CN108675647A - Coating equipment - Google Patents

Abstract

The invention discloses a coating device, which comprises a coating supply device and a coating device; the coating material supply device comprises a coating material stirring mechanism; the coating stirring mechanism comprises a stirring mechanism bracket, a charging barrel and a driving motor; a stirring magnet is arranged in the charging barrel; a magnet mounting plate is arranged at the motor output end of the driving motor, and a preset distance is arranged between the magnet mounting plate and the barrel bottom of the charging barrel; a magnet is arranged on the magnet mounting plate; the paint coating device comprises a paint coating mechanism; the coating mechanism comprises a coating mechanism bracket and a hairbrush; the charging barrel is communicated with the brush through a liquid supply pipe, and a liquid supply pump is arranged on the liquid supply pipe. The automatic stirring device realizes automatic operation, improves the stirring effect, has uniform bottom coating, improves the product quality, simplifies the structure of a system and reduces the production cost.

Description

A kind of coating equipment

Technical field

The present invention relates to technical field of automobile manufacture, more particularly to a kind of coating equipment.

Background technology

Windshield is required for coating primary coat, contains chemical solvent in primary coat.Primary coat needs to be coated in glass in advance On, a tunic is formed after solidification, can improve adhesion.

In the prior art, primary coat is manually to be applied on windscreen, operating environment very severe, is unfavorable for protecting staff Health.

In addition, in the prior art, needing specially to be stirred the jar rotation equipped with primary coat solution, or need jar Interior setting moving blade is stirred, cause it is complicated, it is of high cost.

In addition, in the prior art, windshield is in cambered surface, it can not ensure that the thickness for being coated in primary coat on glass is consistent, shadow Ring the quality of product.

Invention content

The purpose of the present invention is to provide it is a kind of can realize automated job, stir evenly, primary coat coating effect it is good Coating equipment.

Technical solution of the present invention provides a kind of coating equipment, including paint feeding device and coating coating unit；

The paint feeding device includes mould wash mixer structure；

The mould wash mixer structure includes rabbling mechanism holder, barrel and driving motor；

The barrel is fixedly mounted on the rabbling mechanism holder, and at least one stirring magnetic is provided in the barrel Body；

The driving motor is fixedly mounted on the rabbling mechanism holder, is set on the motor output end of the driving motor Be equipped with magnet mounting plate, between the magnet mounting plate and the cylinder bottom of the barrel between be separated with pre-determined distance；

At least one piece is provided on the magnet mounting plate for driving the stirring magnet to be rolled in the barrel Magnet, the magnet is biased in the side of the motor output end；

The coating coating unit includes coating coating mechanism；

The coating coating mechanism includes coating mechanism holder and is arranged on the coating mechanism holder and can be upper and lower The hairbrush of sliding；

The barrel is connected to the hairbrush by liquid supply pipe, and solution feed pump is provided on the liquid supply pipe.

Further, the paint feeding device further includes being useful for into the barrel conveying high-pressure gas with will be described Coating in barrel is delivered to the gas supply mechanism of the liquid supply pipe；

The gas supply mechanism includes sequentially connected gas purification processing unit and gas dry unit, the gas Drying unit is connected to by air supply pipe with the barrel.

Further, it is extended with motor extension board on the driving motor, barrel extension is extended on the barrel Plate；

The barrel extension board is located at the top of the motor extension board, and is fixedly connected with the motor extension board；

It is additionally provided with weighing sensor between the motor extension board and the barrel extension board.

Further, it is provided with laterally extending bar on the coating mechanism holder, be arranged in the laterally extending bar There is at least one fixed pulley, bracing wire is disposed on the fixed pulley；

It is located on the coating mechanism holder below the laterally extending bar and is additionally provided with for driving the hairbrush The elevating mechanism of lifting；

The elevating mechanism includes the first mounting plate and the hairbrush that can be slided up and down on first mounting plate installation Plate；

First mounting plate is connect with the coating mechanism holder, and the hairbrush is mounted on the hairbrush mounting plate, The hairbrush mounting plate is slidably connected with first mounting plate；

Wherein, one end of the bracing wire is connect with the hairbrush mounting plate, and mass is hung on the other end.

Further, it is located on the coating mechanism holder below the laterally extending bar and is additionally provided with shield, institute Mass is stated to be located in the shield.

Further, the second mounting plate is also associated between first mounting plate and can on coating mechanism holder The third mounting plate slided up and down on second mounting plate；

Second mounting plate is fixed on the coating mechanism holder, the third mounting plate and second mounting plate It is slidably connected, first mounting plate is fixedly connected with the third mounting plate；

The driving mechanism for driving the third mounting plate to slide up and down, institute are additionally provided on second mounting plate Third mounting plate is stated to connect with the output end of the driving mechanism；

Under the action of the driving mechanism, the hairbrush has operating position and off-position.

Further, the coating coating unit further includes being useful for preventing the hairbrush in the off-position Dry anti-drying mechanism.

Further, the anti-drying mechanism includes anti-drying mechanism rack and is arranged in the anti-drying mechanism rack Anti-drying cylinder, the anti-drying cylinder includes filling the anti-drying fluid cylinder of anti-drying liquid and for recycling the anti-drying of anti-drying liquid Liquid recovery cylinder；

It is equipped on the anti-drying fluid cylinder for injecting gas into the anti-drying fluid cylinder so that described anti-drying Liquid gasifies to form the gas injection valve of anti-drying gas, is also associated on the anti-drying fluid cylinder for the anti-drying gas is defeated Go out to the air shooter in the anti-drying liquid recovery cylinder；

When the hairbrush is in the off-position, the hairbrush is at least partially disposed at the anti-drying liquid recovery cylinder Nozzle in.

Further, the funnel for accommodating the hairbrush is provided on the nozzle of the anti-drying liquid recovery cylinder Portion, is provided with sealing cover in the open top of the pars infundibularis, the bottom opening of the pars infundibularis with it is described anti-drying The nozzle of liquid recovery cylinder connects；

When the hairbrush is in the off-position, the hairbrush is at least partially disposed in the pars infundibularis.

Further, one end of the air shooter is connected on the nozzle of the anti-drying fluid cylinder, and the other end connects It is connected on the pars infundibularis.

Further, the side close to the anti-drying fluid cylinder on the anti-drying mechanism rack is provided with for monitoring First liquid level sensor of the liquid level in the anti-drying fluid cylinder；

The side of the close anti-drying liquid recovery cylinder is provided with described for monitoring on the anti-drying mechanism rack Second liquid level sensor of the liquid level in anti-drying liquid recovery cylinder；

In the vertical direction, second liquid level sensor is located at the top of first liquid level sensor.

Further, it is additionally provided on the anti-drying mechanism rack for pushing the anti-drying fluid cylinder and described anti- The pushing mechanism that dry liquid recovery cylinder moves up and down.

Using above-mentioned technical proposal, have the advantages that：

By the way that the paint feeding device and coating coating unit of automation is arranged, automated job is realized.

By the way that stirring magnet is arranged in barrel, magnet is set in the output end of driving motor, and make magnet bias cloth It sets, so that forming magnetic coupling between driving motor and barrel, under the drive of magnet, stirring magnet rolls in barrel, It realizes stirring action, improves mixing effect, simplify the structure of barrel.

It is slided up and down by its own gravity under mass drive by making hairbrush, so that hairbrush is on glass Uniformly coating primary coat, consistency of thickness, improves product quality everywhere.

By the way that the hairbrush for being in off-position to be placed in anti-drying mechanism, it can prevent hairbrush from doing when not in use It is dry.

Coating equipment provided by the invention as a result, realizes automated job, improves mixing effect, and primary coat coating is equal It is even, product quality is improved, the structure of system is simplified, reduces production cost.

Description of the drawings

Fig. 1 is the system schematic of coating equipment provided by the invention；

Fig. 2 is the structural schematic diagram of paint feeding device；

Fig. 3 is the structural schematic diagram of mould wash mixer structure；

Fig. 4 is the structural schematic diagram of coating coating mechanism；

Fig. 5 is the structural schematic diagram of anti-drying mechanism.

Specific implementation mode

Specific implementation mode to further illustrate the present invention below in conjunction with the accompanying drawings.Wherein identical parts are with identical Reference numeral indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "up" and "down" Refer to that the direction in attached drawing, word "inner" and "outside" refer respectively to the direction towards or away from geometric center of specific component.

As shown in Figs. 1-3, a kind of coating equipment that one embodiment of the invention provides, including paint feeding device 100 and painting Expect coating unit 200.

Paint feeding device 100 includes mould wash mixer structure 1.

Mould wash mixer structure 1 includes rabbling mechanism holder 11, barrel 12 and driving motor 13.

Barrel 12 is fixedly mounted on rabbling mechanism holder 11, and at least one stirring magnet 121 is provided in barrel 12.

Driving motor 13 is fixedly mounted on rabbling mechanism holder 11, and magnetic is provided on the motor output end of driving motor 13 It is separated with pre-determined distance between the cylinder bottom of iron mounting plate 131, magnet mounting plate 131 and barrel 12.

At least one block magnet for driving stirring magnet 121 to be rolled in barrel is provided on magnet mounting plate 131 132, magnet 132 is biased in the side of motor output end.

Coating coating unit 200 includes coating coating mechanism 3.

Coating coating mechanism 3 includes coating mechanism holder 31 and is arranged on coating mechanism holder 31 and can slide up and down Hairbrush 32.

Barrel 12 is connected to hairbrush 32 by liquid supply pipe 5, and solution feed pump 51 is provided on liquid supply pipe 5.

The coating equipment is mainly used for coating primary coat to glass (such as shield glass).

The coating equipment is mainly made of paint feeding device 100 and coating coating unit 200, paint feeding device 100 For supplying bottom-coating to coating coating unit 200, coating coating unit 200 is used for vitreous coating primary coat.

Paint feeding device 100 includes mould wash mixer structure 1, is used to be stirred bottom-coating, so that its solution Uniformly, it and can prevent from precipitating with solution, to avoid influencing to coat effect.

Mould wash mixer structure 1 is mainly made of rabbling mechanism holder 11, barrel 12 and driving motor 13, barrel 12 and driving Motor 13 is fixedly arranged on rabbling mechanism holder 11.

It is additionally provided with control display screen 14 on rabbling mechanism holder 11, automated job may be implemented.

Driving motor 13 is located at the lower section of barrel 12, and stirring magnet 121 is disposed in barrel 12, preferably stirs magnetic Ball can roll under magneticaction and in barrel 12, to stir bottom-coating in barrel 12, to simplify barrel 12 structure.

The motor output end of driving motor 13 extends towards the cylinder bottom of barrel 12, and the setting of magnet mounting plate 131 is in driving electricity On the output end of machine 13, and at regular intervals, realization magnetic coupling connection between the two is spaced between the cylinder bottom of barrel 12.Magnet 132 be mounted on magnet mounting plate 131 on, be also spaced between the cylinder bottom of barrel 12 it is at regular intervals, and magnet 132 bias In the side of motor output end, it that is to say magnet 132 relative to motor output end eccentric setting.

So arrangement, when driving motor 13 rotates, magnet mounting plate 131 can drive eccentric magnet 132 to surround motor Output end rotates, and then drives stirring magnet 121 in barrel 12 to be rolled in barrel 12 by magnetic force, to stir in barrel 12 Bottom-coating so that bottom-coating ingredient is uniformly dispersed.

Preferably, magnet 132 is in the cylinder bottom of barrel 12 in the drop shadow spread on magnet mounting plate 131, so that magnet Magnetic coupling between 132 and stirring magnet 121 is in optimum state.

Coating coating mechanism 3 is used for vitreous coating primary coat comprising coating mechanism holder 31 and hairbrush 32.Hairbrush 32 is set It sets on coating mechanism holder 31 and can slide up and down, so as to be automatically adjusted according to the radian of glass, to keep Coated in the bottom-coating consistency of thickness on glass.

Solution feed pump 51 is constant displacement pump, can supply specified amount bottom-coating into hairbrush 32 as needed.

The uniform bottom-coating of ingredient is by the way that by liquid supply pipe 5 and the supply of solution feed pump 51, to hairbrush 32, hairbrush 32 is by primary coat Coating is coated on glass to be processed.

Coating equipment provided by the invention as a result, realizes automated job, improves mixing effect, and primary coat coating is equal It is even, product quality is improved, the structure of system is simplified, reduces production cost.

Preferably, as shown in Figs. 1-2, paint feeding device 100 further includes being useful for the conveying high-pressure gas into barrel 12 The coating in barrel 12 to be delivered to the gas supply mechanism 2 of liquid supply pipe 5.

Gas supply mechanism 2 includes sequentially connected gas purification processing unit 21 and gas dry unit 22, and gas is dry Dry unit 22 is connected to by air supply pipe 23 with barrel 12.

It, then will be in barrel 12 into feeding cylinder 12 after gas purification is handled and be dried by gas supply mechanism 2 Bottom-coating is pressed into liquid supply pipe 5, then by solution feed pump 51 by bottom-coating weight feed hairbrush 32.

Barrel 12 is sealing drum, extrudes bottom-coating by the pressure-air after purified and drying, can prevent bottom It is contaminated to apply coating.

Since bottom-coating contains chemical solvent, if in barrel 12 be arranged mechanical structure driving element for will in The bottom-coating in portion extrudes, and bottom-coating is easy to chemically react with driving element so that bottom-coating is contaminated, is also easy Driving element is set to be corroded damage.

Preferably, as shown in figure 3, be extended with motor extension board 133 on driving motor 13, material is extended on barrel 12 Cylinder extension board 122.

Barrel extension board 122 is located at the top of motor extension board 133, and is fixedly connected with motor extension board 133.

Weighing sensor 15 is additionally provided between motor extension board 133 and barrel extension board 122.

When weighing sensor 15 monitors when weighing less than predetermined threshold value of barrel 12, gives a warning, need to barrel 12 Interior addition bottom-coating.

Preferably, as shown in figure 4, laterally extending bar 311 is provided on coating mechanism holder 31, in laterally extending bar It is provided at least one fixed pulley 312 on 311, bracing wire 313 is disposed on fixed pulley 312.

It is additionally provided with positioned at the lower section of laterally extending bar 311 for lifting with electric brush 32 on coating mechanism holder 31 Elevating mechanism 33.

Elevating mechanism 33 includes the first mounting plate 331 and the hairbrush installation that can be slided up and down on the first mounting plate 331 Plate 330.

First mounting plate 331 is connect with coating mechanism holder 31, and hairbrush 32 is mounted on hairbrush mounting plate 330, hairbrush peace Loading board 330 is slidably connected with the first mounting plate 331.

Wherein, one end of bracing wire 313 is connect with hairbrush mounting plate 330, and mass 35 is hung on the other end.

Specifically, sliding rail is provided on the first mounting plate 331, hairbrush mounting plate 330 configures on sliding rail, and being capable of edge It sliding rail to slide up and down, to move up and down with electric brush 32.

Bracing wire 313 is wound on fixed pulley 312, can configure the mass 35 of specified wt as needed, offsets elevator The part gravity of structure 33 so that hairbrush 32 slides up and down under self gravitation effect, can with the radian of glass change and It slides up and down, so that coated in the bottom-coating consistency of thickness on glass.

Preferably, as shown in figure 4, the lower section positioned at laterally extending bar 311 on coating mechanism holder 31 is additionally provided with shield Cover 34, mass 35 is located in shield 34, plays a protective role, be also prevented from mass 35 swung in oscilaltion it is excessive Impact effect.

Preferably, the second mounting plate 332 and energy are also associated between the first mounting plate 331 on coating mechanism holder 31 Enough third mounting plates 333 slided up and down on the second mounting plate 332.

Second mounting plate 332 is fixed on coating mechanism holder 31, and third mounting plate 333 and the second mounting plate 332 slide Connection, the first mounting plate 331 are fixedly connected with third mounting plate 333.

The driving mechanism 334 for driving third mounting plate 333 to slide up and down is additionally provided on the second mounting plate 332, Third mounting plate 333 is connect with the output end of driving mechanism 334.

Under the action of driving mechanism 334, hairbrush 32 has operating position and off-position.

When needing to carry out operation using hairbrush 32,333 upward sliding of third mounting plate is driven by driving mechanism 334, And then the first mounting plate 331,330 upward sliding of hairbrush mounting plate are driven, final band electric brush 32 to operating position.

When carrying out operation without using hairbrush 32,333 slide downward of third mounting plate is driven by driving mechanism 334, into And the first mounting plate 331,330 slide downward of hairbrush mounting plate are driven, final band electric brush 32 to off-position.

Driving mechanism 334 can be with similar devices such as cylinders.

Preferably, as shown in Figure 1 and Figure 5, coating coating unit 200 further includes being useful for preventing from being in off-position The anti-drying mechanism 4 that hairbrush 32 is dried.

When hairbrush 32 is in off-position, it is located in anti-drying mechanism 4, plays anti-drying effect.

Preferably, as shown in figure 5, anti-drying mechanism 4 includes anti-drying mechanism rack 41 and is arranged in anti-drying mechanism branch Anti-drying cylinder in frame 41, anti-drying cylinder include filling the anti-drying fluid cylinder 42 of anti-drying liquid and for recycling the anti-of anti-drying liquid Dry liquid recovery cylinder 43.

It is equipped on anti-drying fluid cylinder 42 for injecting gas into anti-drying fluid cylinder so that anti-drying liquid gasifies to be formed The gas injection valve 421 of anti-drying gas is also associated on anti-drying fluid cylinder 42 for exporting anti-drying gas to anti-drying liquid Air shooter 422 in recovery cylinder 43.

When hairbrush 32 is in off-position, hairbrush 32 is at least partially disposed in the nozzle of anti-drying liquid recovery cylinder 43.

Butanone (abbreviation MEK) may be used in anti-drying liquid, is colourless transparent liquid, volatile.

When needing to carry out anti-drying to hairbrush, gas is injected so that anti-into anti-drying fluid cylinder 42 by gas injection valve 421 Dry liquid gasifies to form anti-drying gas, is then delivered in anti-drying liquid recovery cylinder 43 by air shooter 422, simultaneously will Hairbrush 32 in off-position is inserted in anti-drying liquid recovery cylinder 43, keeps hairbrush 32 to moisten by anti-drying gas.

The anti-drying gas in part becomes anti-drying liquid in anti-drying liquid recovery cylinder 43, recycles in anti-drying liquid recovery cylinder 43 In, it avoids wasting and polluting environment.

Preferably, as shown in figure 5, being provided with the funnel for accommodating hairbrush 32 on the nozzle of anti-drying liquid recovery cylinder 43 Portion 44 is provided with sealing cover 441, the bottom opening of pars infundibularis 44 and anti-drying liquid recovery cylinder in the open top of pars infundibularis 44 43 nozzle connection.

When hairbrush 32 is in off-position, hairbrush 32 is at least partially disposed in pars infundibularis 44.

Sealing cover 441 is controlled by cylinder 442 and is switched.

By the way that the pars infundibularis 44 is arranged, facilitate insertion or takes out hairbrush 32.After taking out hairbrush 32, by sealing cover 442 It covers, avoids gas overflowing.

Preferably, as shown in figure 5, one end of air shooter 422 is connected on the nozzle of anti-drying fluid cylinder 42, it is another End is connected on pars infundibularis 44.

Gaseous volatilization is moved to top, air shooter 422 is connected on the nozzle of anti-drying fluid cylinder 42, is conducive to anti-dry Pathogenic dryness body quickly flows, and be fed directly to pars infundibularis 44 hairbrush 32 moisten it is anti-drying.

Preferably, being used for as shown in figure 5, being provided with close to the side of anti-drying fluid cylinder 42 on anti-drying mechanism rack 41 Monitor the first liquid level sensor 45 of the liquid level in anti-drying fluid cylinder 42.

It is provided with close to the side of anti-drying liquid recovery cylinder 43 for monitoring anti-drying liquid on anti-drying mechanism rack 41 Second liquid level sensor 46 of the liquid level in recovery cylinder 43.

In the vertical direction, the second liquid level sensor 46 is located at the top of the first liquid level sensor 45.

First liquid level sensor 45 can become low liquid level sensor, when the liquid level in anti-drying fluid cylinder 42 is less than default Value, needs that anti-drying dose is added into anti-drying fluid cylinder 42.

Second liquid level sensor 46 be high liquid level sensor, when the liquid level in anti-drying liquid recovery cylinder 43 be higher than preset value, It needs that the anti-drying liquid in anti-drying liquid recovery cylinder 43 is poured out or extracted.

Preferably, as shown in figure 5, being additionally provided on anti-drying mechanism rack 41 for pushing anti-drying fluid cylinder 42 and preventing The pushing mechanism 47 that dry liquid recovery cylinder 43 moves up and down.

Pushing mechanism 47 can be with rectilinear axis or cylinder.

The bottom of anti-drying fluid cylinder 42 and anti-drying liquid recovery cylinder 43 is separately connected there are one pushing mechanism 47.When need by When anti-drying fluid cylinder 42 or/and anti-drying liquid recovery cylinder 43 are removed from anti-drying mechanism rack 41, divided by pushing mechanism 47 Anti-drying fluid cylinder 42 or/and anti-drying liquid recovery cylinder 43 is not driven to be moved downward to predeterminated position.When anti-drying, pass through promotion Mechanism 47 respectively drives anti-drying fluid cylinder 42 or/and anti-drying liquid recovery cylinder 43 moves up and is locked at anti-drying mechanism rack 41 In.

As needed, above-mentioned each technical solution can be combined, to reach best-of-breed technology effect.

Above-described is only the principle of the present invention and preferred embodiment.It should be pointed out that for the common skill of this field For art personnel, on the basis of the principle of the invention, several other modifications can also be made, also should be regarded as the protection model of the present invention It encloses.

Claims (12)

1. a kind of coating equipment, which is characterized in that including paint feeding device and coating coating unit；

The paint feeding device includes mould wash mixer structure；

The mould wash mixer structure includes rabbling mechanism holder, barrel and driving motor；

The barrel is fixedly mounted on the rabbling mechanism holder, and at least one stirring magnet is provided in the barrel；

The driving motor is fixedly mounted on the rabbling mechanism holder, is provided on the motor output end of the driving motor Magnet mounting plate, between the magnet mounting plate and the cylinder bottom of the barrel between be separated with pre-determined distance；

At least one block magnetic for driving the stirring magnet to be rolled in the barrel is provided on the magnet mounting plate Iron, the magnet are biased in the side of the motor output end；

The coating coating unit includes coating coating mechanism；

The coating coating mechanism includes coating mechanism holder and is arranged on the coating mechanism holder and can slide up and down Hairbrush；

The barrel is connected to the hairbrush by liquid supply pipe, and solution feed pump is provided on the liquid supply pipe.

2. coating equipment according to claim 1, which is characterized in that the paint feeding device further includes being useful for institute Conveying high-pressure gas is stated in barrel so that the coating in the barrel to be delivered to the gas supply mechanism of the liquid supply pipe；

The gas supply mechanism includes sequentially connected gas purification processing unit and gas dry unit, the gas dry Unit is connected to by air supply pipe with the barrel.

3. coating equipment according to claim 1, which is characterized in that be extended with motor extension on the driving motor Plate is extended with barrel extension board on the barrel；

The barrel extension board is located at the top of the motor extension board, and is fixedly connected with the motor extension board；

It is additionally provided with weighing sensor between the motor extension board and the barrel extension board.

4. coating equipment according to claim 1, which is characterized in that be provided on the coating mechanism holder and laterally prolong Boom is provided at least one fixed pulley in the laterally extending bar, and bracing wire is disposed on the fixed pulley；

It is located on the coating mechanism holder below the laterally extending bar and is additionally provided with for driving the hairbrush to lift Elevating mechanism；

The elevating mechanism includes the first mounting plate and the hairbrush mounting plate that can be slided up and down on first mounting plate；

First mounting plate is connect with the coating mechanism holder, and the hairbrush is mounted on the hairbrush mounting plate, described Hairbrush mounting plate is slidably connected with first mounting plate；

Wherein, one end of the bracing wire is connect with the hairbrush mounting plate, and mass is hung on the other end.

5. coating equipment according to claim 4, which is characterized in that be located at the transverse direction on the coating mechanism holder Shield is additionally provided with below extension rod, the mass is located in the shield.

6. coating equipment according to claim 4, which is characterized in that on coating mechanism holder with first mounting plate Between be also associated with the second mounting plate and the third mounting plate that can be slided up and down on second mounting plate；

Second mounting plate is fixed on the coating mechanism holder, and the third mounting plate is slided with second mounting plate Connection, first mounting plate are fixedly connected with the third mounting plate；

It is additionally provided with the driving mechanism for driving the third mounting plate to slide up and down on second mounting plate, described Three mounting plates are connect with the output end of the driving mechanism；

Under the action of the driving mechanism, the hairbrush has operating position and off-position.

7. coating equipment according to claim 6, which is characterized in that the coating coating unit further includes being useful for preventing The anti-drying mechanism of hairbrush drying in the off-position.

8. coating equipment according to claim 7, which is characterized in that the anti-drying mechanism includes anti-drying mechanism rack With the anti-drying cylinder being arranged in the anti-drying mechanism rack, the anti-drying cylinder includes the anti-drying liquid for filling anti-drying liquid Cylinder and the anti-drying liquid recovery cylinder for recycling anti-drying liquid；

It is equipped on the anti-drying fluid cylinder for injecting gas into the anti-drying fluid cylinder so that the anti-drying liquid gas Change and form the gas injection valve of anti-drying gas, be also associated on the anti-drying fluid cylinder for by the anti-drying gas export to Air shooter in the anti-drying liquid recovery cylinder；

When the hairbrush is in the off-position, the hairbrush is at least partially disposed at the cylinder of the anti-drying liquid recovery cylinder In mouthful.

9. coating equipment according to claim 8, which is characterized in that on the nozzle of the anti-drying liquid recovery cylinder It is provided with the pars infundibularis for accommodating the hairbrush, sealing cover, the funnel are provided in the open top of the pars infundibularis The bottom opening in portion is connect with the nozzle of the anti-drying liquid recovery cylinder；

When the hairbrush is in the off-position, the hairbrush is at least partially disposed in the pars infundibularis.

10. coating equipment according to claim 9, which is characterized in that one end of the air shooter is connected to described On the nozzle of anti-drying fluid cylinder, the other end is connected on the pars infundibularis.

11. coating equipment according to claim 8, which is characterized in that close to described on the anti-drying mechanism rack The side of anti-drying fluid cylinder is provided with the first liquid level sensor for monitoring the liquid level in the anti-drying fluid cylinder；

The side of the close anti-drying liquid recovery cylinder is provided with described anti-dry for monitoring on the anti-drying mechanism rack Second liquid level sensor of the liquid level in liquid drier recovery cylinder；

In the vertical direction, second liquid level sensor is located at the top of first liquid level sensor.

12. according to the coating equipment described in any one of claim 8-11, which is characterized in that in the anti-drying mechanism rack On be additionally provided with pushing mechanism for pushing the anti-drying fluid cylinder and the anti-drying liquid recovery cylinder to move up and down.