JPH04271868A - Electrostatic coating method - Google Patents

Abstract

PURPOSE:To allow the efficient washing of a rotary atomizing head and to prevent current leakage via a washing liquid, etc., for a conductive coating material, at the time when a high voltage is impressed to this coating material. CONSTITUTION:After electrostatic coating is executed via a coating gun 50, the washing liquid is supplied via a washing route 62 to a rotary cup 64, by which this rotary cup 64 is washed and further the above-mentioned washing route 62 is dried by dry air. The current leakage through the washing route 62 is, therefore, prevented at the time when the high voltage is impressed to the conductive coating material supplied to the coating route 52 in order to carry out the next electrostatic coating operation.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrostatic coating method for electrostatic coating using a rotary atomizing coating gun using a conductive paint to which a high voltage is directly applied.

0002

2. Description of the Related Art Conventionally, a voltage block method, for example, has been known as a method for applying electrostatic coating to an object to be coated, such as an automobile body, by directly applying a high voltage to a conductive paint. In this method, the conductive paint is introduced into an intermediate reservoir insulated from ground potential, and then from this intermediate reservoir is supplied through a paint path to a paint gun at a high potential. Electrostatic painting work is being carried out on painted objects.

In this method, when a rotary atomizing paint gun equipped with a rotary cup (rotary atomizing head) is used, the water-based paint, which is a conductive paint, adheres to the rotary cup and forms a dry coating. is easily formed. Therefore, there is a problem in that the dried film peels off from the rotary cup and adheres to the object to be coated, resulting in poor coating.

Therefore, as disclosed in Japanese Patent Publication No. 2-57994, for example, cleaning water is intermittently supplied to the rotating cup while the object to be coated is being painted. Methods of cleaning are known.

[0005]

[Problems to be Solved by the Invention] However, in the above-mentioned conventional technology, cleaning water is intermittently supplied to the rotating cup, so when applying high voltage to water-based paint for electrostatic painting, this cleaning water is There is a risk of electrical leakage through. Therefore,
There is a problem in that the voltage applied to the water-based paint is unstable and the quality of electrostatic coating deteriorates due to uneven coating efficiency. Moreover, there is a problem that the applied voltage is significantly reduced, making it impossible to perform electrostatic coating.

The present invention solves this kind of problem, and can effectively clean the rotary atomizing head, and also remove the cleaning liquid etc. when a high voltage is applied to the conductive paint. It is an object of the present invention to provide an electrostatic coating method that can prevent electrical leakage through.

[0007]

[Means for Solving the Problems] In order to achieve the above-mentioned object, the present invention sprays a conductive paint to which a high voltage is directly applied onto an object from a rotary atomizing paint gun to generate an electrostatic charge. a process of applying a coating, a process of supplying a cleaning liquid to the rotary atomizing head through a cleaning path after the electrostatic coating is finished, and cleaning the rotary atomizing head, and drying the cleaning path after the cleaning is finished. and a step of performing a subsequent electrostatic coating operation after the drying is completed.

[0008]

[Operation] In the electrostatic coating method according to the present invention, after the electrostatic coating is finished, the cleaning liquid is supplied to the rotating atomizing head through the cleaning path, and after the rotating atomizing head is cleaned, the cleaning liquid is Because the path is dry, current leakage through the cleaning path can be prevented when high voltage is applied to the conductive paint for the next electrostatic coating operation.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The electrostatic coating method according to the present invention will be described in detail below with reference to the accompanying drawings, with reference to embodiments and an apparatus for carrying out the method.

In FIG. 2, reference numeral 10 indicates an electrostatic coating device for carrying out the electrostatic coating method according to the present invention. This electrostatic coating device 10 includes a grounded color change valve mechanism 12.
This color change valve mechanism 12 is equipped with air (A) and water (W).
), a first cleaning valve 1 that controls the supply of cleaning liquid (S), etc.
4 and a plurality of paint valves 16a to 16c capable of supplying conductive paints of different colors. This color change valve mechanism 12 has an electrically insulating conduit 17 made of resin such as polytetrafluoroethylene (PTFE) at least in part, and a block valve mechanism 18 including this electrically insulating conduit 17 is disposed. A supply path 20 is connected thereto.

This block valve mechanism 18 includes a switching valve 22a.
, 22b, and the color change valve mechanism 12 and a second cleaning valve 24 that controls the supply of air (A), water (W), cleaning liquid (S), etc. are switched by the switching valve 22a on the inlet side. , are connected to an intermediate storage tank 26 via a supply path 20. This intermediate storage tank 26 includes a first cylinder chamber 30 for injecting conductive paint and cleaning liquid, which is divided via a piston 28, and a second cylinder chamber 32 for supplying air. The air supply source 34 is the flow rate adjustment valve 3
6.Communicate via on-off valve 38. This air supply source 34
is connected via a booster 40 to a conductive paint flow rate regulator 42 for adjusting air pressure, and this flow rate regulator 42 controls the discharge amount of the conductive paint. The switching valve 22b is connected to a waste liquid tank 46 via a discharge path 44.

A coating gun 50 is connected to the first cylinder chamber 30 of the intermediate storage tank 26 via a delivery passage 48 . Figure 1
As shown in FIG. 2, the paint gun 50 includes a paint path 52 that communicates with the delivery path 48, and a dump valve 54 and a trigger valve 56 are disposed in the paint path 52. It is connected to a waste liquid tank 60 via a discharge path 58.

A cleaning path 62 is provided to cover the outer periphery of the paint path 52, and the paint path 52 and the cleaning path 62 form a double pipe. This cleaning path 62 includes air (A), water (W), and cleaning liquid (S).
(
(see Figure 2).

The end 52a of the paint path 52 and the end 62a of the cleaning path 62 are connected to a rotating cup (rotating atomizing head) 64.
The end portion 52a is configured to protrude by a predetermined length toward the rotary cup 64 side than the end portion 62a. The rotary cup 64 is connected to a motor 66 disposed within the paint gun 50 and is surrounded by a cap member 68 . A predetermined high voltage is applied to the conductive paint in the coating gun 50 by a high voltage applying means (not shown).

Next, the operation of the electrostatic coating apparatus 10 constructed as described above will be explained in relation to the electrostatic coating method according to this embodiment, with reference to the timing chart shown in FIG.

First, conductive paint of a predetermined color is pumped from the paint valve 16a of the color change valve mechanism 12, filled into the first cylinder chamber 30 of the intermediate storage tank 26 through the supply path 20, and then through the delivery path 48. The paint gun 50 is filled through the tank. During this filling, the trigger valve 56 is closed, while the dump valve 54 is opened, and after filling, the dump valve 54 is closed.

Therefore, the switching valve 22 of the block valve mechanism 18
When the switching operation of a and 22b is performed, the second cleaning valve 2
4, the block valve mechanism 18 is cleaned;
The cleaning liquid and water used for this cleaning are discharged to a waste liquid tank 46 via a discharge path 44. The block valve mechanism 18 is then dried, thereby electrically insulating the color change valve mechanism 12 and the intermediate storage tank 26.

Next, from the air supply source 34 to the flow rate regulating valve 3
Driving air is supplied to the second cylinder chamber 32 of the intermediate storage tank 26 through the opening/closing valve 38 and the opening/closing valve 38, the piston 28 is displaced toward the first cylinder chamber 30, and the conductive paint is applied to the trigger valve 56 when it is opened. Under the action of the paint channel 52 in the paint gun 50
is supplied to the rotary cup 64 via the rotary cup 64. At this time, while the rotary cup 64 is rotated at high speed by the driving action of the motor 66, a high voltage is applied to the conductive paint in the coating gun 50 via a high voltage applying means (not shown). The paint is atomized and sprayed onto an object (not shown) to perform electrostatic coating.

After the electrostatic coating is completed, the high voltage application is stopped, the third cleaning valve 63 is driven, and cleaning liquid is supplied to the cleaning path 62. This cleaning liquid is led out from the end 62a of the cleaning path 62 to the inner surface of the rotary cup 64, and the cleaning operation of the rotary cup 64 is performed for a predetermined period of time. Therefore, it is possible to effectively prevent the conductive paint from adhering to the rotary cup 64 and drying.

After the cleaning is completed, dry air is supplied to the cleaning path 62 for a predetermined time under the action of the third cleaning valve 63.
This cleaning path 62 is dried. Further, the next electrostatic coating operation is performed according to the procedure described above.

In this case, in this embodiment, the cleaning path 62
After the rotary cup 64 is cleaned by the cleaning liquid supplied to the rotary cup 64, dry air is supplied to the cleaning path 62 to dry the cleaning path 62. Therefore, the paint path 5
When a high voltage is applied to the conductive paint supplied to 2,
Electric leakage through the cleaning path 62 can be effectively prevented. This makes it possible to reliably apply a predetermined high voltage to the conductive paint in the paint path 52, and to apply a high precision and The effect is that efficient electrostatic coating work can be performed.

[0022]

[Effects of the Invention] According to the electrostatic coating method according to the present invention, the following effects can be obtained.

[0023] After the electrostatic coating is completed, the cleaning liquid is supplied to the rotary atomizing head through the cleaning path, and after the rotary atomizing head is cleaned, the cleaning path is dried, so that the next electrostatic coating can be performed. When a high voltage is applied to the conductive paint to perform work, it is possible to prevent electrical leakage through this cleaning path. This ensures a predetermined high voltage and enables highly accurate and efficient electrostatic painting work.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional view of a coating gun that constitutes an apparatus for carrying out the electrostatic coating method according to the present invention.

FIG. 2 is a schematic configuration diagram of the electrostatic coating device.

FIG. 3 is a timing chart of the electrostatic coating method.

[Explanation of symbols]

10...Electrostatic coating device 12...Color change valve mechanism 18...Block valve mechanism 26...Intermediate storage tank 48…Sending path 50...painting gun 52...Paint route 54...Dump valve 56...Trigger valve 62...Cleaning path 64...Rotating cup

Claims (1)

[Claims] [Claim 1] A process of applying electrostatic coating by spraying a conductive paint to which a high voltage is directly applied from a rotary atomizing coating gun onto an object to be coated, and a process of applying electrostatic coating through a cleaning path after the electrostatic coating is completed. a step of supplying a cleaning liquid to the rotary atomizing head to clean the rotary atomizing head; a step of drying the cleaning path after the cleaning is completed; and a step of performing the next electrostatic coating operation after the drying is completed. An electrostatic coating method characterized by having.