connection drive machine case and centre gripping cylinder output, the rear portion inboard of suit shell is provided with carries on the pole, just the top that carries on the pole is provided with pneumatic press stick, carry on one side of the output of pole and be provided with carry on the stick group, just carry on one side of the output of stick group and be provided with spacing stick group.

As a further technical scheme, the front portion inboard of suit shell is provided with carries on the wheelset, the front portion outside of suit shell is provided with the hinge base, the top of hinge base has fixed connecting rod through pneumatic hinge rod hinged joint, just one side of hinge base is provided with the hydraulic telescoping arm, the one end outside of hydraulic telescoping arm is provided with the arm of installation mechanical clamp, the one end inboard of hydraulic telescoping arm is provided with swivel base, just swivel base's inner is provided with the output wheel.

As a further technical scheme, use the decompression cushion to place equipment in the processing place, make the decompression cushion support in the processing place after with bolt steel pad bolted connection in the bottom side of assembly base plate like this, because the bumper shock absorber sets up between assembly base plate and side platen, therefore can effectually reach the absorbing effect, when needs use, then the control panel of user end to piece one end uses the setting, then uses the division board to carry out effectual supporting isolation with the bracket, when needs use, then start driving motor output power drive output end operates, driving motor output power drives the transmission wheelset output transmission among the output case like this, output transmission through the transmission wheelset can drive the worm group among the slotted plate and rotate, drive the slider through the worm group and move to the real-time operation position that is fit for processing.

As a further technical scheme, the hydraulic cylinder on the sleeving base is used for outputting power to drive the output end to operate, so that the hydraulic cylinder is used for outputting power to drive the electric rotating seat to be lifted to a proper height, then the electric rotating seat is used for outputting power to drive the rotating bracket operated by the output end to operate the wire take-up mechanism to a proper position, then one end of the fixed arm is used for installing and setting the wire frame by using the driving case and the clamping cylinder, the wire frame is used for outputting wires, then the pneumatic pressing rod is used for outputting power to drive the output end to operate, then the carrying rod is released, the wires are output to the carrying rod group to achieve output transmission, then the limiting rod group is used for outputting power to drive the output end of the carrying wheel group, and then the pneumatic hinge rod and the hydraulic telescopic arm are used for driving the output end to operate, so that the output wheel is aligned with a target place needing to be output, and then the mechanical arm and the mechanical clamp are used for fixing the wires at a winding place, so that the effect of continuous output is achieved.

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

The device mainly comprises a fixed connecting rod arranged on the top side of a sleeve shell, wherein pneumatic hinge rods below two ends of the fixed connecting rod are used for outputting power to drive an output end to perform telescopic operation, so that under the cooperation of a hydraulic telescopic arm and a hinge base, the interaction between the hydraulic telescopic arm and a positioning part can be enabled to be oriented to a direction in which discharging is required, and then the wire ends can be effectively subjected to wire connection discharging under the transmission of a hinge of a mechanical arm and a mechanical clamp, so that the processing efficiency of equipment is improved, and the input and the work burden of labor cost are reduced.

Drawings

Fig. 1 is a schematic structural diagram of a winding and unwinding device and method for winding a transformer coil;

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

FIG. 3 is a schematic view of a sliding mechanism according to the present invention;

FIG. 4 is a schematic view of a positioning member according to the present invention;

fig. 5 is a schematic structural diagram of the wire take-up and take-out mechanism in the present invention.

1, Base member, 101, pressure reducing pad, 102, bolt steel pad, 103, mounting base, 104, damper, 105, side platen, 2, slide mechanism, 201, end-to-end block, 202, isolation plate, 203, bracket, 204, output box, 205, drive motor, 206, drive pulley group, 207, grooved pulley, 208, worm group, 209, slider, 2010, control panel, 3, positioning part, 301, socket base, 302, hydraulic cylinder, 303, electric rotating seat, 304, rotating bracket, 4, wire take-up mechanism, 401, housing, 402, fixed arm, 403, drive case, 404, clamping cylinder, 405, wire frame, 406, mounting rod, 407, pneumatic press bar, 408, mounting rod group, 409, limit bar group, 4010, mounting pulley group, 4011, hinge base, 4012, hydraulic telescopic arm, 4013, pneumatic hinge rod, 4014, fixed link 4015, mechanical arm, 4016, mechanical clamp, 4017, rotating base, 4018, output wheel.

Detailed Description

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art in a specific case.

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-5, in an embodiment of the invention, a winding and unwinding device for winding a transformer coil comprises a base member 1 and a winding and unwinding mechanism 4, a sliding mechanism 2 assembled by bolts is arranged above two ends of the base member 1, positioning components 3 assembled by bolts are arranged on two sides of a moving end of the sliding mechanism 2, and the winding and unwinding mechanism 4 assembled by bolts is arranged on the top side of the positioning components 3.

The base member 1 includes a pressure reducing cushion block 101, a bolt steel pad 102, an assembly base plate 103, a damper 104, and a side platen 105, the assembly base plate 103 is bolted to the upper side of both ends of the pressure reducing cushion block 101 through the bolt steel pad 102, and the side platen 105 is fixedly connected to the top side of the assembly base plate 103 through the damper 104.

In the embodiment of the invention, the device is placed at the processing place by using the pressure reducing cushion block 101, so that the pressure reducing cushion block 101 is supported at the processing place and then the bolt steel cushion 102 is connected to the bottom side of the assembling base plate 103 by bolts, and the shock absorber 104 is arranged between the assembling base plate 103 and the side bedplate 105, thereby effectively achieving the shock absorbing effect.

The slide mechanism 2 includes an end-to-block 201, a partition plate 202, a bracket 203, an output box 204, a drive motor 205, a transmission wheel group 206, a grooved plate 207, a worm group 208, a slider 209, and a control panel 2010, the end-to-block 201 is provided on the top side of the side platen 105, the partition plate 202 of the mounting bracket 203 is provided on the inner bottom side of the end-to-block 201, the output box 204 connected to the output end of the drive motor 205 is provided on one side of the end-to-block 201, and the transmission wheel group 206 is provided inside the output box 204.

In the embodiment of the invention, the control panel 2010 at one end of the using end-to-end block 201 is used and arranged, then the isolation plate 202 and the bracket 203 are used for effective supporting and isolation, when the use is needed, the driving motor 205 is started to output power to drive the output end to operate, so that the driving motor 205 outputs power to drive the transmission wheel set 206 in the output box 204 to output transmission.

The inner side of the end-to-end block 201 is provided with a grooved plate 207, and the grooved plate 207 is connected with a sliding block 209 through a worm group 208 in a threaded manner, and the end of the end-to-end block 201 is provided with a control panel 2010.

In the embodiment of the invention, the worm group 208 in the grooved plate 207 can be driven to rotate through the output transmission of the transmission wheel group 206, and the sliding block 209 is driven to move to a real-time operation position suitable for processing through the worm group 208.

The positioning component 3 comprises a sleeving base 301, a hydraulic cylinder 302, an electric rotating seat 303 and a rotating bracket 304, wherein the sleeving base 301 is connected to the side of the sliding block 209 through bolts, the hydraulic cylinder 302 is arranged on the inner side of the sleeving base 301, the electric rotating seat 303 is arranged on the top side of the hydraulic cylinder 302, and the rotating bracket 304 is connected to the output end of the electric rotating seat 303.

In the embodiment of the invention, the output end is driven to operate by using the output power of the hydraulic cylinder 302 on the sleeving base 301, so that the output power of the hydraulic cylinder 302 drives the electric rotating seat 303 to be lifted to a proper height, and then the rotary bracket 304 which uses the output power of the electric rotating seat 303 to drive the output end to operate is used for operating the wire take-up and take-off mechanism 4 to a proper position.

The wire take-up and take-up mechanism 4 comprises a sleeve shell 401, a fixed arm 402, a driving case 403, a clamping cylinder 404, a wire frame 405, a carrying rod 406, a pneumatic pressing rod 407, a carrying rod group 408, a limit rod group 409, a carrying wheel group 4010, a hinged base 4011, a hydraulic telescopic arm 4012, a pneumatic hinge rod 4013, a fixed connecting rod 4014, a mechanical arm 4015, a mechanical clamp 4016, a rotating base 4017 and an output wheel 4018, wherein the sleeve shell 401 is arranged above two sides of the rotating bracket 304, the fixed arm 402 is arranged at one side of the rear of the sleeve shell 401, the wire frame 405 which is connected with the output end of the driving case 403 and the clamping cylinder 404 is arranged at one end inner side of the fixed arm 402, the carrying rod 406 is arranged at the inner side of the rear of the sleeve shell 401, the pneumatic pressing rod 407 is arranged above the carrying rod 406, the carrying rod group 408 is arranged at one side of the output end of the carrying rod 406, and the limit rod group 409 is arranged at one side of the output end of the carrying rod group 408.

In the embodiment of the invention, one end of the fixed arm 402 is used for installing the wire frame 405 by using the driving machine box 403 and the clamping cylinder 404, so that the wire frame 405 outputs wires, then the pneumatic pressing rod 407 outputs power to drive the output end to operate, and then the carrying rod 406 is released, and the wires are output to the carrying rod group 408 to achieve output transmission.

The front inner side of the suit case 401 is provided with a carrying wheel group 4010, the front outer side of the suit case 401 is provided with a hinge base 4011, a fixed connecting rod 4014 is hinged above the hinge base 4011 through a pneumatic hinge rod 4013, one side of the hinge base 4011 is provided with a hydraulic telescopic arm 4012, one end outer side of the hydraulic telescopic arm 4012 is provided with a mechanical arm 4015 for installing a mechanical clamp 4016, one end inner side of the hydraulic telescopic arm 4012 is provided with a rotating base 4017, and the inner end of the rotating base 4017 is provided with an output wheel 4018.

In the embodiment of the invention, the wires are output to the carrying bar group 408 to achieve output transmission, then the limiting bar group 409 is output to the carrying wheel group 4010, the output ends are driven by the output power of the pneumatic hinge rod 4013 and the hydraulic telescopic arm 4012 to operate, so that the output wheels 4018 are aligned to a target place needing to be output, and then the mechanical arm 4015 and the mechanical clamp 4016 are used to fix the wires at the winding grounding point, so that the effect of continuous output is achieved.

A method for winding and unwinding the winding and unwinding device of the transformer coil uses the decompression cushion 101 to place the apparatus in the processing place, in this way, after the decompression cushion 101 is supported in the processing place, the bolt steel pad 102 is connected with the bottom side of the assembly base plate 103 by bolts, because the shock absorber 104 is arranged between the assembly base plate 103 and the side bedplate 105, the shock absorber can effectively achieve the shock absorbing effect, when needing to use, the control panel 2010 of one end of the end-to-end block 201 is used and arranged, then the isolation plate 202 is used to effectively support and isolate the bracket 203, when needing to use, the driving motor 205 is started to output power to drive the output end to operate, in this way, the driving motor 205 outputs power to drive the transmission wheel set 206 in the output box 204 to output transmission, the worm set 208 in the grooved plate 207 can be driven to rotate by the output transmission of the transmission wheel set 206, the sliding block 209 is driven by the worm group 208 to move to a real-time operation position suitable for processing, then the hydraulic cylinder 302 on the sleeving base 301 is used for outputting power to drive the output end to move, thus the hydraulic cylinder 302 outputs power to drive the electric rotating seat 303 to lift to a proper height, then the rotating bracket 304 which uses the electric rotating seat 303 to output power to drive the output end to move the wire take-up mechanism 4 to a proper position, then one end of the fixed arm 402 is used for installing and setting the wire frame 405 by using the driving machine case 403 and the clamping cylinder 404, so that the wire frame 405 outputs wires, then the pneumatic pressing rod 407 outputs power to drive the output end to move, then the carrying rod 406 is released, the wires are output to the carrying rod group 408 to achieve output transmission, and then the limiting rod group 409 is output to the carrying wheel group 4010, the output ends are driven to operate by using the output power of the pneumatic hinge rod 4013 and the hydraulic telescopic arm 4012 so that the output wheels 4018 are aligned to a target place to be output, and then the mechanical arm 4015 and the mechanical clamp 4016 are used for fixing the wire at the winding grounding place, so that the effect of continuous output is achieved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The winding and unwinding device for winding the transformer coil comprises a base component (1) and a winding and unwinding mechanism (4) and is characterized in that a sliding mechanism (2) assembled by bolts is arranged above two ends of the base component (1), positioning components (3) assembled by bolts are arranged on two sides of a moving end of the sliding mechanism (2), and the winding and unwinding mechanism (4) assembled by bolts is arranged on the top side of the positioning components (3);

the positioning component (3) comprises a sleeving base (301), a hydraulic cylinder (302), an electric rotating seat (303) and a rotating bracket (304), wherein the hydraulic cylinder (302) is arranged on the inner side of the sleeving base (301), the electric rotating seat (303) is arranged on the top side of the hydraulic cylinder (302), and the output end of the electric rotating seat (303) is connected with the rotating bracket (304);

The wire feeding and receiving mechanism (4) comprises a sleeve shell (401), a fixed arm (402), a driving machine box (403), a clamping cylinder (404), a wire frame (405), a carrying rod (406), a pneumatic pressing rod (407), a carrying rod group (408), a limiting rod group (409), a carrying wheel group (4010), a hinged base (4011), a hydraulic telescopic arm (4012), a pneumatic hinge rod (4013), a fixed connecting rod (4014), a mechanical arm (4015), a mechanical clamp (4016), a rotating base (4017) and an output wheel (4018), wherein the sleeve shell (401) is arranged above two sides of the rotating bracket (304), the fixed arm (402) is arranged on one side of the rear part of the sleeve shell (401), the wire frame (405) for connecting the driving machine box (403) and the output end of the clamping cylinder (404) is arranged on the inner side of one end of the fixed arm (402), the carrying rod (406) is arranged on the inner side of the rear part of the sleeve shell (401), the pneumatic pressing rod (407) is arranged above the rod (406), the limiting rod group (408) is arranged on one side of the output end (408);

The front portion inboard of suit shell (401) is provided with carries on wheelset (4010), the front portion outside of suit shell (401) is provided with hinge base (4011), the top of hinge base (4011) is through pneumatic hinge rod (4013) hinged joint has fixed connecting rod (4014), just one side of hinge base (4011) is provided with hydraulic telescoping arm (4012), the one end outside of hydraulic telescoping arm (4012) is provided with arm (4015) of installation mechanical anchor clamps (4016), the one end inboard of hydraulic telescoping arm (4012) is provided with swivel base (4017), just the inner of swivel base (4017) is provided with output wheel (4018).

2. The winding and unwinding device for winding a transformer coil according to claim 1, wherein the base component (1) comprises a decompression cushion block (101), a bolt steel pad (102), an assembly substrate (103), a shock absorber (104) and a side bedplate (105), the assembly substrate (103) is connected above two ends of the decompression cushion block (101) through bolts of the bolt steel pad (102), and the side bedplate (105) is fixedly connected to the top side of the assembly substrate (103) through the shock absorber (104).

3. The winding and unwinding device for winding a transformer coil according to claim 2, wherein the sliding mechanism (2) comprises an end-to-end block (201), a separation plate (202), a bracket (203), an output box (204), a driving motor (205), a transmission wheel set (206), a grooved plate (207), a worm set (208), a sliding block (209) and a control panel (2010), the end-to-end block (201) is arranged on the top side of the side platen (105), the separation plate (202) for installing the bracket (203) is arranged on the inner bottom side of the end-to-end block (201), the output box (204) connected with the output end of the driving motor (205) is arranged on one side of the end-to-end block (201), and the transmission wheel set (206) is arranged inside the output box (204).

4. A winding and unwinding device for winding a transformer coil according to claim 3, wherein a slotted plate (207) is arranged on the inner side of the end-to-end block (201), a sliding block (209) is connected to the slotted plate (207) through a worm group (208) in a threaded manner, and a control panel (2010) is arranged at the end of the end-to-end block (201).

5. The winding and unwinding device for winding a transformer coil according to claim 4, wherein said socket base (301) is bolted to an edge of said slider (209).

6. A paying-off method of a winding and paying-off device for a transformer coil according to claim 5 is characterized in that the device is placed at a processing place by using the decompression cushion block (101), so that after the decompression cushion block (101) is supported at the processing place, a bolt steel pad (102) is connected to the bottom side of an assembly base plate (103) by bolts, as a shock absorber (104) is arranged between the assembly base plate (103) and a side bedplate (105), the shock absorption effect can be effectively achieved, when the device is required to be used, a control panel (2010) at one end of a block (201) is used and arranged at the using end, then a separation plate (202) is used for effective supporting and separating from a bracket (203), when the device is required to be used, a driving motor (205) is started to output power to drive an output end to operate, so that a driving wheel set (206) in an output box (204) is driven by the output power of the driving motor (205), a set (208) in a worm (207) can be driven to rotate through the output driving of the driving wheel set (206), and the worm (208) in the grooved plate (207) is driven to operate to a suitable real-time operation position through the worm (209).

7. The method for winding and unwinding the transformer coil according to claim 6, wherein the hydraulic cylinder (302) on the sleeving base (301) is used for outputting power to drive the output end to operate, so that the hydraulic cylinder (302) outputs power to drive the electric rotating seat (303) to rise to a proper height, the rotating bracket (304) for outputting power to drive the output end to operate the wire taking-up mechanism (4) to a proper position, one end of the fixed arm (402) is used for installing the wire frame (405) by using the driving machine box (403) and the clamping cylinder (404), the wire frame (405) outputs the wire, the pneumatic pressing rod (407) is used for outputting power to drive the output end to operate, the carrying rod (406) is loosened, the wire is output to the carrying rod group (408) to achieve output transmission, the limit rod group (409) is used for outputting the wire to the carrying wheel group (0), the pneumatic hinge rod (3) is used for driving the output end of the telescopic arm (2) to drive the output end to operate the wire output wheel (8) by using the pneumatic hinge rod (4013) to achieve the installation setting, the wire frame (405) is continuously aligned with the mechanical 4016, and the wire is then required to be output to achieve the target operation and the mechanical 4016 is continuously connected to the installation position.