JP3907321B2 - Flat plate coating apparatus and coating method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is mainly used for a building or the like, and relates to, for example, a coating apparatus and a coating method for a flat plate material constituting a wall surface.
[0002]
[Prior art]
In recent years, porous inorganic building materials such as lightweight cellular concrete panels and wood chip cement boards have been used as outer wall materials constituting outer wall surfaces in prefabricated house buildings such as unit houses. In such porous inorganic building materials, in order to improve the weather resistance of the surface, a coating method has been developed in which an aqueous coating material is applied in consideration of environmental pollution problems using an electrostatic coating apparatus (Japanese Patent Laid-Open No. 4-197469). Publication, JP-A-4-300267, JP-A-5-15843, etc.).
[0003]
In such a conventional one, the particles of these water-based paints are formed along the electrostatic force lines generated by the applied direct current high voltage by atomizing the water-based paint to form particles having a particle size of less than about 50 μm. It is configured to be adsorbed to the object to be coated while curving the path.
[0004]
[Problems to be solved by the invention]
However, in such a water-based paint coating method using the conventional electrostatic coating apparatus, as shown in FIG. 22, a predetermined height h1 (about 0.1 mm) is formed on the flat surface side 2 having a relatively large area. In the wall panel 1 having a groove portion 3 of 5 to 15 mm as a decoration, the coating width is difficult to adjust depending on the pressure and pinhole shape discharged from the discharge hole of the water-based paint. The discharge pressure must be set to a high pressure so that almost the most water-based paint is in the form of fine particles suitable for electrostatic adsorption coating. In addition, the discharge pressure must be maintained at a constant high pressure in order to prevent a decrease in coating amount due to a temperature change or viscosity change of the water-based paint.
[0005]
As the amount of the water-based paint increases, the amount of the water-based paint that has been discharged at a high pressure will increase the amount of the water-based paint that rebounds and atomizes and disperses in the atmosphere, thereby reducing the amount of adhesion. For this reason, it is difficult to bring the ejection hole close to the surface side 2.
[0006]
Moreover, when using an electrostatic adsorption method, the water-based paint which has a fine particle form will concentrate on the edge parts 4 and 4 formed in the upper edge of the said side wall parts 3b and 3b.
[0007]
As described above, the water-based paint adhering to the edge portion 4 becomes in a low viscosity state depending on the temperature condition and the like, and there is a possibility that the water droplet is formed and the liquid 6 is dripped into the groove portion 3. When such a dripping pattern 6 is provided with a relatively small concave pattern 7 on the front side 2, the concave pattern 7 may be filled and the pattern may become invisible, maintaining the appearance quality. It was difficult to do.
[0008]
Further, the amount of spray from the spray nozzle 5 is such that the water-based paint hardly reaches the bottom portion 3a and the side wall portions 3b, 3b of the groove portion 3, and a reference thickness can be obtained at the bottom portion 3a to be applied thinnest. Must be set. Therefore, even if the adhesion rate is improved by electrostatic adsorption, the amount of effective adhesion paint that forms a practically thick coating film is reduced with respect to the sprayed water-based paint, resulting in good coating efficiency. It was not.
[0009]
It is also conceivable to use an airless spraying device that can spray a large amount from one spray nozzle 5 in order to shorten the coating time. In this case, a paint piping system that can withstand high pressures and an insulating seal part are required, and the structure that can retain the charge necessary for electrostatic adsorption is used. There is a problem that it is difficult to use practically.
[0010]
Furthermore, it is conceivable that the spray nozzle 5 is attached obliquely so that the water-based paint reaches the side wall portion 3b as shown by a two-dotted line in the figure, but the spray nozzle 5 is arranged along the surface to be coated. In the reciprocating type that reciprocates, the overhang w must be set outside the wall panel edge 1a in order to apply the water-based paint to the edge 1a of the wall panel 1 as well. For this reason, there existed a problem that the width of the whole coating apparatus will increase and space efficiency will fall. Further, when the spray nozzle 5 is swung, there is still a problem that the manufacturing cost of the coating apparatus increases.
[0011]
In order to solve this problem, the inclination angle of the spray nozzle 5 is set to 10 degrees or more when the inside of the groove portion 3 is coated, and when the flat portion on the surface side 2 is painted, the inclination angle is set to two degrees or less to 10 degrees or less. Instead, the applicant has proposed a method of painting individually (see Japanese Patent No. 2540226). However, in such a method of coating twice at different angles, it is necessary to provide two coating machines, which increases the manufacturing cost of the coating apparatus.
[0012]
Moreover, at the opposite edge 1a of the wall panel 1, the water-based paint sprayed from the spray nozzle 5 attached obliquely as shown in FIG. 23 has a distance h2 at which the spray nozzle 5 is separated from the wall panel 1. In accordance with the increase, in the horizontal plane, the area is enlarged to a substantially elliptical shape. For this reason, as shown by the alternate long and short dash line in the figure, the horizontal stop position of the spray nozzle 5 is slightly shifted outward from the wall panel edge 1a. There was also a problem that it increased, and the coating efficiency was not good.
[0013]
Further, when a large amount of water-based paint is discharged from one spray nozzle 5, the water-based paint rebounds and atomizes on the surface side 2 and is dispersed in the atmosphere, thereby reducing the amount of adhesion. In this respect as well, it was difficult to improve the coating efficiency.
[0014]
The object of the present invention is to solve the above-mentioned problems and to improve the coating efficiency and generate coating unevenness even when a large amount of water-based paint is applied to a flat plate-like object having an uneven surface. It is another object of the present invention to provide a flat plate coating apparatus and a coating method capable of improving the appearance quality.
[0015]
[Means for Solving the Problems]
In order to achieve the above object, according to the first aspect of the present invention, there are provided conveying means for conveying an object having a substantially planar surface and a plurality of air guns for discharging a water-based paint toward the surface of the object. A reciprocating coating machine that reciprocates in a direction substantially perpendicular to the direction of conveyance of the object to be coated, a paint continuous supply means for continuously supplying water paint to the air gun, and a predetermined voltage applied between the object to be coated and the air gun. The electrostatic spray means for adsorbing the atomized fine particle portion of the discharged water-based paint onto the surface of the object to be coated, the paint discharge hole for discharging the water-based paint, and the periphery of the paint discharge hole Atomization adjustment supplied to the air nozzle by providing a plurality of air nozzles having an atomization adjustment air discharge hole for sending atomization adjustment air for adjusting the particle diameter of the water-based paint toward the direction of the water-based paint. Air Provided an air supply means for supplying a different path from that of the coating material continuously supplying means The water nozzle discharge direction of the air nozzle is inward at a predetermined angle with respect to the central axis of the air gun. A flat plate coating apparatus characterized by that.

[0016]
According to the first aspect of the invention configured as described above, the particle diameter of the water-based paint is adjusted to a size suitable for adhesion to the surface of the object to be coated by the atomization adjustment air supplied by the air supply means. It is done. For example, particles having a medium particle size of 50 μm or more go straight from the paint discharge port formed in the air gun and adhere to the surface of the object to be coated. For this reason, even if electrostatic attraction by the electrostatic attraction means is performed, it reaches the side wall and the bottom without being attracted to the edge portion of the concavo-convex portion, and the desired coating thickness can be quickly increased with the same discharge amount. Can be formed.
[0017]
Moreover, the pressure of the water-based paint discharged from each air gun can be set lower than that discharged from one air gun when the same amount of water-based paint is adhered to the same area. In addition, since a plurality of air nozzles are provided in each air gun, the amount of rebound can be reduced even if the air nozzle is ejected close to an object having a substantially planar surface. Then, by bringing the air gun close to the surface of the object to be coated in this way, the water-based paint that is scattered in the air is further reduced, and the painting efficiency can be improved.
[0018]
Furthermore, even if the paint discharge direction from the air gun is set substantially perpendicular to the surface of the object to be coated, for example, water-based paint particles can reach the side walls of the groove to apply the paint to a substantially uniform thickness. A film can be formed. In addition, since a substantially uniform coating film is formed in a relatively small concave pattern, the pattern can be maintained and the appearance quality can be maintained well without causing dripping as in the prior art.
[0019]
In addition, since the air supply means supplies the atomization adjustment air supplied to the air nozzle through a different path from the paint piping system of the paint continuous supply means, a low pressure resistance is applied to the insulating seal portion of the paint continuous supply means. The amount of water-based paint that rebounds on the surface of the object to be coated is further reduced by discharging the paint from the paint discharge port at a low pressure. Further, it is possible to obtain a configuration capable of holding the charge necessary for electrostatic adsorption without escaping without using an expensive high-voltage insulating sealing material or the like.
[0020]
For this reason, it is possible to obtain a desired coating amount by stabilizing and adjusting the particle diameter of the water-based paint while suppressing an increase in production cost.
[0021]
Furthermore, the water-based paint sprayed on the surface of the object to be coated and the water-based paint atomized into fine particles are electrostatically adsorbed to the object to be coated by the electrostatic means, and secured with the water-based paint having the adjusted particle diameter. The atomized fine particle water-based paint can be adhered onto the effective coating film thus formed, and the coating efficiency can be further improved and the appearance quality can be improved. At this time, the adsorption-side charge is charged almost uniformly by the moisture in the coating film previously adhered to the surface of the object to be coated, and the atomized water-based paint is adsorbed almost uniformly. A two-layer coating film having a substantially uniform thickness can be obtained by applying a water-based paint once without being affected by unevenness and edge portions.
[0022]
For this reason, an air gun is brought close to the object to be coated, or the pattern width is set to be narrow, and the direct hit rate to the object to be coated is improved without considering the amount of paint that bounces and becomes mist. As a result, the coating efficiency can be further improved, and the amount of coating material coming off the edge of the object to be coated can be reduced with a narrow pattern width even when the discharge direction is inclined. Therefore, even if an inclined air gun is used for painting on the vertical wall surface of uneven parts, the coating efficiency is maintained at a good level, and the amount of overhang is reduced, and the space efficiency is flat. Coating equipment can be provided.
[0023]
According to a second aspect of the present invention, the paint continuous supply means communicates with the air gun via a paint discharge hole and a paint supply system pipe, and also includes a storage tank made of an insulating material, and the storage tank. It is possible to slide in a horizontal direction to a position facing the upper receiving portion of the container, and in the opposed state, it is conducted so as to have substantially the same potential as that of the storage tank, and the internal aqueous paint flows down into the storage tank. In addition, it is characterized by a flat plate coating apparatus having an intermediate tank which is grounded and becomes ground potential and receives paint supply from the main paint tank.
[0024]
According to a second aspect of the present invention configured as described above, the intermediate tank that has received the supply of paint in a state of being separated from the main tank is slid in the horizontal direction to face the receiving port at the top of the storage tank. Until reaching the same potential as the storage tank. For this reason, the aqueous paint in the intermediate tank flows down and is stored without having a potential difference from the paint in the storage tank. In addition, when the intermediate tank slides again in a separated state after the water-based paint flows down, the intermediate tank is insulated from the storage tank, and this time becomes a ground potential, and the water-based paint is supplied from the main tank to the electrostatic adsorption unit. The voltage can be applied without stopping. For this reason, even if this storage tank is connected via the said paint supply system piping, this storage tank can always be filled with the said water-based paint, and the said to-be-coated object can be continuously coated.
[0025]
In addition, since the storage tank is insulated, the storage tank is downsized so that the electric charge applied by the electrostatic adsorption means does not escape, and the volume of the aqueous paint to which the voltage is applied is reduced. Furthermore, electrostatic adsorption efficiency can be improved and space efficiency can be improved.
[0026]
Further, according to a third aspect of the present invention, the coating material continuous supply means includes a color change valve capable of switching communication destinations to a plurality of storage tanks. It is said.
[0027]
According to the third aspect of the present invention, the color change valve provided in the paint continuous supply means switches the communication destination to a plurality of storage tanks. For this reason, if different color paints are put in each storage tank, a plurality of color paints can be changed and used corresponding to the object to be coated.
[0028]
According to a fourth aspect of the present invention, a shape detection sensor for detecting the shape of the object to be coated is provided along the reciprocating direction of the reciprocating coating machine, and the object to be coated detected by the shape detection sensor. When the air gun passes above the shape portion, the water paint is discharged from the paint discharge hole, and when the air gun passes through the portion having no object to be coated, the water paint is discharged from the paint discharge hole. The flat plate material coating apparatus according to any one of claims 1 to 3, wherein the flat plate material coating apparatus is in an OFF state in which no liquid is discharged.
[0029]
In the configuration according to claim 4 configured as described above, the shape detection sensor is in an OFF state in which water-based paint is not discharged from the paint discharge hole when the air gun passes through a portion where there is no object to be coated. For example, even a deformed object such as a trapezoidal wall panel can be applied with a water-based paint on the surface side with good coating efficiency.
[0030]
Further, according to a fifth aspect of the present invention, when the object having a substantially planar surface is conveyed and the water-based paint is discharged from a plurality of air guns toward the surface of the object to be coated, A reciprocating coating method for reciprocating in a direction substantially perpendicular to the conveying direction of the water, wherein the water paint is continuously supplied from the paint continuous supply means to the air gun, and between the object to be coated and the air gun by the electrostatic adsorption means. When supplying a predetermined voltage and adsorbing the mist-like fine particle portion of the discharged water-based paint onto the surface of the object to be coated, an air supply means for supplying atomization adjustment air through a path different from the paint continuous supply means The atomization adjustment air for adjusting the particle diameter of the aqueous paint is sent out from the periphery of the paint discharge hole for discharging the aqueous paint in the direction of the discharged aqueous paint. At the same time, the discharge direction of the water-based paint is inward at a predetermined angle with respect to the central axis of the air gun. It features a method for painting flat plates.
[0031]
In the structure of claim 5 configured in this way, even if there is a change in specific gravity or the like in the viscosity and temperature change or color change of the water-based paint, by using the air supply means configured in another path, It can be easily adjusted to stabilize the particle distribution, and the coating efficiency can be improved by forming a coating film substantially uniformly without being affected by the conductivity on the surface side of the object to be coated.
[0032]
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1
Next, Embodiment 1 of the present invention will be described with reference to the drawings. The same or equivalent parts as those in the conventional example will be described with the same reference numerals. In this Embodiment 1 shown in FIG. 1 thru | or FIG. 12, the coating device 13 of the flat material which coats the surface of the outer wall panel board materials 10-12 etc. which comprise the building unit outer wall of a unit house is provided. The coating apparatus 13 is provided with a belt conveyor 14 as a conveying means. The belt conveyor 14 is configured so that the substantially planar surface of the outer wall panel board 10 is placed substantially horizontally and is conveyed by driving the chain 14a.
[0033]
The belt conveyor 14 is provided with an undercoat coater 15 and a topcoat coater 16. Of these, the undercoat coater 15 has substantially the same configuration as the topcoat coater 16, and therefore description thereof is omitted. The top coater 16 is a reciprocating coater that is provided so as to straddle the belt conveyor 14 and reciprocates in a spray box 16a formed in a substantially box shape in a direction substantially perpendicular to the conveying direction of the belt conveyor 14. A main body 17 is provided. The reciprocating coating machine main body 17 is provided with a plurality of air guns 18 for discharging the water-based emulsion paint toward the surface side 10a of the outer wall panel board 10 or the like. In this embodiment 1, eight air guns are provided. 18 are suspended and fixed along a reciprocating coating apparatus main body 17 on a substantially rod-shaped support body 19 that is reciprocally driven.
[0034]
Each of these air guns 18 has a pair of air nozzles 20, 20. As shown in FIGS. 9 and 10, the air nozzle 20 is made of a metal conductor, is inwardly directed at a predetermined angle with respect to the air gun center line m, and is a paint discharge hole 21 for discharging the aqueous emulsion paint. Are formed. Further, the air nozzle 20 is provided with atomization adjusting air so as to incline from the periphery of the paint discharge hole 21 toward the discharged water-based emulsion paint and adjust the particle diameter of the water-based emulsion paint. A plurality of atomizing adjustment air discharge holes 22, 22 to be sent out are provided.
[0035]
Further, the air nozzle 20 is provided with a plurality of pattern air discharge holes 23, 23 that inwardly tilt toward the direction of the discharged water-based emulsion paint and adjust the width to which the water-based emulsion paint is applied. .
[0036]
These air guns 18 are connected to a paint continuous supply means 30 for continuously supplying a water-based emulsion paint to the paint discharge holes 21. The paint continuous supply means 30 communicates with the paint discharge hole 21 of the air gun 18 through a paint supply system feed pipe 31 and a paint supply system return pipe 32 formed of an insulating material, and also has a synthetic resin insulation. A storage tank 33 made of material is provided. The storage tank 33 is placed on a voltage block 34 that is insulated from the ground plane. That is, in FIG. 7, the lower part of the metal frame 35 is sufficiently grounded by the ground 36. The storage tank 33 is placed under the frame frame 35 via a voltage block 34.
[0037]
The storage tank 33 is connected to a paint pump 38 for supplying paint into the paint supply system feed pipe 31 supported by the frame frame 35 via an insulating support 37. A water-based emulsion paint is pumped in the direction of the paint discharge hole 21. The surplus paint is recirculated into the storage tank 33 via the paint supply system return pipe 32 supported by the frame frame 35 via the insulating support 40.
[0038]
In the first embodiment, the capacity of the storage tank 33 is set to about 50 liters.
[0039]
A stirring motor 42 for stirring the paint in the storage tank 33 is provided on the upper surface portion 33 a of the storage tank 33. Further, an upper limit sensor 43 and a lower limit sensor 44 that detect the amount of paint in the storage tank 33 are provided on the upper surface portion 33a. The upper limit sensor 43 and the lower limit sensor 44 are connected via a lead wire 46 to a control panel 50 provided at the upper corner of the frame frame 35. The control panel 50 is configured to receive power supply from the power supply 150 and to control various power supplies by an internal power supply control circuit 50a.
[0040]
A funnel-shaped receiving port 45 is provided adjacent to the stirring motor 42 and opens upward. The receiving port 45 is opposed to the intermediate tank 47, and when the aqueous paint in the intermediate tank 47 flows down into the storage tank 33, the receiving port 45 opens into a lower discharge port 48 a formed in the lower opening / closing valve 48 of the intermediate tank 47. On the other hand, even in a state of being separated in a substantially vertical direction, the water-based emulsion paint is configured so as to flow down without being scattered.
[0041]
The intermediate tank 47 is suspended by a plurality of stays 51, and the tip of the cylinder rod 53 of the cylinder device 52 is connected to the stays 51. The cylinder device 52 is connected to a branch pipe 61a branched from an oil supply valve 61 extending from the control panel 50, and hydraulic pressure supply control is performed. Then, the intermediate tank 47 is arranged in the horizontal direction along the upper rail 49 from the position facing the receiving port 45 in the upper part of the storage tank 33 to the separated state position indicated by a two-dot chain line in FIG. The cylinder rod 53 is configured to be slidable together with sliding.
[0042]
In the first embodiment, the capacity of the intermediate tank 47 is set to about 10 liters. The intermediate tank 47 is electrically connected to the storage tank 33 through the conductive member 100 provided in the voltage block 34 so as to have substantially the same potential as that of the storage tank 33. When flowing down, the occurrence of sparks and the like is prevented, and ground potential is established in the separated state, and discharge of unnecessary charges is received when receiving paint supply from the main paint tank 54 connected via the replenishment pump 54a. Is configured to decrease.
[0043]
Further, a paint supply opening 57 is provided at the upper portion of the intermediate tank 47 at a position facing the paint discharge port 56 provided in the lower part of the butterfly valve 55 provided above the upper rail 49 in the separated state. Is provided.
[0044]
The butterfly valve 55 is connected to the control panel 50 via a branch pipe 61 b branched from an oil supply pipe 61, and is opened and closed by hydraulic control from the control panel 50. The water-based emulsion paint supplied via 58 is allowed to flow down only when the intermediate tank 57 is at ground potential.
[0045]
Further, an upper limit sensor 59 is provided above the intermediate tank 47 and is connected to the control panel 50 via a lead wire 60. The butterfly valve 55 is configured to be closed when the aqueous emulsion paint reaches a specified amount.
[0046]
Then, as shown in FIG. 6, these top coaters 16 are arranged on the insulating voltage block 8 so that five water-based emulsion paints of different colors are arranged in the extending direction of the belt conveyor 14. ing. The paint supply system feed pipe 31 of each top coater 16 is individually connected to a color change valve 63 via a manual pressure regulator valve 62. The color change valve 63 is connected to a paint discharge hole 21 formed in the air nozzle 20 of the air gun 18 via a flow meter 64 and a remote regulator 65 connected to the control panel 50. Yes. The color change valve 63 is also connected to a small lot compatible top coater 116 and a cleaning water tank device 216.
[0047]
In the coating apparatus 16, the control panel 50 is connected to the air flow switches 73 and 74 of the air supply means 70 through lead wires 71 and 72. Among these, the air flow switch 73 is connected to the atomization adjustment air discharge holes 22 of the air nozzle 20 via an air hose 75, and an air pressure adjuster 76 and a drain remover 77 according to control by the control panel 50. The compressed air pressure supplied from the compressor 78 is adjusted via the air flow direction toward the discharged water-based emulsion paint, and this atomization-adjusted air discharge port 22 is arranged in a different path from the water-based emulsion paint. The particle diameter of the water-based emulsion paint is adjusted by discharging from the water.
[0048]
The air flow switch 74 is connected to the pattern air discharge holes 23 of the air nozzle 20 via an air hose 79, and a compressor 78 via an air pressure adjuster 76 and a drain remover 77 according to control by the control panel 50. The outer wall is adjusted by adjusting the compressed air pressure supplied from the outlet and discharging it from the pattern air discharge holes 22 in a different path from the aqueous emulsion paint in the direction of the discharged aqueous emulsion paint. It is comprised so that the width | variety of the water-based emulsion coating material applied to the surface side 10a etc. of the panel board | plate material 10 grade | etc., May be adjusted.
[0049]
A predetermined voltage is applied to the coating device 16 between the outer wall panel plate 10 and the like, which are the objects to be coated, and the air gun 18, and the sprayed water-based emulsion paint mist-like fine particle portions are transferred to the outer wall panel plate. An electrostatic adsorption means 80 is provided for adsorbing to the 10 surface side 10a.
[0050]
The electrostatic attraction means 80 is provided with a DC high voltage generator 81 that is connected to the control panel 50 and applies a high voltage of about 70 kv between the air nozzles 20 and 20 and the outer wall panel board 10. ing. The DC high voltage generator 81 is connected to the air nozzle 20 via a high voltage cable 82 and is also connected to an overcurrent detector 83 and a voltage regulator 84. In addition, the code | symbol 85 in FIG. 1 is a shield wire.
[0051]
Further, in the top coater of the first embodiment, a plurality of shape detection sensors 16c are arranged substantially at the full width in the direction orthogonal to the driving direction of the belt conveyor 14 at a predetermined interval at the inlet portion 16b of the spray chamber 16a. It is provided over. Each of these shape detection sensors 16c is connected to the control panel 50, recognizes the shape of the outer wall panel board 10 that moves on the belt conveyor 14, and is controlled by the remote regulator 65. The water-based emulsion paint discharged from the paint discharge holes 21 is turned on and off.
[0052]
Next, the operation of the first embodiment will be described along the manufacturing process of the outer wall panel plate 10 and the like.
[0053]
In the first embodiment, a plurality of grooves 3 and concave patterns 7... Are formed as decorations along the belt conveyor 14, and the outer wall panel plates 10 to 12 having substantially planar surface sides 10 a to 12 a. However, when the sheet is conveyed rightward in FIG. 6 from the spray chamber of the undercoat coater 15 and reaches the inlet 16b of the spray chamber 16a of the topcoat coater 16, the shape detection sensor 16c. The presence or absence of 12 is detected.
[0054]
The detected presence / absence signal is sent to the power supply control circuit 50a of the control panel 50 and converted into an ON / OFF signal of each of the remote regulators 65, so that the operation of each of the remote regulators 65 is individually performed. To control. And when the air gun 18 provided in the reciprocating coating machine main body 17 which reciprocates the part in which the outer wall panel board | plate materials 10-12 exist in the direction substantially orthogonal to the said belt conveyor conveyance direction passes, the said remote type | formula applicable An ON signal is sent to the regulator 65 so that the water-based emulsion paint is discharged from the paint discharge holes 21 and 21 in the direction of the discharge outer wall panel plate 10 to 12, and the portion without the outer wall panel plate 10 to 12 is set. When the air gun 18 provided in the reciprocating coating machine main body 17 reciprocally moved in a direction substantially orthogonal to the belt conveyor conveying direction passes, an OFF signal is sent to the corresponding remote regulator 65 to send the paint discharge hole. 21 and 21 are set to an OFF state in which water-based paint is not discharged. The discharge flow rate is monitored and fed back for each air gun 18 by the valve flow meter 64.
[0055]
For this reason, for example, even if the object to be modified such as the trapezoidal wall panels 11 and 12, when the air gun 18 passes above the object to be coated at a portion indicated by a chain line in FIG. The water-based emulsion paint is discharged and applied from the paint discharge holes 21 and 21 toward the object to be coated, and at the position where the air gun 18 is disengaged from above the object to be coated as shown by a one-dot thin chain line in FIG. By turning off the water-based emulsion paint and not discharging it from the air gun 18, the amount of the water-based emulsion paint that does not directly contact can be reduced, and the surface side 11a, 12a of the outer wall panel plates 11, 12 etc. It can be applied efficiently with the amount of paint corresponding to the amount of area.
[0056]
The particle diameter of the aqueous emulsion paint to be applied is adjusted to a size suitable for adhesion to the surface of the object to be coated by the atomization adjusting air supplied by the air supply means 70. For example, particles having a medium or larger particle diameter of 50 μm or more go straight from the paint discharge port formed in the air gun 18 and adhere to the surface sides 10 a to 12 a of the outer wall panel plates 10 to 12. For this reason, even if electrostatic attraction by the electrostatic attraction means 80 is performed, the water-based emulsion paint reaches the side wall 3b and the bottom 3a without being attracted to the edge 4 portion of the groove 3 which is an uneven portion, A desired coating thickness can be quickly formed with the same discharge amount. FIG. 14 shows a distribution diagram in which the paint particle diameter is classified into four stages of regions Ia, Ib, II, and III. Among these, the boundary between the area | region Ib and the area | region II is about 50 micrometers, and the water-based emulsion coating material of the particle diameter which belongs to the area | region II has high linearity. Further, the aqueous emulsion paint having a particle size belonging to the region Ib has a particle size with a high adsorption rate by the electrostatic adsorption means 80, although the arrival rate to the object to be coated is not good.
[0057]
Further, the pressure of the water-based emulsion paint discharged from each of the air guns 18 can be set lower than that discharged from one air gun 18 when the same amount of the water-based paint is adhered to the same area. In addition, since a plurality of air nozzles 20 and 20 are provided in each air gun 18, even if the air nozzles 20 and 20 are ejected close to a workpiece having a substantially planar surface, the amount of rebound can be reduced. Then, by bringing the air gun 18 close to the surface of the object to be coated in this way, the aqueous emulsion paint that is scattered in the air is further reduced, and the painting efficiency can be improved. Thus, in a spray-type coating machine that discharges the aqueous emulsion paint from the paint discharge hole 21 at a constant pressure, the paint viscosity and the like are known as the coating efficiency factor as shown in FIG. FIG. 19 shows the relationship between the distance h2 between the air gun 20 and the object to be coated and the coating efficiency. In this case, it can be seen that the coating efficiency is further improved by the proximity of the distance h3. FIG. 20 shows the relationship between the nozzle size and the coating efficiency. In this case, it is understood that the coating efficiency is further improved by increasing the nozzle size and increasing the discharge amount. Furthermore, FIG. 21 shows the relationship between the moving speed of the air gun 20 and the coating efficiency. In this case, it can be seen that the lower the moving speed of the air gun 20, the better the coating efficiency.
[0058]
In the first embodiment, the water-based emulsion paint having a particle diameter of about 50 μm or more belonging to the region II has a predetermined coating coating amount that exhibits waterproofness and weather resistance, for example, 150 to 400 g / sq.m. , Ib can be formed in a shorter time compared to electrostatic coating with a large amount of fine particles having a particle diameter of less than about 50 μm. For this reason, like this Embodiment 1, it is suitable for the coating of the surface side 10a-12a of the said outer wall panel board | plate material 10-12 in which a to-be-coated surface has a large area, and as shown in FIG. Can be increased to about 2.4 to 3.8 m / min, and the coating efficiency can be further improved.
[0059]
Furthermore, even if the coating material discharge direction from the air gun 20 is set substantially perpendicular to the surface of the object to be coated, for example, as shown in FIG. Thus, the coating film can be formed in a substantially uniform thickness. In addition, since a substantially uniform coating film is formed in the relatively small concave pattern 7, the pattern can be maintained and the appearance quality can be maintained well without causing dripping as in the prior art. In Examples 4 to 6 shown in FIG. 18, the air gun 20 is opposed to the surface to be coated at 90 degrees in the roll direction and 70 degrees in the pitch direction. In this case, any of Examples 4 to 6 can form a good substantially uniform coating film. For this reason, compared with the conventional one, the amount of overhang on the left and right sides of the spray chamber 16a can be reduced, the entire apparatus can be miniaturized, and the space efficiency is good.
[0060]
Moreover, the air supply means 70 is a paint piping system comprising the paint supply system feed pipe 31 and the paint supply system return pipe 32 of the paint continuous supply means 30 for the atomization adjustment air supplied to the air nozzle 20. Since the air hose 75 or the like is supplied by another route, the insulating seal portion of the paint continuous supply means 30 is configured by using a low pressure resistant pipe or the like, and discharged from the paint discharge port 21 at a low pressure. Furthermore, the amount of the water-based emulsion paint that rebounds on the surface side 10a to 12a of the outer wall panel boards 10 to 12 is reduced.
[0061]
Further, it is possible to obtain a configuration capable of holding the charge necessary for electrostatic adsorption without escaping without using an expensive high-voltage insulating sealing material or the like.
[0062]
For this reason, it is possible to stabilize and adjust the particle diameter of the water-based emulsion paint while suppressing an increase in production cost, and to obtain a desired coating amount.
[0063]
Moreover, in the first embodiment, as in Examples 1 to 3 shown in FIG. 17, the normal atomizing air pressure applies a pressure of 2.0 kgf / square cm or more, whereas 2.0 kgf / square. Atomizing air is supplied at a low pressure (maximum region 0.2 to 0.8 kgf / square cm) of less than square cm. As shown in FIG. 15, when the atomizing air pressure and the pattern air pressure are set high and in the vicinity of 2.0 kgf / square cm, the distribution is biased to the region Ib in FIG. Therefore, in order to obtain a particle diameter with high straightness, the supplied air pressure is desirably a low value. However, as shown in FIG. 16, even if the coating amount is decreased, the particles in the region Ib are not completely lost. With a large discharge amount exceeding 570 g / min shown in FIG. By making it low, the number of particles in the region near 50 μm can be reduced, but again the number of particles is increasing in the work area near 30 μm.
[0064]
Therefore, the water-based emulsion paint that has been atomized into fine particles and the water-based emulsion paint that rebounded on the surface sides 10a to 12a of the outer wall panel board materials 10 to 12 can be obtained from the surface side 10a to From the top of the effective coating film secured by the water-based emulsion paint with the adjusted particle diameter, which is schematically represented by the water droplet shape in FIG. These expressed atomized fine-particle water-based emulsion paints can be attached to improve the coating efficiency and to improve the appearance quality.
[0065]
At this time, the adsorption-side charge + is substantially uniformly charged and atomized by the moisture in the coating film previously attached to the surface sides 10a to 12a of the outer wall panel plates 10 to 12, and the -marked aqueous emulsion paint is substantially atomized. Because it is uniformly adsorbed, it is not affected by the unevenness of the outer wall panel boards 10 to 12 and the edge part 4 and the concave pattern 7, etc., and a two-layer coating film having a substantially uniform thickness can be applied to any painted surface once. Can be obtained by coating. That is, in the surface side 10a-12a of the outer wall panel board | plate materials 10-12 in which the coating film was formed previously, substantially the same electrical conductivity is given to the whole surface with the water | moisture content of water-based emulsion paint, for example, the surface by the presence or absence of curing It is not affected by changes in the conductivity of the sides 10a to 12a. For this reason, even if the dry and wet states of the surface sides 10a to 12a differ depending on the coating order, it is possible to form a coating film substantially uniformly, and it is good even if the curing time is not constant depending on the preparation or shipping order Appearance quality can be obtained and coating efficiency can be further improved.
[0066]
For this reason, the distance h3 is set to 250 mm shorter than the conventional distance h2 as in Examples 1 to 3 shown in FIG. The air gun 18 is brought close to the surface sides 10a to 12a of the plate materials 10 to 12, or the pattern width is set to 230 to 290 mm narrower than the conventional ones as in Examples 4 to 6 shown in FIG. By improving the direct hit rate to the object, the coating efficiency can be further improved, and even if the discharge direction is inclined with the pitch angle set to 70 degrees, it is separated from the end 1a of the outer wall panel board 1 with a narrow pattern width. The amount of paint that was used can be reduced. Furthermore, since the narrow pattern width can be set, even if the horizontal stop position of the spray nozzle 5 is slightly s, and the reciprocating motion of the reciprocating coating machine main body 17 is shifted outward, the amount of separation from the end 1a can be reduced. .
[0067]
Accordingly, a water-emulsion paint recovery device is not required, and even if an inclined air gun 18 is provided for use in painting the vertical side wall surface 3b of the concavo-convex groove 3, the coating efficiency is maintained at a good level. In addition, it is possible to reduce the overhang amount W shown in FIG. 22 and provide a flat plate coating apparatus with good installation space efficiency.
[0068]
In the first embodiment, as shown in FIG. 9, a pair of air nozzles 21 and 21 provided at the tip of the air gun 18 are opposed to the central axis m at angles α and α, respectively, in the discharge direction. Therefore, even if the discharge amount is increased by the two air nozzles 21 and 21, the discharged water-based emulsion paint can be directly improved without being dispersed.
[0069]
In the first embodiment, since a total of 4 to 8 air guns 18 are provided on the long support 19 of the reciprocating coating machine main body 17, even if the coating area per unit is small, a large-area outer wall is provided. The aqueous emulsion paint can be applied to the panel plates 10 to 12 by reciprocating in a short time. For this reason, even if the chain 14a drive speed of the belt conveyor 14 is set fast, the required coating film pressure can be obtained evenly. Further, when the interval between the outer wall panel plates 10 to 12 is increased in the shape detection sensor 16c, the discharge of the water-based emulsion paint from the air gun 18 can be stopped, so that the driving speed of the chain 14a is kept constant. , Line operation rate can be improved. In addition, it is not necessary to stop the reciprocating drive of the reciprocating coating machine main body member 17, and it is only necessary to always reciprocate the stroke in the same width direction, so that the mechanism can be simplified and the failure occurrence rate can be reduced.
[0070]
Further, the intermediate tank 47 that has received the paint supply in a state of being separated from the main tank 54 is slid in the horizontal direction to the position facing the receiving port 45 of the upper surface portion 33a of the storage tank 33 shown by the solid line in FIG. When it reaches, it is conducted so as to have substantially the same potential as the storage tank 33.
[0071]
Therefore, the aqueous emulsion paint in the intermediate tank 47 flows down and is stored without having a potential difference from the residual aqueous emulsion paint in the storage tank 33. Further, when the intermediate tank 47 is slid again to the position shown by the two-dot chain line in FIG. 7 after the water-based emulsion paint flows down, the intermediate tank 47 is insulated from the storage tank 33 and this time becomes the ground potential. The water-based emulsion paint can be supplied from the main tank 54 without stopping the voltage application of the electrostatic adsorption means 80.
[0072]
For this reason, even if this storage tank 33 communicates with the paint supply system feed pipe 31 and the paint supply system return pipe 32, the storage tank 33 is always filled with the water-based emulsion paint, and the outer wall continuously. The panel board materials 10 to 12 can be painted.
[0073]
In addition, the coating efficiency is improved in proportion to the applied voltage. Embodiment 1 Since the storage tank 33 is made of an insulating material made of synthetic resin and insulated, the storage tank 33 is installed so that the electric charge applied by the electrostatic adsorption means 80 does not escape. By reducing the size and reducing the volume of the internal aqueous emulsion paint to which the voltage is applied, it is maintained at a relatively high applied voltage of about 70 kev, and the electrostatic adsorption efficiency can be further improved. The space efficiency can be improved by downsizing the storage tank 33.
[0074]
Furthermore, since an aqueous emulsion paint having a substantially constant viscosity and a substantially constant viscosity is continuously supplied from the main tank 54 through the intermediate tank 47, for example, the discharge pressure from the paint discharge hole 21 is less than 4 MPa. Even if it is set approximately in the vicinity of about 2 MPa, there is little change in the flow resistance in the paint supply system feed pipe 31 due to temperature change and viscosity change of the aqueous emulsion paint, and a substantially constant paint supply amount can be obtained.
[0075]
For this reason, the particle diameter distribution region is substantially reduced by adjusting the atomizing air pressure of only the air supply means 70 provided in a separate system while maintaining the amount of the paint discharged from the paint discharge hole 21 at a substantially constant level. Can be determined. Therefore, it is easy to increase the coating efficiency by increasing the amount of particles in the region II having the highest coating efficiency.
[0076]
Moreover, since the particle distribution stability is good with respect to specific gravity and viscosity change, it can be applied to all specific gravity and viscosity.
[0077]
As shown in FIG. 12, color change valves 63 and 63 provided in the paint supply system feed pipe 31 and the paint supply system return pipe 32 of the paint continuous supply means 30 communicate with a plurality of storage tanks 33. Switch. For this reason, if different colors of paint are put in each storage tank 33, the paints of a plurality of colors can be changed and used corresponding to the outer wall panel plates 10-12. At this time, since the particle distribution stability is good, substantially the same appearance quality can be obtained even if there is a difference in specific gravity and viscosity due to color change.
[0078]
The first embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to the first embodiment, and even if there is a design change or the like without departing from the gist of the present invention. Included in the invention.
[0079]
For example, in the first embodiment, the pair of air nozzles 20 and 20 provided in the air gun 18 are configured to discharge the aqueous emulsion paint at the same time. If the particle diameter of the discharged water-based paint can be adjusted by air, for example, coating with good coating efficiency adapted to the shape of the object to be coated, etc. The quantity, shape, and discharge direction are not particularly limited.
[0080]
【The invention's effect】
As described above, according to the first aspect of the present invention, the particle diameter of the water-based paint is large enough to adhere to the surface of the object to be coated by the atomization adjustment air supplied by the air supply means. It is trimmed. For example, particles having a medium particle size of 50 μm or more go straight from the paint discharge port formed in the air gun and adhere to the surface of the object to be coated. For this reason, even if electrostatic attraction by the electrostatic attraction means is performed, it reaches the side wall and the bottom without being attracted to the edge portion of the concavo-convex portion, and the desired coating thickness can be quickly increased with the same discharge amount. Can be formed.
[0081]
Moreover, the pressure of the water-based paint discharged from each air gun can be set lower than that discharged from one air gun when the same amount of water-based paint is adhered to the same area. In addition, since a plurality of air nozzles are provided in each air gun, the amount of rebound can be reduced even if the air nozzle is ejected close to an object having a substantially planar surface. Then, by bringing the air gun close to the surface of the object to be coated in this way, the water-based paint that is scattered in the air is further reduced, and the painting efficiency can be improved.
[0082]
Furthermore, even if the paint discharge direction from the air gun is set substantially perpendicular to the surface of the object to be coated, for example, water-based paint particles can reach the side walls of the groove to apply the paint to a substantially uniform thickness. A film can be formed. In addition, since a substantially uniform coating film is formed in a relatively small concave pattern, the pattern can be maintained and the appearance quality can be maintained well without causing dripping as in the prior art.
[0083]
In addition, since the air supply means supplies the atomization adjustment air supplied to the air nozzle through a different path from the paint piping system of the paint continuous supply means, a low pressure resistance is applied to the insulating seal portion of the paint continuous supply means. The amount of water-based paint that rebounds on the surface of the object to be coated is further reduced by discharging the paint from the paint discharge port at a low pressure. Further, it is possible to obtain a configuration capable of holding the charge necessary for electrostatic adsorption without escaping without using an expensive high-voltage insulating sealing material or the like.
[0084]
For this reason, it is possible to obtain a desired coating amount by stabilizing and adjusting the particle diameter of the water-based paint while suppressing an increase in production cost.
[0085]
Furthermore, the water-based paint sprayed on the surface of the object to be coated and the water-based paint atomized into fine particles are electrostatically adsorbed to the object to be coated by the electrostatic means, and secured with the water-based paint having the adjusted particle diameter. The atomized fine particle water-based paint can be adhered onto the effective coating film thus formed, and the coating efficiency can be further improved and the appearance quality can be improved. At this time, the adsorption-side charge is charged almost uniformly by the moisture in the coating film previously adhered to the surface of the object to be coated, and the atomized water-based paint is adsorbed almost uniformly. A two-layer coating film having a substantially uniform thickness can be obtained by applying a water-based paint once without being affected by unevenness and edge portions.
[0086]
For this reason, an air gun is brought close to the object to be coated, or the pattern width is set to be narrow, and the direct hit rate to the object to be coated is improved without considering the amount of paint that bounces and becomes mist. As a result, the coating efficiency can be further improved, and the amount of coating material coming off the edge of the object to be coated can be reduced with a narrow pattern width even when the discharge direction is inclined. Therefore, even if an inclined air gun is used for painting on the vertical wall surface of uneven parts, the coating efficiency is maintained at a good level, and the amount of overhang is reduced, and the space efficiency is flat. Coating equipment can be provided.
[0087]
According to a second aspect of the present invention, the intermediate tank that has received the paint supply in a state of being separated from the main tank is slid in the horizontal direction to reach a position facing the upper receiving port of the storage tank. Then, it conducts so as to have substantially the same potential as the storage tank. For this reason, the aqueous paint in the intermediate tank flows down and is stored without having a potential difference from the paint in the storage tank. In addition, when the intermediate tank slides again in a separated state after the water-based paint flows down, the intermediate tank is insulated from the storage tank, and this time becomes a ground potential, and the water-based paint is supplied from the main tank to the electrostatic adsorption unit. The voltage can be applied without stopping. For this reason, even if this storage tank is connected via the said paint supply system piping, this storage tank can always be filled with the said water-based paint, and the said to-be-coated object can be continuously coated.
[0088]
In addition, since the storage tank is insulated, the storage tank is downsized so that the electric charge applied by the electrostatic adsorption means does not escape, and the volume of the aqueous paint to which the voltage is applied is reduced. Furthermore, electrostatic adsorption efficiency can be improved and space efficiency can be improved.
[0089]
According to a third aspect of the present invention, a color change valve provided in the paint continuous supply means switches communication destinations to a plurality of storage tanks. For this reason, if different color paints are put in each storage tank, a plurality of color paints can be changed and used corresponding to the object to be coated.
[0090]
Further, according to the fourth aspect of the present invention, the shape detection sensor is in an OFF state in which water-based paint is not discharged from the paint discharge hole when the air gun passes through a portion where there is no object to be coated. In the case of deformed objects such as trapezoidal wall panels, the amount of water-based paint that is not directly applied to the object to be coated can be reduced by not discharging it in the OFF state, and the surface of the object to be painted can be efficiently painted. Water-based paint can be applied.
[0091]
Further, according to the fifth aspect, even if there is a change in specific gravity or the like in the viscosity and temperature change or color change of the water-based paint, the particle distribution can be stabilized by using the air supply means constituted by another path. It can be easily adjusted, and it is practically useful that the coating efficiency can be improved by forming a coating film almost uniformly without being affected by the conductivity of the surface of the object to be coated. Has an effect.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a schematic diagram illustrating a configuration of a flat material coating apparatus and a coating method according to Embodiment 1 of the present invention.
FIG. 2 is a schematic diagram for explaining a configuration of a flat plate coating apparatus according to Embodiment 1;
FIG. 3 is a cross-sectional view of the spray plate coating apparatus according to the first embodiment, taken along the line AA in FIG. 2 of the spray chamber.
4 is a cross-sectional view of the spray plate coating apparatus according to Embodiment 1 at a position along the line BB in FIG. 2 of the spray chamber.
FIG. 5 is a partial cross-sectional top view of the spray chamber, showing the flat plate coating apparatus according to Embodiment 1;
6 is a schematic view seen from above explaining the arrangement of a wall panel production line provided with a top coater or the like in the flat plate coating apparatus according to Embodiment 1. FIG.
FIG. 7 is a side view of a top coater in the flat material coating apparatus according to the first embodiment.
FIG. 8 is a schematic diagram illustrating the relationship between the trajectory of an air gun and an object to be coated in the flat plate material coating apparatus according to the first embodiment.
9 is a partial cross-sectional view illustrating the configuration of an air gun used in the flat plate coating apparatus according to Embodiment 1. FIG.
10 is a front view of an air nozzle portion of an air gun used in the flat plate coating apparatus according to Embodiment 1. FIG.
FIG. 11 is a schematic diagram for explaining a state in which coating is performed on an object to be coated with the flat plate material coating apparatus according to the first embodiment.
12 is a circuit diagram of a paint supply system provided with a color changer in the flat plate coating apparatus according to Embodiment 1. FIG.
FIG. 13 is a table for explaining general characteristics of an airless coating machine.
FIG. 14 is a table illustrating the distribution of paint particle diameters.
FIG. 15 is a table based on actual measurements for explaining the distribution of paint particle diameter when a large amount of coating is set using the flat plate coating apparatus according to Embodiment 1;
FIG. 16 is a table based on actual measurements for explaining the distribution of paint particle diameter when the coating amount is set to be slightly smaller using the flat plate material coating apparatus of the first embodiment.
17 is a table summarizing Examples 1 to 3 of Embodiment 1. FIG.
18 is a table summarizing various conditions such as gun speed and conveyor speed in Examples 4 to 6 of Embodiment 1. FIG.
FIG. 19 is a graph showing the relationship between general spray distance and coating efficiency.
FIG. 20 is a graph showing the relationship between general nozzle side and coating efficiency.
FIG. 21 is a graph showing the relationship between general gun speed and coating efficiency.
FIG. 22 is a schematic diagram for explaining a state of application to an object to be coated when a conventional electrostatic adsorption coating machine is used.
FIG. 23 is a schematic diagram for explaining a state of application to an edge portion of an object to be coated when a conventional electrostatic attraction coating machine is used.
[Explanation of symbols]
3 groove
3b Side wall
7 Concave pattern
13 Coating equipment
14 Belt conveyor (conveying means)
16 Top coater
17 Reciprocating painting machine
18 Airsoft
20 Air nozzle
21 Paint discharge hole
22 Atomization adjustment air discharge hole
23 Pattern air discharge hole
30 Continuous paint supply equipment
Paint supply piping
31 Paint supply system feed piping
32 Paint supply system return piping
33 Storage tank
33a Upper surface (upper part)
45 Receiving part
47 Intermediate tank
50 Control panel
54 Main tank
63 Color change valve
70 Air supply means
80 Electrostatic adsorption means

Claims (5)

A conveying means for conveying an object having a substantially planar surface and a plurality of air guns for discharging the water-based paint toward the surface of the object to be reciprocated are moved in a direction substantially orthogonal to the conveying direction of the object to be coated. A reciprocating coating machine, a paint continuous supply means for continuously supplying a water-based paint to the air gun, a predetermined voltage is applied between the object to be coated and the air gun, and the atomized fine particle portion of the discharged water-based paint is Electrostatic adsorption means for adsorbing on the surface of the object to be coated, paint discharge hole for discharging the water-based paint, and the particle diameter of the water-based paint from the periphery of the paint discharge hole toward the direction of the water-based paint to be discharged A plurality of air nozzles having atomization adjustment air discharge holes for sending atomization adjustment air to be adjusted are provided in the air gun, and the atomization adjustment air supplied to the air nozzle is supplied through a path different from the paint continuous supply means. Air supply And means is provided,
Discharge direction of water-based paint of the air nozzle, painting device of the flat plate material, characterized by inward at a predetermined angle with respect to a central axis of the airgun.   The paint continuous supply means communicates via the paint discharge hole of the air gun and the paint supply system piping, and in the horizontal direction to a storage tank made of an insulating material and a position facing the upper receiving portion of the storage tank. In the opposed state, the main paint tank is electrically connected so as to have substantially the same potential as that of the storage tank, and causes the water-based paint inside to flow down into the storage tank and becomes the ground potential in the separated state. The flat plate material coating apparatus according to claim 1, further comprising an intermediate tank that receives a paint supply from the flat plate material.   3. The flat plate material coating apparatus according to claim 2, wherein the paint continuous supply means includes a color change valve capable of switching communication destinations to a plurality of storage tanks.   When a shape detection sensor for detecting the shape of the object to be coated is provided along the reciprocating direction of the reciprocating coating machine, and when the air gun passes above the shape portion of the object to be coated detected by the shape detection sensor. In addition, an ON state in which water-based paint is discharged from the paint discharge hole is set to an OFF state in which the water gun is not discharged from the paint discharge hole when the air gun passes through a portion where there is no object to be coated. The flat plate coating apparatus according to any one of claims 1 to 3. When an object having a substantially planar surface is conveyed and water-based paint is discharged from a plurality of air guns toward the object surface, the object is reciprocated in a direction substantially orthogonal to the object conveying direction. In the reciprocating coating method, the water paint is continuously supplied from the paint continuous supply means to the air gun, and a predetermined voltage is applied between the object to be coated and the air gun by the electrostatic adsorption means, and the discharged water paint is supplied. When adsorbing the atomized fine particle portion of the paint on the surface of the object to be coated, around the paint discharge hole for discharging the water-based paint by the air supply means for supplying the atomization adjustment air by a different route from the paint continuous supply means from toward the direction of the water-based paint to be the discharge, sends out the atomization adjusting air for adjusting the particle size of the aqueous coating composition, the direction of ejection of the water-based paint of the air nozzle, the central axis of the airgun Method of coating a flat plate, characterized by inward at a predetermined angle with.

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