CN110021479B - Power transformer wire winding rubber coating all-in-one - Google Patents

Abstract

The invention discloses a winding and rubber coating all-in-one machine of a power transformer, which structurally comprises a longitudinal guide rail, a stand column, a dustproof vacuum cover, a copper wire coil, a wire coil support, a platform, a control cabinet, a rubber coil support, a rubber coating tape coil and an iron core positioning shaft rod, and has the following effects: the side extension device can make folding canopy cloth extend or fold through the flexible length of control servo telescopic link, thereby enlarge the volume that holds of sealed cowling, through dust exhaust apparatus, can utilize the drive torque that the iron core location axostylus axostyle produced, in time discharge the inside dust and the air of sealed cowling, make the iron core be in under the dustless vacuum state at wire winding and rubber coating tape work, with this solve current power transformer wire winding rubber coating all-in-one, to winding wire winding and rubber coating tape in-process easily with dust and air in the intermediate layer of coil and rubber coating tape, make the rubber coating insulating layer produce the bubble, thereby reduce the security of transformer and life's problem.

Description

Power transformer wire winding rubber coating all-in-one

Technical Field

The invention relates to the field of transformers, in particular to a winding and rubber coating all-in-one machine of a power transformer.

Background

With the progress of times and the development of science and technology, the development of the electronic product industry is leapfrog, a transformer is continuously updated as an important electronic component in electronic products, in order to meet the diversification of functions and the maximization of performance, the requirements of the transformer on the winding process, the adhesive tape coating process and the like are higher and higher, the existing power transformer winding and adhesive tape coating all-in-one machine winds dust and air into a coil and an interlayer of the adhesive tape in the winding and adhesive tape coating processes of the transformer, so that an adhesive tape coating insulating layer outside the coil generates bubbles, the transformer generates high temperature in work, the bubbles expand by heating, the adhesive tape coating insulating layer is easy to crack, the coil in the transformer is not protected and is exposed in the air, the safety of the transformer is reduced, and the service life of the transformer is prolonged, therefore, a novel power transformer winding and adhesive tape coating all-in-one machine needs to be developed, so as to solve the, the transformer is easy to wind dust and air into the interlayer of the coil and the rubber coating tape in the winding and rubber coating tape processes, so that the rubber coating insulating layer generates bubbles, thereby reducing the safety of the transformer and prolonging the service life of the transformer.

Summary of the invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a power transformer winding and rubber coating integrated machine structurally comprises a longitudinal guide rail, a stand column, a dustproof vacuum cover, a copper wire coil, a wire coil support, a platform, a control cabinet, a rubber coil support, a rubber coating belt coil and an iron core positioning shaft rod, wherein the control cabinet is installed at the front end of the platform, the stand column is arranged at the central position of the top of the platform, the longitudinal guide rail is arranged at the central position of the front end of the stand column, the dustproof vacuum cover is arranged at the front end of the stand column, the dustproof vacuum cover and the longitudinal guide rail are in sliding fit, the iron core positioning shaft rod is arranged at the central position below the dustproof vacuum cover and vertically installed on the platform, the iron core positioning shaft rod generates driving torque through a motor, the wire coil support and the rubber coil support are respectively arranged on two sides of the iron core positioning shaft rod, the wire coil support and the rubber coil support are in sliding fit with a sliding groove, the top of the wire coil support is provided with a copper wire coil which is movably connected with the copper wire coil, and the rubber-covered wire coil is arranged at the top of the rubber coil support and movably connected with the rubber coil support.

As the further optimization of this technical scheme, dustproof vacuum hood constitute by dust exhaust, side extension device, sealed cowling, glass observation window, servo rail wheel, backplate, the sealed cowling be cavity rectangle structure and the central point of front end puts and is equipped with the glass observation window, the sealed cowling both sides be equipped with the side extension device and be the axisymmetric structure, the central point of sealed cowling rear end put and be equipped with the backplate and the two adopts interference fit, the even equidistance of backplate rear end install two servo rail wheels, servo rail wheel and longitudinal rail adopt sliding fit, dust exhaust locate the sealed cowling top and the two adopts interference fit.

As the further optimization of this technical scheme, side stretching device constitute by servo telescopic link, side rectangle cover, folding shed cloth, side rectangle cover be cavity rectangle structure and the rectangle opening of front end is equipped with folding shed cloth, folding shed cloth for shape structure and opening set up down, side rectangle cover and sealed cowling connect through folding shed cloth, the even equidistance in side rectangle cover both sides be equipped with four servo telescopic links, servo telescopic link head and the tail both ends fix respectively on sealed cowling and side rectangle cover.

As a further optimization of the technical scheme, the dust exhaust and exhaust device comprises a central support, a cover body, an exhaust nozzle, a negative pressure flow guide mechanism and a shaft rod positioning mechanism, wherein the central position inside the cover body is provided with the central support, the central position of the central support is provided with the shaft rod positioning mechanism, the negative pressure flow guide mechanisms are arranged on two sides of the central support, the exhaust nozzle is arranged above the negative pressure flow guide mechanism, and the exhaust nozzle is embedded and installed on a notch on the top surface of the cover body.

As a further optimization of the technical scheme, the negative pressure flow guide mechanism comprises an exhaust impeller, a driven chain wheel, a positioning rotating shaft, a flow collecting cover and a communicating support, wherein the communicating support is of a circular structure and is embedded and fixed on a groove at the bottom of the cover body, the cover body is communicated with the sealing cover through the communicating support, the flow collecting cover is arranged at the top of the communicating support and is in interference fit with the flow collecting cover, the positioning rotating shaft is arranged at the center of the top of the flow collecting cover, the exhaust impeller is installed at the top end of the positioning rotating shaft, and the driven chain wheel is arranged below the exhaust impeller and is connected with the positioning rotating shaft.

As a further optimization of the technical proposal, the shaft lever positioning mechanism consists of an electric telescopic rod, an electromagnetic plate, an arc panel, a shaft sleeve, a driving chain wheel and an annular chute, the circular groove at the center of the driving chain wheel is provided with a shaft sleeve, the inner ring of the shaft sleeve is uniformly provided with four cambered plates at equal intervals, the front end of the cambered plate is provided with an electromagnetic plate which is buckled and fixed on a groove on the outer wall of the cambered plate, the center position of the rear end of the cambered plate is provided with an electric telescopic rod, the bottom of the electric telescopic rod is embedded and fixed on the groove of the shaft sleeve, the head and the tail ends of the electric telescopic rod are respectively connected with the cambered plate and the shaft sleeve, the upper end and the lower end of the driving chain wheel are provided with annular sliding grooves, the driving chain wheel and the central support seat are in sliding fit through the annular sliding groove, and the driving chain wheel is connected with the driven chain wheel through a chain.

As a further optimization of the technical proposal, the electromagnetic plate is in an arc-shaped plate structure, two binding posts are arranged at the rear end of the electromagnetic plate in parallel and equidistantly,

as a further optimization of the technical scheme, the flow collecting cover is of a round table-shaped structure, and through holes are uniformly distributed on the surface of the flow collecting cover.

Advantageous effects

The winding and rubber coating integrated machine for the power transformer is reasonable in design and strong in functionality, and has the following beneficial effects:

according to the side edge stretching device, the dustproof vacuum cover is controlled to slide downwards in a straight line along the longitudinal guide rail arranged on the stand column, so that the dustproof vacuum cover can intensively cover the wire coil support, the rubber disc support and the iron core positioning shaft rod which are arranged below the dustproof vacuum cover, when the processed transformer is large in size, the width of the dustproof vacuum cover cannot intensively cover the wire coil support, the rubber disc support and the iron core positioning shaft rod which are arranged below the dustproof vacuum cover, the side edge rectangular cover and the sealing cover are connected through the folding shed cloth, and the head end and the tail end of four servo telescopic rods uniformly and equidistantly arranged on the two sides of the side edge rectangular cover are respectively fixed on the sealing cover and the side edge rectangular cover, so that the folding shed cloth can be stretched or folded by controlling the telescopic length of the servo telescopic rods;

the invention relates to a dust exhaust and exhaust device, wherein an iron core positioning shaft lever positioned at the central position of a platform is used for fixing an iron core, the iron core is driven to rotate by driving torque generated in the working process of the iron core positioning shaft lever, so that copper wires or adhesive tapes in a copper wire coil or a tape wrapping coil are wound on the iron core, the length of the iron core positioning shaft lever is greater than the height of a dustproof vacuum cover, when the height of the dustproof vacuum cover moving downwards along a longitudinal guide rail is lower than the height of the iron core positioning shaft lever, the iron core positioning shaft lever sequentially penetrates through the central positions of a sealing cover and a driving chain wheel, because the central position of the driving chain wheel is provided with a shaft sleeve, and four arc panels uniformly arranged at equal intervals on the inner ring of the shaft sleeve enclose into a ring wall shape, the arc panels can move forwards or backwards linearly by controlling the telescopic length of an electric telescopic rod, the shaft, the electromagnetic plate can generate magnetic attraction after being electrified, the magnetic attraction and the thrust generated by the electric telescopic rod are generated by the electromagnetic plate, so that the cambered plate is firmly attached to the iron core positioning shaft rod, when the iron core positioning shaft rod generates driving torque through the motor, the driving chain wheel rotates and drives the driven chain wheel to rotate through the chain, the positioning rotating shaft and the exhaust impeller synchronously rotate, and dust and air in the sealing cover are completely discharged by utilizing negative pressure suction generated by clockwise rotation of the exhaust impeller, so that the vacuum state is formed in the sealing cover;

the side edge stretching device can stretch or fold the folding shed cloth by controlling the stretching length of the servo telescopic rod, so that the accommodating volume of the sealing cover is enlarged, and dust and air in the sealing cover can be timely discharged by utilizing the driving torque generated by the iron core positioning shaft rod through the dust exhaust and exhaust device, so that the iron core is in a dust-free vacuum state in the winding and rubber belt wrapping work, and the problems that the dust and the air are easily wound into a sandwich layer of a coil and a rubber belt in the winding and rubber belt wrapping process of the transformer, a rubber coating insulating layer generates air bubbles, and the safety of the transformer is reduced and the service life of the transformer is prolonged are solved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a winding and rubber coating all-in-one machine of a power transformer.

FIG. 2 is a schematic front view of the dustproof vacuum cover of the present invention;

FIG. 3 is a schematic side view of the dustproof vacuum cover of the present invention;

FIG. 4 is a schematic cross-sectional view of the dust exhausting and exhausting apparatus of the present invention;

FIG. 5 is a schematic top view of the positioning mechanism for the shaft of the present invention;

FIG. 6 is a schematic cross-sectional view of a dust-proof vacuum enclosure according to the present invention.

In the figure: longitudinal guide rail-1, upright post-2, dustproof vacuum hood-3, dust exhaust and exhaust device-31, central support-31 a, hood-31 b, exhaust nozzle-31 c, negative pressure flow guide mechanism-31 d, exhaust impeller-31 d1, driven chain wheel-31 d2, positioning rotating shaft-31 d3, collecting hood-31 d4, communicating support-31 d5, shaft rod positioning mechanism-31 e, electric telescopic rod-31 e1, electromagnetic plate-31 e2, arc panel-31 e3, shaft sleeve-31 e4, driving chain wheel-31 e5, annular chute-31 e6, side stretching device-32, servo telescopic rod-32 a, side rectangular hood-32 b, folding shed cloth-32 c, sealing hood-33, glass observation window-34, The device comprises a servo track wheel-35, a back plate-36, a copper wire coil-4, a wire coil support-5, a platform-6, a control cabinet-7, a rubber coil support-8, a rubber-covered belt coil-9 and an iron core positioning shaft rod-10.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-6, the present invention provides an embodiment of an integrated machine for winding and encapsulating power transformer;

referring to fig. 1, the winding and rubber coating integrated machine for the power transformer structurally comprises a longitudinal guide rail 1, a stand column 2, a dustproof vacuum cover 3, a copper wire coil 4, a wire coil support 5, a platform 6, a control cabinet 7, a rubber coil support 8, a rubber coating tape coil 9 and an iron core positioning shaft rod 10, wherein the control cabinet 7 is installed at the front end of the platform 6, the stand column 2 is arranged at the central position of the top of the platform 6, the longitudinal guide rail 1 is arranged at the central position of the front end of the stand column 2, the dustproof vacuum cover 3 is arranged at the front end of the stand column 2, the dustproof vacuum cover 3 and the longitudinal guide rail 1 are in sliding fit, the iron core positioning shaft rod 10 is arranged at the central position below the dustproof vacuum cover 3, the iron core positioning shaft rod 10 is vertically installed on the platform 6, the iron core positioning shaft rod 10 generates driving torque through a motor, the wire coil support 5 and the rubber coil support 8 are respectively arranged, the wire coil support 5, the rubber disc support 8 and a sliding groove formed in the top surface of the platform 6 are in sliding fit, the copper wire coil 4 is arranged on the top of the wire coil support 5 and is movably connected with the copper wire coil, and the rubber-covered belt disc 9 is arranged on the top of the rubber disc support 8 and is movably connected with the rubber disc support.

Referring to fig. 2, 3 and 6, the dust-proof vacuum hood 3 is composed of a dust exhaust and exhaust device 31, a side extending device 32, a sealing hood 33, a glass observation window 34, servo track wheels 35 and a back plate 36, the sealing hood 33 is of a hollow rectangular structure, the glass observation window 34 is arranged at the center of the front end of the sealing hood 33, the side extending devices 32 are arranged on two sides of the sealing hood 33 and are of an axisymmetric structure, the back plate 36 is arranged at the center of the rear end of the sealing hood 33 and is in interference fit with the back plate, the two servo track wheels 35 are uniformly and equidistantly arranged at the rear end of the back plate 36, the servo track wheels 35 are in sliding fit with the longitudinal guide rail 1, the servo track wheels 35 generate driving torque through a servo motor, and the dust exhaust and exhaust device 31 is arranged at the top of the sealing hood 33 and is in interference fit with the back plate.

Referring to fig. 2 and 3, the side stretching device 32 comprises a servo telescopic rod 32a, a side rectangular cover 32b and a folding shed cloth 32c, the side rectangular cover 32b is of a hollow rectangular structure, the folding shed cloth 32c is arranged at a rectangular opening at the front end of the side rectangular cover, the folding shed cloth 32c is of a U-shaped structure, the opening of the folding shed cloth is downward, the side rectangular cover 32b is connected with the sealing cover 33 through the folding shed cloth 32c, four servo telescopic rods 32a are uniformly arranged on two sides of the side rectangular cover 32b at equal intervals, and the head end and the tail end of each servo telescopic rod 32a are respectively fixed on the sealing cover 33 and the side rectangular cover 32 b.

Referring to fig. 4, the dust and gas exhausting apparatus 31 includes a central support 31a, a cover 31b, a gas discharging nozzle 31c, a negative pressure guiding mechanism 31d, and a shaft rod positioning mechanism 31e, the central position inside the cover 31b is provided with the central support 31a, the central position of the central support 31a is provided with the shaft rod positioning mechanism 31e, the two sides of the central support 31a are provided with the negative pressure guiding mechanisms 31d, the gas discharging nozzle 31c is arranged above the negative pressure guiding mechanism 31d, and the gas discharging nozzle 31c is embedded and installed on a notch on the top surface of the cover 31 b.

Referring to fig. 4, the negative pressure flow guiding mechanism 31d comprises an exhaust impeller 31d1, a driven sprocket 31d2, a positioning rotating shaft 31d3, a collecting cover 31d4, and a communicating support 31d5, the communicating support 31d5 is circular and is fixed on the groove at the bottom of the cover 31b, the cover body 31b is communicated with the sealing cover 33 through a communicating support 31d5, the top of the communicating support 31d5 is provided with a collecting cover 31d4, the two adopt interference fit, the center of the top of the collecting cover 31d4 is provided with a positioning rotating shaft 31d3, the top end of the positioning rotating shaft 31d3 is provided with an exhaust impeller 31d1, the exhaust impeller 31d1 rotates clockwise to generate negative pressure suction, the driven chaining wheel 31d2 is arranged below the exhaust impeller 31d1 and connected with the positioning rotating shaft 31d3, and the collecting cover 31d4 is in a circular truncated cone-shaped structure and is uniformly provided with through holes on the surface.

Referring to fig. 5, the shaft rod positioning mechanism 31e is composed of an electric telescopic rod 31e1, an electromagnetic plate 31e2, an arc panel 31e3, a shaft sleeve 31e4, a driving chain wheel 31e5 and an annular sliding groove 31e6, a shaft sleeve 31e4 is disposed on a circular groove at the center of the driving chain wheel 31e5, four arc panels 31e3 are uniformly and equidistantly disposed on an inner ring of the shaft sleeve 31e4, the arc panels are preferably made of non-ferromagnetic metal, each arc panel 31e3 is enclosed into an annular wall structure, the electromagnetic plate 31e2 is disposed at the front end of the arc panel 31e3, the electromagnetic plate 31e2 is fastened and fixed on a groove on the outer wall of the arc panel 31e3, an electric telescopic rod 31e1 is disposed at the center of the rear end of the arc panel 31e3, the bottom of the electric telescopic rod 31e1 is embedded and fixed on a groove of the shaft sleeve 31e4, and two ends of the shaft sleeve 31e5 are respectively connected with the arc panel 5831 e 31e and the arc panel 5831 e 57323, the upper end and the lower end of the driving chain wheel 31e5 are provided with annular sliding grooves 31e6, the driving chain wheel 31e5 and the central support 31a adopt sliding fit through the annular sliding grooves 31e6, the driving chain wheel 31e5 and the driven chain wheel 31d2 are connected through a chain, and the electromagnetic plate 31e2 is of an arc-shaped plate-shaped structure and is provided with two binding posts at the rear end in parallel and equidistant.

The specific realization principle is as follows:

all electrical equipment of the invention is controlled in a centralized way by a control cabinet 7, the dustproof vacuum cover 3 is controlled to slide downwards along a longitudinal guide rail 1 arranged on an upright post 2 in a straight line, so that the dustproof vacuum cover 3 covers a wire coil support 5, a rubber coil support 8 and an iron core positioning shaft lever 10 which are arranged below in a centralized way, when the processed transformer has a large size and the width of the dustproof vacuum cover 3 cannot intensively cover the wire coil support 5, the rubber coil support 8 and the iron core positioning shaft lever 10 which are arranged below the transformer, because the side rectangular cover 32b and the sealing cover 33 are connected by the folding shed cloth 32c, and the head and tail ends of four servo telescopic rods 32a uniformly arranged at equal intervals on the two sides of the side rectangular cover 32b are respectively fixed on the sealing cover 33 and the side rectangular cover 32b, therefore, the folding shed cloth 32c can be extended or folded by controlling the extension length of the servo telescopic rod 32a, so that the accommodating volume of the sealing cover 33 is enlarged; the iron core positioning shaft lever 10 positioned at the central position of the platform 6 is used for fixing an iron core, the iron core is driven to rotate by the driving torque generated in the work of the iron core positioning shaft lever 10, so that copper wires or adhesive tapes in a copper wire coil 4 or a tape wrapping disk 9 are wound on the iron core, the length of the iron core positioning shaft lever 10 is greater than the height of the dustproof vacuum cover 3, when the height of the dustproof vacuum cover 3 moving downwards along the longitudinal guide rail 1 is lower than the height of the iron core positioning shaft lever 10, the iron core positioning shaft lever 10 sequentially penetrates through the central positions of the sealing cover 33 and the driving chain wheel 31e5, because the central position of the driving chain wheel 31e5 is provided with the shaft sleeve 31e4, and four cambered plates 31e3 uniformly and equidistantly arranged on the inner ring of the shaft sleeve 31e4 enclose a ring wall shape, by controlling the telescopic length of the electric telescopic rod 31e1, the cambered plates 31e3 can linearly move forwards, and the contact surface of the arc panel 31e3 and the shaft rod is provided with an electromagnetic plate 31e2, the electromagnetic plate 31e2 generates magnetic attraction after being electrified, the magnetic attraction generated by the electromagnetic plate 31e2 and the thrust generated by the electric telescopic rod 31e1 enable the arc panel 31e3 to be firmly attached to the iron core positioning shaft rod 10, when the iron core positioning shaft rod 10 generates driving torque through a motor, the driving chain wheel 31e5 rotates and drives the driven chain wheel 31d2 to rotate through a chain, so that the positioning rotating shaft 31d3 and the exhaust impeller 31d1 synchronously rotate, and the dust and air in the sealing cover 33 are all discharged by utilizing the negative pressure suction generated by the clockwise rotation of the exhaust impeller 31d1, so that the vacuum state is formed in the sealing cover 33, thereby solving the problem of the existing power transformer winding and encapsulating integrated machine, the dust and air are easily wound in the interlayer of the coil and the encapsulating tape in the process of winding and encapsulating the transformer, so that the insulating layer generates bubbles, thereby reducing the problems of safety and service life of the transformer.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a power transformer wire winding rubber coating all-in-one, its structure includes longitudinal rail (1), stand (2), dustproof vacuum hood (3), copper drum (4), drum support (5), platform (6), switch board (7), rubber drum support (8), rubber coating tep reel (9), iron core location axostylus axostyle (10), its characterized in that:

the front end of the platform (6) is provided with a control cabinet (7), the upright post (2) is arranged at the top of the platform (6), the front end of the upright post (2) is provided with a longitudinal guide rail (1), the dustproof vacuum cover (3) is arranged at the front end of the upright post (2), the dustproof vacuum cover (3) is in sliding fit with the longitudinal guide rail (1), an iron core positioning shaft lever (10) is arranged below the dustproof vacuum cover (3), the iron core positioning shaft lever (10) is vertically arranged on the platform (6), both sides of the iron core positioning shaft lever (10) are respectively provided with a wire coil support (5) and a rubber disc support (8), the wire coil support (5) and the rubber coil support (8) are in sliding fit with the platform (6), the copper wire coil (4) is arranged at the top of the wire coil support (5), and the rubber-covered wire coil (9) is arranged at the top of the rubber coil support (8).

2. The winding and rubber coating all-in-one machine of the power transformer as claimed in claim 1, wherein: dust-proof vacuum hood (3) constitute by dust exhaust apparatus (31), side extension device (32), sealed cowling (33), glass observation window (34), servo rail wheel (35), backplate (36), sealed cowling (33) front end be equipped with glass observation window (34), sealed cowling (33) both sides be equipped with side extension device (32), sealed cowling (33) rear end be equipped with backplate (36), backplate (36) rear end install servo rail wheel (35), dust exhaust apparatus (31) locate sealed cowling (33) top.

3. The winding and rubber coating all-in-one machine of the power transformer as claimed in claim 2, wherein: side stretching device (32) constitute by servo telescopic link (32a), side rectangle cover (32b), folding shed cloth (32c), side rectangle cover (32b) front end be equipped with folding shed cloth (32c), side rectangle cover (32b) both sides be equipped with servo telescopic link (32 a).

4. The winding and rubber coating all-in-one machine of the power transformer as claimed in claim 2, wherein: the dust and gas exhausting device (31) is composed of a central support (31a), a cover body (31b), a gas exhaust nozzle (31c), a negative pressure flow guide mechanism (31d) and a shaft rod positioning mechanism (31e), wherein the central support (31a) is arranged inside the cover body (31b), the shaft rod positioning mechanism (31e) is arranged at the central position of the central support (31a), the negative pressure flow guide mechanisms (31d) are arranged on two sides of the central support (31a), and the gas exhaust nozzle (31c) is arranged above the negative pressure flow guide mechanism (31 d).

5. The winding and rubber coating all-in-one machine of the power transformer as claimed in claim 4, wherein: the negative pressure flow guide mechanism (31d) consists of an exhaust impeller (31d1), a driven chain wheel (31d2), a positioning rotating shaft (31d3), a flow collecting cover (31d4) and a communicating support (31d5), wherein the communicating support (31d5) is arranged at the bottom of the cover body (31b), the flow collecting cover (31d4) is arranged at the top of the communicating support (31d5), the positioning rotating shaft (31d3) is arranged at the top of the flow collecting cover (31d4), the exhaust impeller (31d1) is arranged at the top end of the positioning rotating shaft (31d3), and the driven chain wheel (31d2) is arranged below the exhaust impeller (31d1) and connected with the positioning rotating shaft (31d 3).

6. The winding and rubber coating all-in-one machine of the power transformer as claimed in claim 4, wherein: the shaft rod positioning mechanism (31e) is composed of an electric telescopic rod (31e1), an electromagnetic plate (31e2), an arc panel (31e3), a shaft sleeve (31e4), a driving chain wheel (31e5) and an annular sliding groove (31e6), wherein the shaft sleeve (31e4) is arranged at the center of the driving chain wheel (31e5), four arc panels (31e3) are arranged at the inner ring of the shaft sleeve (31e4), the electromagnetic plate (31e2) is arranged at the front end of the arc panel (31e3), the electric telescopic rod (31e1) is arranged at the center of the rear end of the arc panel (31e3), and annular sliding grooves (31e6) are formed in the upper end and the lower end of the driving chain wheel (31e 5).

7. The winding and rubber coating all-in-one machine of the power transformer as claimed in claim 6, wherein: the electromagnetic plate (31e2) is of an arc-shaped plate structure, and two binding posts are arranged at the rear end of the electromagnetic plate in parallel and at equal intervals.

8. The winding and rubber coating all-in-one machine of the power transformer as claimed in claim 5, wherein: the flow collecting cover (31d4) is of a round table-shaped structure, and through holes are uniformly distributed on the surface.

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