CN112509750A - Automatic impregnating varnish device of preventing deposiing for mica glass fiber covered electromagnetic wire - Google Patents

Abstract

The invention discloses an anti-precipitation automatic impregnating varnish device for mica glass fiber coated electromagnetic wires, which comprises a ball mill, a guide roller, a first impregnation chamber, a post processor and a collection chamber, wherein a grinding ball is installed in the ball mill, a jacking block is installed below a support rod, a stirrer is installed in the first impregnation chamber, a movable rod is installed in a connecting rod, a scraping device is installed above the connecting rod, an anti-falling groove is formed in a take-up roller, an installation frame is installed in the first impregnation chamber, the guide roller is connected with the take-up frame through a connecting seat, and a water level sensor is installed in the first impregnation chamber 5. This mica glass silk package electromagnetic wire is with preventing automatic impregnating varnish device of deposiing is provided with the agitator, and the setting of this part can make mica and impregnating varnish coincidence mix under the effect of agitator, and can effectively prevent because the device stews for a long time, the phenomenon that the mica appears deposiing has increased the stability of device.

Description

Automatic impregnating varnish device of preventing deposiing for mica glass fiber covered electromagnetic wire

Technical Field

The invention relates to the technical field of electromagnetic wire processing, in particular to an anti-precipitation automatic impregnating varnish device for mica glass fiber covered electromagnetic wires.

Background

Electromagnetic wire is also called winding wire, it is the insulated wire used for making coil or winding in the electrical product, the electromagnetic wire is divided into the enamelled wire, around the winding wire, enamelled around the winding wire and inorganic insulated wire usually, the electromagnetic wire is more and more in the application in reality at present, wherein the enamelled wire uses extra much, the enamelled wire is a main variety of winding wire, it is made up of conductor and insulating layer two, the bare wire is softened through annealing, then through many times of japanning, bake and get final product, but will produce the product that both accords with the standard requirement, it is not easy to satisfy the customer's requirement, it receives raw material quality, the process parameter, the production equipment, factors influence such as environment, the current electromagnetic wire can use mica glass silk envelope wire processing technology in the course of production.

However, in the existing traditional mica glass fiber covered wire, a mica tape is wrapped on a copper wire, then a glass fiber is coated on a mica tape insulating layer after being impregnated and baked by impregnating varnish, in the process, the mica tape is firstly manufactured, because mica does not have mechanical property, a polyester or polyimide film is required to be used, or glass cloth is used as a base material for reinforcement, an adhesive is required to be used in the manufacturing process, the problem of compatibility with the impregnating varnish of the glass fiber exists, and the existing processing mode is time-consuming and labor-consuming.

Therefore, we propose an anti-settling automatic impregnating varnish device for mica glass fiber covered electromagnetic wires so as to solve the problems proposed in the above.

Disclosure of Invention

The invention aims to provide an anti-precipitation automatic impregnating varnish device for a mica glass fiber covered electromagnetic wire, which aims to solve the problems of poor processing efficiency and low yield of the conventional mica glass fiber covered wire in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a mica glass silk package electromagnetic wire is with preventing automatic impregnating varnish device that deposits, includes ball mill, guide roll, first flooding room, aftertreatment ware and collection room, its characterized in that: the ball mill is internally provided with grinding balls, a filter screen is arranged below the grinding balls, a telescopic rod is arranged below the filter screen, a heating layer is arranged in the ball mill, a collecting chamber is arranged below the ball mill, a connector is arranged on the left side in the collecting chamber, a guide groove is formed in the connector, a guide block is arranged in the guide groove, a support rod is connected to the outside of the guide block, a jacking block is arranged below the support rod and arranged in the collecting chamber, a discharge port is arranged on the right side of the collecting chamber, a connecting pipe is connected to the outside of the discharge port, a first steeping chamber is arranged at the other end of the connecting pipe, a second steeping chamber is arranged on the right side of the first steeping chamber, a wire body is arranged above the first steeping chamber and moves through a guide roller, and a post processor is arranged at the tail end of the wire body, the improved wire winding device is characterized in that a dryer is installed inside the post-processor, a wiper is installed below the left side of the post-processor and outside the post-processor, a stirrer is installed in the first impregnation chamber, connecting rods are installed on two sides of the stirrer, a movable rod is installed in each connecting rod, the movable rod is connected with the connecting rods through a connecting spring, a connecting block is installed at the tail end of each telescopic rod, a connecting groove is installed outside each connecting block and is formed in a folding plate, a scraper is installed above each connecting rod, a discharging frame is installed on the left side of the first impregnation chamber, a guide roller is installed in each discharging frame, a wire winding frame is installed on the right side of the second impregnation chamber, a wire winding roller is installed in each wire winding frame, a movable pressing block is installed above each wire winding frame, and an inductor is installed on the inner side of each movable pressing block, the take-up device is characterized in that an anti-falling groove is formed in the take-up roller, an anti-falling block is installed in the anti-falling groove and connected with the take-up frame, a mounting frame is installed in the first impregnation chamber, a regulating block is installed in the mounting frame, an ejector is installed below the regulating block, a connecting seat is connected between the guide roller and the take-up frame, and a water level sensor is installed in the first impregnation chamber 5.

Preferably, the bottom of the ball mill is vertically provided with a filter screen, the filter screen is arc-shaped, and the aperture of the filter screen is nano-scale.

Preferably, the telescopic rod is vertically installed below the ball mill, the collection chamber is vertically installed below the telescopic rod, and the collection chamber is tightly matched with the ball mill.

Preferably, the post-processor is horizontally arranged on the outer side of the guide roller, the surface of the post-processor is provided with a wiper in a fitting manner, the aperture of the wiper is the sum of the thickness of the wire body and the thickness of the dipped paint, and the aperture of the wiper gradually increases from left to right.

Preferably, the support rod is vertically arranged in the collecting chamber, the angle of the support rod is 60 degrees, and the surface of the support rod is smooth.

Preferably, the connector is installed in the laminating of collection indoor, and the perpendicular opening is equipped with the guide way in the connector to the central line of guide way and the central line of guide block coincide each other, and the contact surface of guide way and guide block is parallel to each other simultaneously, and guide way and guide block constitute sliding construction.

Preferably, the movable rod is horizontally installed in the connecting rod, the center line of the movable rod and the center line of the connecting rod are overlapped, and the outer diameter of the movable rod is smaller than the inner diameter of the connecting rod.

Preferably, the connecting groove is opened in the folded sheet, and the central line of connecting groove and the central line of connecting block coincide each other to the internal diameter of connecting groove is greater than the external diameter of connecting block, and the degree of depth of connecting groove is greater than the connecting block simultaneously, is closely cooperated between connecting groove and the connecting block moreover.

Preferably, install the anticreep piece in the take-up frame, and be swing joint between anticreep piece and the take-up frame to the central line of anticreep piece and anticreep groove coincides each other, and the internal diameter of anticreep groove is greater than the external diameter of anticreep piece simultaneously.

Preferably, the spread groove has been seted up in the folded sheet, and the central line of spread groove and the central line of connecting block coincide each other to the mounting bracket is installed perpendicularly in first flooding chamber, and the mounting bracket adopts corrosion-resistant material, and vertical installation has the regulating block in the mounting bracket, adopts swing joint between mounting bracket and the regulating block simultaneously.

Compared with the prior art, the invention has the beneficial effects that: the mica glass fiber covered electromagnetic wire precipitation-proof automatic impregnating varnish device;

1. the stirrer is arranged, so that the mica and the impregnating varnish can be fully and uniformly mixed under the action of the stirrer, the phenomenon that the mica is precipitated due to long-time standing of the device can be effectively prevented, and the stability of the device is improved;

2. the arrangement of the wiper can prevent mica from being adsorbed in the inner wall of the device under the action of centrifugal force in the stirring process, so that the mica is not uniformly distributed, and the practicability of the device is improved;

3. the multistage dipping chambers are arranged, so that the wire body can be processed by dipping paint only through one operating line when being processed, the pulling amount of workers is reduced, the practicability of the device is improved, and the three times of dipping are finished in one dipping chamber, so that the occupied area of the device is reduced;

4. the anti-drop groove and the anti-drop block are arranged, so that the wire take-up roller can be detached, and the stability of the device cannot be influenced in the wire take-up process, thereby reducing the operation amount of workers and increasing the practicability of the device;

5. the device is provided with the mounting frame and the ejector, and the parts are arranged, so that when a next batch of wires need to be dipped after the dipping of the batch of wires is finished, the guide roller in the dipping chamber can be ejected out under the matching action of the mounting frame and the ejector, the threading is facilitated, and the portability of the device is improved.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic view of a take-up roller connection structure according to the present invention;

FIG. 4 is a schematic view of the structure of the anti-drop groove of the present invention;

FIG. 5 is a schematic view of the connecting structure of the supporting rod and the connector of the present invention;

FIG. 6 is a schematic view of the movable rod connection structure of the present invention;

FIG. 7 is a schematic view of a folded fabric structure according to the present invention;

FIG. 8 is a side view of a post-processor according to the present invention;

FIG. 9 is an enlarged view of the structure at B in FIG. 1 according to the present invention.

In the figure: 1. a ball mill; 2. a connecting pipe; 3. a wire body; 4. a guide roller; 5. a first impregnation chamber; 6. a discharging frame; 7. a wire take-up roller; 8. a water level sensor; 9. a post-processor; 10. a second impregnation chamber; 11. a heating layer; 12. a connector; 13. jacking the block; 14. a support rod; 15. a collection chamber; 16. a discharge port; 17. a telescopic rod; 18. a filter screen; 19. grinding balls; 20. a drop-proof groove; 21. a wiper; 22. a dryer; 23. a guide groove; 24. a guide block; 25. a movable rod; 26. a connecting spring; 27. folding the board; 28. connecting grooves; 29. connecting blocks; 30. a scraper; 31. a connecting rod; 32. a stirrer; 33. an anti-drop block; 34. a connecting seat; 35. a movable pressing block; 36. an inductor; 37. a take-up stand; 38. a mounting frame; 39. an adjusting block; 40. and (4) an ejector.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: an anti-precipitation automatic impregnating varnish device for mica glass fiber coated electromagnetic wires comprises a ball mill 1, a connecting pipe 2, a wire body 3, a guide roller 4, a first impregnation chamber 5, a discharge frame 6, a take-up roller 7, a water level sensor 8, a post processor 9, a second impregnation chamber 10, a heating layer 11, a connector 12, a jacking block 13, a support rod 14, a collection chamber 15, a discharge port 16, a telescopic rod 17, a filter screen 18, a grinding ball 19, an anti-falling groove 20, a wiper 21, a dryer 22, a guide groove 23, a guide block 24, a movable rod 25, a connecting spring 26, a folding plate 27, a connecting groove 28, a connecting block 29, a scraping device 30, a connecting rod 31, a stirrer 32, an anti-falling block 33, a connecting seat 34, a movable pressing block 35, an inductor 36, a take-up frame 37, a connecting frame 38, an adjusting block 39 and an ejector 40, wherein the grinding ball 19 is arranged in the ball mill 1, the filter screen 18 is arranged below the grinding ball, and an expansion link 17 is installed below the filter screen 18, a heating layer 11 is installed in the ball mill 1, a collection chamber 15 is installed below the ball mill 1, a connector 12 is installed on the left side in the collection chamber 15, a guide groove 23 is formed in the connector 12, a guide block 24 is installed in the guide groove 23, a support rod 14 is connected to the outside of the guide block 24, a jacking block 13 is installed below the support rod 14, the jacking block 13 is installed in the collection chamber 15, a discharge port 16 is installed on the right side of the collection chamber 15, a connecting pipe 2 is connected to the outside of the discharge port 16, a first steeping chamber 5 is installed at the other end of the connecting pipe 2, a second steeping chamber 10 is installed on the right side of the first steeping chamber 5, a wire body 3 is installed above the first steeping chamber 5, the wire body 3 moves through the guide roller 4, a post processor 9 is installed at the tail end of the wire body 3, a dryer 22 is installed inside the post processor 9, a wiper 21 is arranged below the left side of the post-processor 9, the wiper 21 is arranged outside the post-processor 9, a stirrer 32 is arranged in the first steeping chamber 5, connecting rods 31 are arranged on two sides of the stirrer 32, a movable rod 25 is arranged in the connecting rod 31, the movable rod 25 is connected with the connecting rod 31 through a connecting spring 26, a connecting block 29 is arranged at the tail end of the telescopic rod 17, a connecting groove 28 is arranged outside the connecting block 29, the connecting groove 28 is arranged in a folding plate 27, a scraping device 30 is arranged above the connecting rod 31, a discharging frame 6 is arranged on the left side of the first steeping chamber 5, a guide roller 4 is arranged in the discharging frame 6, a take-up frame 37 is arranged on the right side of the second steeping chamber 10, a take-up roller 7 is arranged in the take-up frame 37, a movable pressing block 35 is arranged above the take-up frame 37, and an inductor 36 is arranged on the inner side, an anti-falling groove 20 is formed in the wire winding roller 7, an anti-falling block 33 is installed in the anti-falling groove 20, the anti-falling block 33 is connected with a wire winding frame 37, an installation frame 38 is installed in the first impregnation chamber 5, an adjusting block 39 is installed in the installation frame 38, an ejector 40 is installed below the adjusting block 39, a connecting seat 34 is adopted between the guide roller 4 and the wire winding frame 37 for connection, and a water level sensor 8 is installed in the first impregnation chamber 5.

The bottom of the ball mill 1 is vertically provided with the filter screen 18, the filter screen 18 is in a circular arc shape, the aperture of the filter screen 18 is in a nanometer level, and the added mica can be conveniently ground to the nanometer level due to the design of the structure, so that the subsequent use is convenient.

The telescopic link 17 is installed perpendicularly to ball mill 1 below, and the below of telescopic link 17 is installed perpendicularly and is collected room 15 to for closely cooperating between collection room 15 and the ball mill 1, the design of above-mentioned structure, after the ball-milling is accomplished, can discharge mica through telescopic link 17.

The post-processor 9 is horizontally arranged on the outer side of the guide roller 4, the surface of the post-processor 9 is provided with the wiper 21 in a fitting mode, the aperture of the wiper 21 is the sum of the thicknesses of the wire body 3 and the impregnating varnish, the aperture of the wiper 21 is gradually increased from left to right, and the surface of the wire body 3 can be uniformly impregnated through the structural design.

The support rod 14 is vertically arranged in the collecting chamber 15, the angle of the support rod 14 is 60 degrees, the surface of the support rod 14 is smooth, and the mica ball-milling can smoothly enter the first dipping chamber 5 due to the structural design.

The connector 12 is mounted in the collecting chamber 15 in a fitting manner, the connector 12 is vertically provided with a guide groove 23, the center line of the guide groove 23 is overlapped with the center line of the guide block 24, the contact surfaces of the guide groove 23 and the guide block 24 are parallel, the guide groove 23 and the guide block 24 form a sliding structure, and the support rod 14 can gradually descend under the action of force due to the design of the structure.

The movable rod 25 is horizontally installed in the connecting rod 31, and the center line of the movable rod 25 and the center line of the connecting rod 31 coincide with each other, and the outer diameter of the movable rod 25 is smaller than the inner diameter of the connecting rod 31, and the above structure is designed such that the length of the connecting rod 31 can be adjusted.

The folding plate 27 is internally provided with a connecting groove 28, the central line of the connecting groove 28 and the central line of the connecting block 29 are overlapped, the inner diameter of the connecting groove 28 is larger than the outer diameter of the connecting block 29, meanwhile, the depth of the connecting groove 28 is larger than the connecting block 29, and the connecting groove 28 and the connecting block 29 are tightly matched, so that the telescopic rod 17 is tightly connected.

Install anticreep piece 33 in the spooler 37, and be swing joint between anticreep piece 33 and the spooler 37 to anticreep piece 33 and anticreep groove 20's central line coincides each other, and anticreep groove 20's internal diameter is greater than anticreep piece 33's external diameter simultaneously, the design of above-mentioned structure, thereby makes spooler 37 be convenient for dismantle.

The mounting frame 38 is vertically installed in the first impregnation chamber 5, the mounting frame 38 is made of corrosion-resistant materials, the adjusting block 39 is vertically installed in the mounting frame 38, meanwhile, the mounting frame 38 and the adjusting block 39 are movably connected, and the structure is designed to facilitate the worker to thread the thread.

The working principle is as follows: when the anti-precipitation automatic impregnating varnish device for the mica glass fiber covered electromagnetic wire is used, firstly, as shown in figure 1-2, mica needing ball milling is put into a ball mill 1, the mica is gradually ground into nano-scale under the action of a grinding ball 19 in the ball mill 1, the processed mica enters the bottom of the ball mill 1 through a filter screen 18, when the mica is processed to a certain quantity, an expansion rod 17 is opened to enable the mica to enter a collection chamber 15, a support rod 14 gradually slides downwards under the action of force along with the continuous increase of the mica, the mica enters a discharge port 16 along the support rod 14 due to the inclined angle of the support rod 14, the mica enters a first impregnating chamber 5 through a connecting pipe 2 connected with the discharge port 16, impregnating varnish is added into the first impregnating chamber 5, mica does not need to be added into a second impregnating chamber 10, a wire body 3 is put into a guide roller 4, and a device is started, the wire body 3 runs along the guide roller 4, under the action of the guide roller 4, the wire body 3 firstly enters the first impregnation chamber 5 for primary impregnation, after the wire body 3 is impregnated, the wire body enters the post-processor 9 along the guide roller 4, because the wiper 21 is arranged outside the post-processor 9, the impregnated paint attached to the wire body can be wiped, and the impregnated paint wiped after being affected by gravity falls into the impregnation chamber, thereby playing a role of recycling, the wire body 3 after being wiped runs, enters the dryer 22, receives the influence of the dryer 22, the wire body 3 is rapidly dried, the wire body 3 after being dried newly enters the first impregnation chamber 5, the impregnation is carried out for three times totally, when the impregnation is carried out for the fourth time, the second impregnation chamber 10 does not contain mica, thereby the last impregnation is finished, the wire body 3 after being impregnated is wound by the take-up roller 7, along with the line that receives the line roller 7 rolling constantly becomes more, activity briquetting 35 constantly upwards removes, inductor 36 has sensed when removing a certain position, the suggestion workman needs to replace receiving the line roller 7, press anticreep piece 33 and take out it from anticreep groove 20 when the replacement, dismantle receiving the line roller 7, after a batch line will soak soon to accomplish, inductor 36 in the play work or material rest 6 has sensed, the suggestion staff has expected to trade, under ejector 40's effect, guide roll 4 in the first flooding chamber 5 is ejecting, thereby be convenient for carry out the threading to guide roll 4, when the line body 3 flooding of next batch, agitator 32 and the scraping and grinding ware 30 in the flooding chamber are in continuous operation, thereby prevent that mica from appearing the phenomenon of deposit and absorption.

To thereby carry out a series of tasks, the contents of which are not described in detail in the present specification are prior art well known to those skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a mica glass silk package electromagnetic wire is with preventing automatic impregnating varnish device that deposits, includes ball mill (1), guide roll (4), first flooding chamber (5), aftertreatment ware (9) and collection room (15), its characterized in that: install grinding ball (19) in ball mill (1), and filter screen (18) are installed to the below of grinding ball (19), and telescopic link (17) are installed to the below of filter screen (18), install zone of heating (11) in ball mill (1), and the below of ball mill (1) installs collection chamber (15), and collect chamber (15) in the left side install connector (12), guide way (23) have been seted up in connector (12), and install guide block (24) in guide way (23), and the external connection of guide block (24) has die-pin (14), jack-up piece (13) is installed to the below of die-pin (14), and jack-up piece (13) are installed in collection chamber (15), discharge gate (16) are installed on the right side of collection chamber (15), and the external connection of discharge gate (16) has connecting pipe (2), and first flooding chamber (5) is installed to the other end of connecting pipe (2), a second impregnation chamber (10) is installed on the right side of the first impregnation chamber (5), a line body (3) is installed above the first impregnation chamber (5), the line body (3) moves through a guide roller (4), a post-processor (9) is installed at the tail end of the line body (3), a dryer (22) is installed inside the post-processor (9), a wiper (21) is installed below the left side of the post-processor (9), the wiper (21) is installed outside the post-processor (9), a stirrer (32) is installed in the first impregnation chamber (5), connecting rods (31) are installed on two sides of the stirrer (32), a movable rod (25) is installed in each connecting rod (31), the movable rod (25) and the connecting rods (31) are connected through a connecting spring (26), and a connecting block (29) is installed at the tail end of each telescopic rod (17), a connecting groove (28) is installed outside the connecting block (29), the connecting groove (28) is arranged in a folding plate (27), a scraper (30) is installed above the connecting rod (31), a discharging frame (6) is installed on the left side of the first impregnation chamber (5), a guide roller (4) is installed in the discharging frame (6), a wire winding frame (37) is installed on the right side of the second impregnation chamber (10), a wire winding roller (7) is installed in the wire winding frame (37), a movable pressing block (35) is installed above the wire winding frame (37), an inductor (36) is installed on the inner side of the movable pressing block (35), an anti-falling groove (20) is formed in the wire winding roller (7), an anti-falling block (33) is installed in the anti-falling groove (20), the anti-falling block (33) is connected with the wire winding frame (37), an installing frame (38) is installed in the first impregnation chamber (5), and install regulating block (39) in mounting bracket (38) to ejector (40) are installed to regulating block (39) below, adopt connecting seat (34) to be connected between guide roll (4) and take-up stand (37), install water level perception ware (8) in first flooding room (5).

2. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: a filter screen (18) is vertically installed at the bottom of the ball mill (1), the filter screen (18) is arc-shaped, and the aperture of the filter screen (18) is in a nanometer level.

3. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: the ball mill is characterized in that a telescopic rod (17) is vertically arranged below the ball mill (1), a collecting chamber (15) is vertically arranged below the telescopic rod (17), and the collecting chamber (15) is tightly matched with the ball mill (1).

4. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: the post-processor (9) is arranged on the outer side of the guide roller (4), the surface of the post-processor (9) is provided with a wiper (21) in a fitting mode, the aperture of the wiper (21) is the sum of the thicknesses of the wire body (3) and the dipped paint, and the aperture of the wiper (21) is gradually increased from left to right.

5. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: the support rod (14) is vertically arranged in the collection chamber (15), the angle of the support rod (14) is 60 degrees, and the surface of the support rod (14) is smooth.

6. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: the connector (12) is mounted in the collection chamber (15) in a fitting mode, the connector (12) is provided with a guide groove (23) vertically, the center line of the guide groove (23) and the center line of the guide block (24) coincide with each other, meanwhile, the contact surfaces of the guide groove (23) and the guide block (24) are parallel to each other, and the guide groove (23) and the guide block (24) form a sliding structure.

7. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: the movable rod (25) is horizontally arranged in the connecting rod (31), the center line of the movable rod (25) and the center line of the connecting rod (31) are overlapped, and the outer diameter of the movable rod (25) is smaller than the inner diameter of the connecting rod (31).

8. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: connecting groove (28) are arranged in folding plate (27), the center line of connecting groove (28) and the center line of connecting block (29) coincide with each other, the internal diameter of connecting groove (28) is greater than the external diameter of connecting block (29), the degree of depth of connecting groove (28) is greater than connecting block (29) simultaneously, and connecting groove (28) and connecting block (29) are in close fit.

9. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: install anticreep piece (33) in admission machine (37), and be swing joint between anticreep piece (33) and admission machine (37), and anticreep piece (33) and the central line of anticreep groove (20) coincide each other, and the internal diameter of anticreep groove (20) is greater than the external diameter of anticreep piece (33) simultaneously.

10. The automatic dipping paint device for preventing deposition of electromagnetic wires wrapped by mica glass fibers according to claim 1, which is characterized in that: the mounting frame (38) is vertically installed in the first impregnation chamber (5), the mounting frame (38) is made of corrosion-resistant materials, the adjusting block (39) is vertically installed in the mounting frame (38), and meanwhile the mounting frame (38) is movably connected with the adjusting block (39).

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