CN212189866U - Automatic color ring inductance coating system of control - Google Patents

Abstract

The utility model relates to an automatic control's color ring inductance coating system contains a plurality of coating machines (1) and drying-machine (2), carries color ring inductance circulation flow's flowing water area (8) between coating machine (1) and drying-machine (2), still contains unwinding device (3), coiling mechanism (4) and treats color ring inductance (9) of application, the utility model discloses set up cooling and rabbling mechanism in color ring inductance coating system, reduced the defective percentage of color ring inductance at the application process, improve productivity.

Description

Automatic color ring inductance coating system of control

Technical Field

The invention relates to a color wheel inductance manufacturing technology, in particular to an automatic control color wheel inductance coating system.

Background

An Inductor (Inductor) is a component that can convert electrical energy into magnetic energy for storage. The inductor is similar in structure to a transformer, but has only one winding. The inductor has an inductance that only impedes the change in current. If the inductor is in a state where no current is passing, it will try to block the current from flowing through it when the circuit is on; if the inductor is in a current passing state, the inductor will try to keep the current unchanged when the circuit is opened. Inductors are also known as chokes, reactors, dynamic reactors.

The color ring inductor is an inductor in the form of a coil wrapped by paint, has a very large effect in a circuit, generally plays a role in filtering and energy storage, has a function of adjusting power in the circuit, and has a very wide application range and a large demand in the circuit. The manufacturing process of the color ring inductor generally comprises the steps of processing a coil and then coating, wherein coating is an important link in the manufacturing process.

The coating process comprises the following steps: the coating is prepared in advance, then the coil of the inductor is coated on a coating machine, the traditional coating adopts a coating production line to operate, and the coating enters a drying cabinet to be dried.

The defective products can occur in the coating process, and the concept of the defective products in the coating process of the color ring inductor is that the coating on the surface of the color ring inductor is uneven, bulges, depressions or cracks occur, and the defective rate is an important production index for a factory for producing the color ring inductor on a large scale.

The traditional system has high defective rate and high labor intensity of workers after coating, and the coating is stirred once every 10 minutes and is filled with the proportioned coating, which is shown in the following aspects.

1: in summer, the environmental temperature is higher, and the color ring inductance after coating has a high defective rate. The defect rate is high because the temperature of the coating is too high during coating, and the thinner volatilizes more, so that the performance of the coating is easy to change in the inductor, and the fundamental reason is that the temperature of the coating is too high; the reason for the over-high temperature is that the equipment itself has heat, the front and the back are ovens, the heat is transferred by heat conduction, then in summer, the indoor temperature is higher, so that the initial temperature of all the equipment and the coating is higher, and as long as the equipment starts to operate, the temperature of the coating is gradually increased to 50-60 ℃.

2: the coating material is volatilized quickly, and more diluent is needed.

3: because the stirring is frequently needed, only one or two pieces of equipment can be kept manually, the working efficiency is low, and the problems are easy to occur.

The present invention seeks to solve the above problems and achieve a higher degree of automation by improving the system.

Disclosure of Invention

The invention aims to provide an automatically controlled color ring inductance coating system.

The design idea of the invention is that a cooling device is added on the original simple coating machine, the cooling device can prevent the temperature of the coating from being too high, a coating adding device is arranged at the same time, the coating adding device is similar to a drip irrigation device, the coating is slowly added into a coating tank, and a stirring structure is added aiming at the characteristic that the coating is in the tank, and because a thinner volatilizes, the surface of the coating forms a film, so that the coating in the coating tank is always kept in a relatively uniform state.

An automatically controlled color ring inductance coating system comprises a plurality of coating machines (1) and a dryer (2), a water flowing belt (8) in which a color ring inductor circularly flows is carried between the coating machine (1) and the dryer (2), and the device also comprises an unreeling device (3), a reeling device (4) and a color ring inductor (9) to be coated, it is characterized in that a coating machine (1) is arranged along the flowing direction of a water flowing belt (8), a dryer (2) is arranged behind the coating machine, then arranging a coating machine (1) and a dryer (2) for circulation in turn, namely, the inductor to be coated alternately enters the coating machine (1) and the dryer (2) until the coating operation is finished, the running water belt 8 is driven by a motor and a gear matched with the running water belt, the coating machine (1) comprises a coating mechanism (11), a stirring mechanism (7) and a coating filler device (10); meanwhile, the coating mechanism (11) is connected with a water cooling machine (6) for providing cooling water, a coating filler device (10) for slowly conveying coatings downwards is arranged above the coating mechanism (11), the stirring mechanism (7) is arranged on the coating mechanism (11) and is used for stirring the coatings in the coating mechanism (11), the coating mechanism (11) comprises a coating groove (111), a coating roller (112) arranged below the color wheel inductor (9) and an oblique pressing strip (113) arranged above the color wheel inductor (9), and cold water output by the water cooling machine (6) passes through the interior of the coating groove (111) to reduce the temperature of the cold water.

The coating mechanism (11) is used for coating key components of the color ring inductor, the coating roller (112) rotates continuously, the lower end of the coating roller is immersed in the coating, then the coating roller carries the coating to contact the color ring inductor (9), the color ring inductor (9) is adhered with the coating, and meanwhile, the upper oblique pressing strip (113) presses the color ring inductor (9) to avoid the color ring inductor from bouncing or moving too much.

Furthermore, the coating material groove (111) comprises a coating material containing groove (1112) for containing coating material, a cavity (1113) is arranged below the coating material groove, a water inlet pipe (1114) extending to the bottom of the cavity is inserted into the cavity, a cavity water outlet (1155) is arranged beside the water inlet pipe, the water cooling machine (6) is connected with a cold water conveying pipe to the water inlet pipe (1114), and meanwhile, a water discharging pipe to the cavity water outlet (1115) is connected.

Further, rabbling mechanism (7) contain carousel (71), connecting rod (72) with carousel (71) swing joint and stirring dish (73) with connecting rod swing joint constitute, stirring dish (73) contain stock (731), set up quarter butt (735) that is used for stirring coating on the stock, set up a connecting hole (732) on stock (731), stock (731) are through connecting hole (732) and connecting rod (72) swing joint, rotary motion is done in carousel (71), the carousel makes stirring dish (73) swing motion back and forth through stock (731), stirring dish (73) are placed in flourishing silo (1112).

Further, the cold water machine (6) outputs cold water with the temperature of 10-30 ℃, the cold water can cool the whole containing groove (1112), so that the coating in the containing groove can be cooled, the temperature of the output cold water determines the cooling efficiency, according to experience, the temperature of the coating is better within the range of 20-30 ℃, therefore, the temperature of the cold water is better within the range, but in summer, the heat is larger, the temperature of a little can be reduced, and the cooling efficiency is better.

Further, the coating material filling device (10) comprises a coating material storage tank (101) and a coating material delivery pipe (103), wherein the coating material storage tank (101) is arranged at a position higher than 30cm away from the bottom of the material containing groove (1112), the coating material delivery pipe (103) is connected into the material containing groove (1112) below the coating material storage tank (101), and a mechanical valve or an electromagnetic valve (102) for controlling the flow of the coating material is arranged on the coating material delivery pipe (103).

Furthermore, the color ring inductor (9) is clamped at two ends by an upper layer of adhesive tape (9 a) and a lower layer of adhesive tape (9 a) so as to facilitate transferring the color ring inductor (9), the adhesive tape (9 a) is essentially a package material and is usually clamped by masking paper, the effect of fixing the color ring inductor (9) is better, when the unwinding device (3) discharges the color ring inductor (9), the adhesive tape (9 a) is unloaded by a roller winding the adhesive tape (9 a), namely, the color ring inductor (9) is arranged in the water flowing area (8) in a single form, and when the color ring inductor (9) is wound by the winding device (4), the adhesive tape (9 a) is firstly pasted on two sides of the color ring inductor (9) so as to realize winding and winding.

Furthermore, a limiting mechanism which presses the long rod (731) to enable the long rod (731) to only swing is arranged above the long rod (731) of the stirring plate (73).

Further, the coating trough (111) is made of a metal steel plate, a stainless steel plate or an aluminum alloy plate, and the outer surface of the coating trough is coated with heat-insulating coating.

Further, the coating machine (1) and the dryer (2) form a group, the total number is more than 3, correspondingly, the water cooling machine (6) is respectively connected with the interior of the coating machine (1) through a water pipe to provide cold water, more than 3 groups are set, the aim of coating a thin layer at one time is to perform drying, and then a layer is coated until the coating is completed, 5-6 groups are generally needed to complete the coating work, and a plurality of groups of color ring inductors with certain specifications can be completely coated.

Further, the coating is a thick coating with fluidity, is an insulating coating which is prepared according to the performance of the coil, is usually insulating, and is usually made of resin materials.

The invention has the following advantages:

1: cold water is produced by a compressor and then is guided into a bottom box body containing the coating, so that the bottom is cooled, the coating is cooled, and poor coating effect caused by overhigh coating temperature is avoided, and the defective rate is reduced;

2: inside rabbling mechanism that sets up like this coating can not appear condensing easily, need not separate 10 minutes and stir once operation, if a equipment has 5 coating machines, in 10 minutes again, will stir the coating in 5 coating machines, on average 2 minutes stir one, manual stirring is in the coating tank by a stick, and the stirring makes a round trip, and one set of coating assembly line needs a skilled workman to keep on in the past usually, if be equipped with rabbling mechanism, alone, can keep on several sets of coating assembly lines.

4: the feeding device is arranged, and the regulating valve or the valve is arranged, so that manual feeding is not needed, and the labor intensity is reduced.

Drawings

Fig. 1 is a schematic diagram of an automatically controlled color wheel inductive coating system.

Fig. 2 is a schematic view of the color wheel inductor fixed in a strip by an adhesive tape.

Fig. 3 is a schematic diagram of the color wheel inductor arranged on the water flowing belt (8).

Fig. 4 is a schematic view of the coater and stirring structure and water chiller.

Fig. 5 is a schematic view of a coater.

FIG. 6 is a schematic view of a paint tank.

Fig. 7 is a stir plate illustration.

FIG. 8 is a perspective view of a paint tank.

Detailed Description

The present invention will be described in detail below with reference to specific embodiments and the accompanying drawings.

The design idea of the invention is that a cooling device is added on the original simple coating machine, the cooling device can prevent the temperature of the coating from being too high in summer, a coating adding device is arranged, the coating adding device is similar to a drip irrigation device, the coating is slowly added into a coating groove, and a stirring structure is added aiming at the characteristic that the coating forms a film on the surface in the coating groove, so that the coating in the coating groove is kept in a relatively uniform state all the time.

Referring to fig. 1-8, an automatic control color ring inductance coating system comprises a plurality of coating machines 1 and dryers 2, a running water belt 8 in which a color ring inductance circularly flows is carried between the coating machines 1 and the dryers 2, and further comprises an unwinding device 3, a winding device 4 and a color ring inductance 9 to be coated, and is characterized in that one coating machine 1 is arranged along the flowing direction of the running water belt 8, then one dryer 2 is arranged, then one coating machine 1 is arranged, then one dryer 2 is arranged, and the processes of circulating in sequence are performed, that is, the color ring inductance to be coated alternately enters the coating machine 1 and the dryer 2 until the coating operation is completed, the running water belt 8 is driven by a motor and a gear matched with the running water belt, and the coating machine 1 comprises a coating mechanism 11, a stirring mechanism 7 and a paint filling device 10; meanwhile, the coating mechanism 11 is connected with a water cooling machine 6 for providing cooling water, a coating filler device 10 for slowly conveying the coating downwards is arranged above the coating mechanism 11, the stirring mechanism 7 is arranged on the coating mechanism 11 and is used for stirring the coating in the coating mechanism 11, the coating mechanism 11 comprises a coating tank 111, a coating roller 112 arranged below the color wheel inductor 9 and an inclined pressing bar 113 arranged above the color wheel inductor 9, and the temperature of cold water output by the water cooling machine 6 is reduced by passing through the interior of the coating tank 111.

Referring to fig. 1, the present embodiment does not describe a frame for supporting the coater unit 1 and the dryer 2, and the frame is a relatively simple frame, which is usually a metal frame or an iron frame, and the water flowing belt 8 is placed on the frame, and then the coater unit 1 and the dryer 2 are installed in the above order, and then other necessary accessories are installed.

The dryer 2 is used for immediately drying the paint on the color ring inductor, the dryer 2 is common in structure, the paint is heated and dried by a heating rod or a hot air blower, description is not carried out, volatile matters exist during drying, an exhaust fan (not shown) is usually arranged on the dryer 2, the common exhaust fan can be used for exhausting the volatile matters in the drying process, and the dryer has a certain length, so that the color ring inductor is immediately dried in the flowing process.

Referring to fig. 3, the water flowing belt 8 is constructed to fit the shape of the color ring inductor array flow and the interval blocking piece, one blocking piece is arranged on one color ring electric pole, and guard plates are usually arranged on both sides of the water flowing belt 8 to limit the color ring inductor from deviating from the water flowing belt 8, because the technology is common and will not be described.

As shown in fig. 5, the coating mechanism 11 is used to coat the key components of the color wheel inductor, the coating roller 112 rotates continuously, the lower end thereof is immersed in the coating, and then the coating is brought into contact with the color wheel inductor 9, so that the color wheel inductor 9 is adhered with the coating, and the upper oblique pressing strip 113 presses the color wheel inductor 9 to prevent it from bouncing up or moving too much.

The paint roller 112 is typically rotated by a motor at a speed that matches the flow rate of the fashion line 8 so that the coating is consistent.

Specifically, the paint tank 111 includes a material containing tank 1112 for containing paint, a cavity 1113 is arranged below the material containing tank, a water inlet pipe 1114 extending to the bottom of the cavity is inserted into the cavity 1113, a cavity water outlet 1155 is arranged beside the water inlet pipe, and the water chiller 6 is connected with a cold water delivery pipe to the water inlet pipe 1114 and a water outlet pipe to the cavity water outlet 1115.

The inlet tube 1114 inserts in the cavity 1113, and this kind of water can only flow toward the cavity outlet 1115 direction in the cavity, and the cold water that passes through like this can't stop in cavity 1113, and it is once to notice that the cavity is in both sides, sets up into water, sets up the drainage once, also can reach same effect, sets up cavity outlet 1115 and inlet tube 1114 in one side, and it is more convenient to connect the pipe like this.

Specifically, the stirring mechanism 7 comprises a rotating disc 71, a connecting rod 72 movably connected with the rotating disc 71 and a stirring disc 73 movably connected with the connecting rod, the stirring disc 73 comprises a long rod 731 and a short rod 735 arranged on the long rod and used for stirring the coating, a connecting hole 732 is arranged on the long rod 731, the long rod 731 is movably connected with the connecting rod 72 through the connecting hole 732, the rotating disc 71 rotates, the stirring disc 73 is driven by the rotating disc 71 to swing back and forth through the long rod 731, and the stirring disc 73 is placed in the material containing groove 1112.

The stirring plate 73 swings back and forth, that is, the stirring action is performed, and in order to show that the stirring plate 73 is not deformed, two rollers are arranged above the stirring plate for pressing, so that the stirring plate is limited to swing upwards.

As shown in fig. 4, the stirring mechanism 7 is used to stir the paint without too fast, so the turntable 71 should rotate slowly, and the stirring mechanism 7 can be implemented in various ways, and the structure of converting the rotation in the mechanical field into the swing motion can be used.

Specifically, the cold water machine 6 outputs cold water with a temperature of 10-30 degrees, and the cold water can cool the whole material containing groove 1112, so that the coating material in the material containing groove can be cooled, the temperature of the output cold water determines the cooling efficiency, according to experience, the temperature of the coating material is better at 20-30 degrees, so that the temperature of the cold water is better in the range, but in summer, the temperature of the coating material can be higher than 50 degrees, so that the temperature of the cold water can be reduced, and the cooling efficiency is better.

The water chiller 6 is common, and is a water cooling device, and is a cooling water device capable of providing constant temperature, constant flow and constant pressure. The working principle of the water cooler is that a certain amount of water is injected into a water tank in the water cooler, the water is cooled by a cooling system of the water cooler, low-temperature cooling water is sent to equipment to be cooled by a water pump, and the chilled water of the water cooler takes away heat, rises in temperature and then flows back to the water tank to achieve the cooling effect. The cooling water temperature can be automatically adjusted according to requirements, and water can be saved after long-term use. The cooling principle of the water chiller is as follows: the water chiller system operates through three interrelated systems: refrigerant circulating system, water circulating system, electrical apparatus autonomous system. A water chiller refrigerant circulation system: the liquid refrigerant in the evaporator absorbs the heat in the water and begins to evaporate, a certain temperature difference is formed between the final refrigerant and the water, the liquid refrigerant is completely evaporated and changed into a gas state, then the gas refrigerant is sucked by a compressor, the compression pressure and the temperature are increased, the gas refrigerant absorbs the heat through air cooling/water cooling of a condenser, the gas refrigerant is condensed into liquid, the liquid refrigerant is changed into low-temperature and low-pressure refrigerant after being throttled by a thermostatic expansion valve or a capillary tube and enters the evaporator, and the refrigerant circulation process is completed; particularly, the related devices of the cold water machine 6 are more, such as a cold water drinking machine, the construction principle is the same, so the description is not expanded, and meanwhile, in the invention, the required cold water quantity is not very large, so the cold water machine is relatively easy to purchase in the market, and the circulating water is generally adopted.

As shown in fig. 4, specifically, the paint filling apparatus 10 includes a paint storage tank 101 and a paint delivery pipe 103, the paint storage tank 101 is disposed at a position higher than 30cm from the bottom of a material containing groove 1112, the paint delivery pipe 103 is connected to the material containing groove 1112 below the paint storage tank 101, and a mechanical valve or an electromagnetic valve 102 for controlling the flow rate of paint is disposed on the paint delivery pipe 103.

As shown in fig. 2, specifically, the color ring inductor 9 is clamped at two ends by two layers of upper and lower adhesive tapes 9a, so as to facilitate transporting the color ring inductor 9, the adhesive tapes 9a are essentially packaged objects, and usually, a textured paper clamp tape is used to fix the color ring inductor 9 with better effect, when the unwinding device 3 discharges the color ring inductor 9, the adhesive tapes 9a are unloaded by a roller winding the adhesive tapes 9a, that is, the color ring inductors 9 are arranged in the fluid tape 8 in a single form, and when the winding device 4 winds up the color ring inductor 9, the color ring inductor 9 firstly sticks the adhesive tapes 9a at two sides to realize winding and winding.

As shown in fig. 7, specifically, a limiting mechanism for pressing the long rod 731 of the stirring plate 73 to make the long rod 731 only swing is disposed above the long rod 731, the limiting mechanism of the present invention is two rollers, and the limiting mechanism can also be a guide rail groove, an insertion tube type limiting mechanism, and there are many mechanical structures that can be selected by such a limiting mechanism, and it should be noted that the limiting mechanism may not be disposed, because the long rod 731 and the stirring plate 73 have a certain weight, it is not easy to bounce in the height direction.

Specifically, the coating bath 111 is made of a metal steel plate or a stainless steel plate or an aluminum alloy plate, and has an outer surface coated with a heat-insulating coating material, which is durable.

The applicator slot 111 is desirably thermally conductive while being durable, as shown in fig. 8, which shows a three-dimensional appearance, and it is to be understood that the applicator slot 111 is provided with a diagonal tab 1116 to facilitate viewing and temporary inspection.

As shown in fig. 1, specifically, the coating machine 1 and the dryer 2 form a group, there are more than 3 groups, correspondingly, the water cooler 6 is connected to the coating machine 1 through a water pipe, to provide cold water, the purpose of setting more than 3 groups is to coat a thin layer at a time, then dry, and coat a layer again, until the coating is completed, 5-6 groups are generally needed to complete the coating work, and some specifications of color ring inductors need more groups to complete the coating, in this embodiment, 5 groups are set.

Specifically, the paint is a viscous paint having fluidity, and is an insulating paint that is well formulated according to the properties of the color sensing coil, and can flow downward from the paint storage tank 101 under the action of gravity, and can adhere to the paint roller 112, and the existing paints generally have such characteristics, and are generally insulating resins.

The invention has the following advantages:

1: cold water is processed by a cold water machine, and then the cold water is guided into a cavity containing the coating, so that the bottom is cooled, and the coating is cooled, thereby avoiding poor coating effect caused by overhigh coating temperature and further reducing defective rate;

2: inside rabbling mechanism that sets up like this coating can not appear condensing easily, need not separate 10 minutes and stir the operation once, if a equipment has 5 coating machines, in 10 minutes again, will stir the coating in 5 coating machines, on average 2 minutes stir one, manual stirring is in the coating tank by a stick, and the stirring of making a round trip, and it is usually one set of coating assembly line in the past and need a skilled workman to keep on, if be equipped with rabbling mechanism, alone, can keep on several sets of coating assembly lines.

4: the feeding device is arranged, and the regulating valve or the valve is arranged, so that manual feeding is not needed, and the labor intensity is reduced.

5: the whole place that needs manual operation is, dress color ring inductance and unload the color ring inductance, adorn coating simultaneously, pour the quantity of one day into toward coating storage jar 101 promptly, because the work load greatly reduced of a system, consequently can watch on many systems alone, efficiency improves.

The invention has the greatest advantages that the reason of high defective rate is found out, and a proper structure is arranged according to the reason, so that the defective rate is reduced, and the labor productivity is improved.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (10)

1. An automatically-controlled color ring inductance coating system comprises a plurality of coating machines (1) and a dryer (2), wherein a water flowing belt (8) with color ring inductance flowing circularly is carried between the coating machines (1) and the dryer (2), the system also comprises an unwinding device (3), a winding device (4) and a color ring inductance (9) to be coated, and the system is characterized in that the coating machines (1) and the dryer (2) are sequentially arranged along the flowing direction of the water flowing belt (8), namely, the color ring inductance to be coated alternately enters the coating machines (1) and the dryer (2) until the coating operation is finished, the water flowing belt (8) is driven by a motor and a gear matched with the water flowing belt, and the coating machines (1) comprise coating mechanisms (11), stirring mechanisms (7) and paint filler devices (10); meanwhile, the coating mechanism (11) is connected with a water cooling machine (6) for providing cooling water, a coating filler device (10) for slowly conveying coatings downwards is arranged above the coating mechanism (11), the stirring mechanism (7) is arranged on the coating mechanism (11) and is used for stirring the coatings in the coating mechanism (11), the coating mechanism (11) comprises a coating groove (111), a coating roller (112) arranged below the color wheel inductor (9) and an oblique pressing strip (113) arranged above the color wheel inductor (9), and cold water output by the water cooling machine (6) passes through the interior of the coating groove (111) to reduce the temperature of the cold water.

2. The automatic control color wheel inductance coating system according to claim 1, wherein the coating material tank (111) comprises a material containing tank (1112) for containing coating material, a cavity (1113) is arranged below the material containing tank, a water inlet pipe (1114) extending to the bottom of the cavity is inserted into the cavity, a cavity water outlet (1115) is arranged beside the water inlet pipe, and the water cooler (6) is connected with a cold water conveying pipe to the water inlet pipe (1114) and is also connected with a water outlet pipe to the cavity water outlet (1115).

3. The automatic control color wheel inductance coating system according to claim 2, wherein the stirring mechanism (7) comprises a rotary table (71), a connecting rod (72) movably connected with the rotary table (71) and a stirring disc (73) movably connected with the connecting rod, the stirring disc (73) comprises a long rod (731) and a short rod (735) arranged on the long rod and used for stirring the coating, a connecting hole (732) is arranged on the long rod (731), the long rod (731) is movably connected with the connecting rod (72) through the connecting hole (732), the rotary table (71) rotates, the rotary table enables the stirring disc (73) to swing back and forth through the long rod (731), and the stirring disc (73) is placed in the material containing groove (1112).

4. The automatically controlled color wheel induction coating system according to claim 2, characterized in that the cold water machine (6) outputs cold water at a temperature between 5-30 degrees.

5. The automatically controlled color wheel induction coating system according to claim 1, wherein the coating filler device (10) comprises a coating storage tank (101) and a coating delivery pipe (103), the coating storage tank (101) is higher than the material containing groove (1112), the coating delivery pipe (103) is connected to the material containing groove (1112) below the coating storage tank (101), and a mechanical valve or an electromagnetic valve (102) for controlling the flow of the coating is arranged on the coating delivery pipe (103).

6. The automatic control color wheel inductor coating system according to claim 1, wherein the color wheel inductor (9) is clamped at both ends by upper and lower layers of adhesive tapes (9 a), and when the unwinding device (3) discharges the color wheel inductor (9), the adhesive tapes (9 a) are unwound by a roller winding the adhesive tapes (9 a), i.e. the color wheel inductors (9) are arranged in the form of a single piece on the water flowing tape (8), and when the color wheel inductor (9) is wound up by the winding device (4), the adhesive tapes (9 a) are firstly adhered at both sides of the color wheel inductor (9) to realize winding and winding.

7. The automatic control color wheel inductance coating system of claim 3, characterized in that a limiting mechanism for pressing the long rod (731) to make it only swing is arranged above the long rod (731) of the stirring plate (73).

8. The automatically controlled color wheel induction coating system of claim 1, wherein the coating bath (111) is made of a metal steel plate or a stainless steel plate or an aluminum alloy plate, and its outer surface is coated with a heat-insulating coating.

9. The automatic control color wheel inductance coating system according to claim 1, wherein the coating machine (1) and the dryer (2) are combined into one group, the total number is more than 3 groups, and correspondingly, the water cooling machines (6) are respectively connected with the coating machine (1) through water pipes to provide cold water.

10. The automatically controlled color wheel induction coating system of claim 1, wherein the coating is a viscous coating having fluidity.

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