JP2009226346A - Jetting amount control method and apparatus for coating device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To accurately control a coating amount by a spray gun by easily and accurately measure the coating material of a fine flow rate discharged from the spray gun. <P>SOLUTION: In the control of the jetting amount of a coating device for supplying the coating material (a) to the spray gun 5 to be discharged by supplying pressure-adjusted air 3 for force feed to a coating supply tank 1, atomizing air 14 for atomization to the spray gun 5 to jet the coating material, and recovering the coating material a' not discharged from the spray gun 5 by a return pipe 7, the coating material is supplied to the spray gun 5 by supplying the air 3 for force feed to the coating supply tank 1 in the state of stopping the supply of the air 14 for atomization, the dripping interval of droplets X discharged from the spray gun 5 and dripping is measured, the pressure of the air 3 for the force feed is adjusted so that the dripping interval of the droplets X is within a setting range, and the jetting amount of the coating material jetted from the spray gun 5 is controlled. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an injection amount control method and apparatus for a coating apparatus capable of accurately adjusting the amount of paint sprayed by a spray gun.

  For example, a water-based paint mixed with metal powder such as aluminum is used for heat-resistant coating, and it is applied to the surface of the part with a thin thickness of about 10 μm or less, and this coating is repeated 6 to 7 times, for example. Thus, a coating film of about 50 to 60 μm is formed. Since the above coating requires strict uniformity of the coating film thickness, it is necessary to form a thin and uniform coating film by adjusting the amount of coating to be applied at a small flow rate. .

  On the other hand, paints in which various powders are mixed with metal powders or the like are used depending on the purpose, and some of these paints are easily precipitated and separated from the solvent. Even in the case of such a water-based paint, there are those in which the powder and the solvent are easily separated.

  As a coating apparatus that uses a paint in which the powder and the solvent are easily separated as described above, the apparatus prevents the precipitation of the powder by circulatingly supplying the paint (Patent Document 1), or the powder and the solvent. Are mixed immediately before injection (Patent Document 2). In addition, when circulating the paint to be supplied to the spray gun, there is a system in which the flow rate of the paint to the spray gun is adjusted by providing a bypass path and reducing the flow rate of the bypass path (Patent Document 3). .

  However, in the above Patent Documents 1 to 3, since the paint is supplied by the supply pump, the injection amount of the paint injected from the spray gun is not stabilized under the influence of the fluctuation of the pressure by the supply pump. It is difficult to stabilize the spray amount when spraying the paint at a small flow rate, so that it can be applied to the case where the uniformity of the coating film thickness is strictly required as described above. could not.

  On the other hand, there is one in which air for pressure feeding is supplied to a paint supply tank, paint is supplied to the spray gun by air pressure, and further, atomization air is supplied to the spray gun to inject the paint (Patent Document). 4). In addition, there is a circulation type spray gun in which the circulation channel is passed to the inside of the spray gun (Patent Document 5).

According to Patent Literature 4 and Patent Literature 5, the amount of paint sprayed from the spray gun can be stabilized as compared with Patent Literatures 1 to 3.
JP 2004-330119 A JP 2003-033681 A Japanese Patent Laid-Open No. 06-047330 JP 2000-325837 A JP 2006-055736 A

  However, as in Patent Documents 4 and 5, when the paint is supplied to the spray gun by the air pressure of the pressure feeding air and sprayed, the paint is caused by the flow path resistance of the supply flow path for supplying the paint to the spray gun. In addition, there is a problem of pulsation, and when the paint is to be sprayed at a small flow rate, the paint mixed with the powder causes a flow turbulence when the paint is branched at the branch portion of the paint inside the spray gun. Therefore, it is difficult to stabilize the injection amount when the coating material is injected at a minute flow rate. For this reason, this method cannot be applied to cases where it is required to accurately form a thin uniform coating film by spraying a small flow rate of paint. It is also conceivable to install a flow rate detector on the spray gun to measure the flow rate of the sprayed paint, but in particular, a flow rate that can easily and accurately measure the flow rate of fluid mixed with powder, such as paint. There is no detector, and even if measurement is possible, it is technically difficult to incorporate a flow detector with a complicated structure inside the narrow inside of the spray gun.

  The present invention has been made in view of the above circumstances, and it is possible to easily and accurately measure a small flow rate of paint discharged from a spray gun, and to accurately control the amount applied by the spray gun. It is an object of the present invention to provide a control method and apparatus.

According to the present invention, the paint supply tank is supplied with pressure-adjusting air to supply and discharge the paint to the spray gun, and the spray gun is supplied with the atomizing air to spray the paint. The coating amount that is not discharged from the coating apparatus is to be collected by the return pipe.
Supplying paint to the spray gun by supplying air for pressure feeding to the paint supply tank in a state where the supply of atomizing air is stopped, measuring the dropping interval of the droplets discharged from the spray gun,
Adjust the pressure of the pumping air so that the droplet dropping interval is within the set range,
The present invention relates to an injection amount control method for a coating apparatus, characterized by controlling an injection amount of paint sprayed from a spray gun.

The present invention relates to a paint supply tank that contains paint, a regulator that adjusts the pressure of the pumping air supplied to the paint supply tank, and a portion of the paint supplied from the paint supply tank by the pressure of the pumping air. A spraying amount control device for a coating apparatus, comprising: a spray gun for spraying; and an atomizing air supply device for spraying paint by supplying atomizing air to the spray gun,
A drip detector that measures the drip of the liquid droplets discharged from the spray gun and drip;
Control that takes in the drop signal detected by the drop detection device, measures the drop interval of the drop, and adjusts the set pressure of the air for pumping by the regulator so that the drop interval falls within the target drop interval setting range And
The present invention relates to an injection amount control device for a coating apparatus, characterized by comprising:

  In the spray amount control device of the coating apparatus, the controller stops the supply of the atomizing air by the atomizing air supply device prior to the detection of the droplet dropping by the droplet detecting device.

  In the spray amount control device of the coating apparatus, it is preferable that the drop detection device is an optical sensor that detects the drop of the droplet by blocking the light by the droplet.

  In the spray amount control device of the coating apparatus, it is preferable that the drop detection device is an impact sensor that detects the drop of the droplet by an impact caused by the drop of the droplet.

  According to the injection amount control method and apparatus for a coating apparatus of the present invention, in a state where the supply of atomizing air is stopped, the pressure supply air is supplied to the paint supply tank, the paint is supplied to the spray gun, and the spray gun is discharged. Since the drop interval of the paint droplets to be dropped is measured and the pressure of the air for pressure feeding is adjusted so that the drop interval is within the set range, the spray of paint sprayed from the spray gun An excellent effect that the amount can be easily and accurately controlled can be obtained.

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

  FIG. 1 shows an example of an embodiment for carrying out the present invention. In FIG. 1, reference numeral 1 denotes a paint supply tank for containing paint a, and an air supply for pressure feeding is provided in the space above the paint a in the paint supply tank 1. The pressure-feeding air 3 from the device 2 is supplied via a regulator 4 capable of adjusting the pressure.

  Reference numeral 5 denotes a spray gun. The paint a in the paint supply tank 1 is supplied to the spray gun 5 through the supply pipe 6 by the pressure of the pressure feeding air 3, and a part is discharged from the tip of the spray gun 5. The remaining paint a ′ that has not been discharged from the spray gun 5 is collected in the paint collection tank 8 by the return pipe 7. The upper part of the paint recovery tank 8 is opened to the atmosphere through an opening 9. Reference numeral 10 denotes a stirrer that stirs the paint a in the paint supply tank 1 and the paint a ′ in the paint recovery tank 8 by the stirring air 12 from the stirring air supply device 11. Although FIG. 1 shows the case where the paint supply tank 1 and the paint recovery tank 8 are provided independently, the paint a ′ recovered in the paint recovery tank 8 is connected to the paint supply tank 1 so as to be circulated. May be.

  The spray gun 5 is supplied with the atomizing air 14 from the atomizing air supply device 13, and the spray gun 5 is provided with an opening / closing means 15 such as a needle valve to provide a coating material. Discharging and closing are performed.

  A drop detecting device 16 for detecting a drop of the paint droplet X discharged from the tip 5a of the spray gun 5 is provided below the tip 5a for spraying the paint by the spray gun 5. The drop detection device 16 of FIG. 1 includes a projector 17a and a light receiver 17b, and is an optical sensor 18 that measures the drop of the droplet X by blocking the light by the droplet X of the paint to be dropped. Is shown. 19 is a paint receiver.

  Further, an impact sensor 20 as shown in FIG. That is, an impact sensor 20 such as a piezoelectric element is provided below or inside the paint receiver 19 to measure when a voltage is applied when an impact is applied. The fact that the droplet X has been dropped is measured.

  Reference numeral 21 denotes a controller. The controller 21 takes in a drop signal 22 detected by the drop detector 16 and is a required time between the previous drop X and the current drop X. The drop interval is measured, and the controller 21 further sends a control signal 23 to the regulator 4 so that the drop interval falls within the target drop interval setting range, and supplies the paint supply tank 1 with pressure. The supply pressure of the air 3 is controlled.

  Further, the controller 21 sends and receives an operation signal 24 to the air supply device 2 for pressure feeding, and further opens and closes the opening and closing means 15 such as a needle valve provided in the spray gun 5. A signal 25 is sent to command discharge and closing of the paint, and an opening / closing signal 26 is sent to the atomizing air supply device 13 to supply and stop the atomizing air 14. Yes.

  Next, the operation of the illustrated example will be described.

  When adjusting the spray amount of the paint sprayed from the spray gun 5 in the coating device of FIG. 1, first, as shown in FIG. 3, the controller 21 sends an opening / closing signal 26 to the atomizing air supply device 13. The supply of the atomizing air 14 is stopped by sending a closing signal, and the closing signal of the opening / closing signal 25 is sent to the opening / closing means 15 to close the discharge of the paint. In this state, the pressure supply air supply device 2 is operated to supply the pressure supply air 3 to the paint supply tank 1 and supply the paint a in the paint supply tank 1 to the spray gun 5 by the pressure of the pressure supply air 3. Then, since the opening / closing means 15 is closed, all the paint a ′ is recovered from the return pipe 7 to the paint recovery tank 8.

  At this time, as shown in FIG. 4, the controller 21 presets an initial set pressure P0 in accordance with the target injection amount of the paint sprayed by the spray gun 5 in the regulator 4, and the pressure of the pressure feeding air 3. When the initial set pressure P0 is reached, the opening / closing means 15 of the spray gun 5 is opened. Then, the coating material is discharged from the tip 5a of the spray gun 5, and the coating material drops as droplets X.

  A drop detection device 16 is provided below the tip 5 a of the spray gun 5, and the drop of the paint droplet X is accurately detected by the drop detection device 16. In the drop detection device 16 using the optical sensor 18 of FIG. 1, when the droplet X falls, the drop of the droplet X is detected by blocking the light by the droplet X. On the other hand, as shown in FIG. 2, when the drop detection device 16 using the impact sensor 20 is provided, the drop of the droplet X is detected by the impact when the droplet X is dropped.

  The drop signal 22 detected by the drop detection device 16 is sent to the controller 21, where the controller 21 is a drop interval that is a required time between the previous drop X and the current drop X. Measure.

  The controller 21 sends the control signal 23 to the regulator 4 and supplies it to the paint supply tank 1 so that the dropping interval falls within the set range L that is defined with respect to the target value Td in FIG. Control for correcting the set pressure 3 is performed.

  When the set pressure is corrected, the amount of paint discharged from the spray gun 5 is changed by changing the pressure of the paint a supplied to the spray gun 5. When the pressure of the paint a is increased and the discharge amount of the paint discharged from the spray gun 5 is increased, the dropping interval of the droplet X is shortened, and the pressure of the paint a is lowered and the paint discharged from the spray gun 5 is reduced. When the discharge amount decreases, the drop interval of the droplet X becomes longer.

  When the drop interval of the droplets X is within the set range L in FIG. 4 due to the correction of the set pressure, the spray gun 5 has discharged the set amount of paint, and in this state atomized When the spray air 5 is supplied to the working air 14, the set amount of paint is sprayed from the spray gun 5 with high accuracy.

  On the other hand, as shown in FIG. 4, when the set interval detected by the drop detecting device 16 with respect to the set pressure P0 and measured by the controller 21 is larger (longer) than the set range L as T0, the spray Since the amount of paint discharged from the gun 5 is insufficient, the controller 21 sends a correction control signal 23 for increasing the set pressure of the pressure feed air 3 supplied to the paint supply tank 1 to the regulator 4, thereby spraying. The amount of paint discharged from the gun 5 is increased, and the dropping interval is measured in the same manner as described above.

  When the measured dropping interval is smaller (shorter) dropping interval T1 than the setting range L as shown in FIG. 5, since the discharge amount of the paint from the spray gun 5 is too large, the controller 21 uses the paint supply tank. A control signal 23 for correcting the set pressure of the pressure-feeding air 3 supplied to 1 is sent to reduce the amount of paint sprayed from the spray gun 5, and the drop interval at this time is measured in the same manner as described above. To do.

  When the measured dropping interval is the dropping interval T2 within the set range L as shown in FIG. 6, since the set paint is discharged from the spray gun 5, the atomizing air 14 is sprayed in this state. When the gun 5 is supplied, the set amount of paint is sprayed from the spray gun 5 with high accuracy.

  In FIG. 3, the number of times of adjusting the dropping interval within the setting range L by measuring the dropping interval and correcting the set pressure of the regulator 4 is set, and when the number of adjustments exceeds the upper limit, The operation of setting the discharge rate of the paint again is performed by checking the apparatus or changing the set pressure, etc., with the flow rate adjustment failure.

  As described above, in a state where the supply of the atomizing air 14 is stopped, the coating air is supplied to the coating material supply tank 1 to supply the coating material to the spray gun 5, and the coating material is discharged from the spray gun 5 and dropped. The drop interval of the droplet X was measured, and the regulator 4 was adjusted by the controller 21 so that the drop interval of the droplet X was within the set range L, so that the pressure of the pressure feeding air 3 was controlled. From the spray gun 5, the paint can be sprayed with high precision even with a small spray amount, and thus the coating quality can be improved.

  Although the dropping interval has been described, it is of course possible to count the number of droplets dropped during the set time, and it is needless to say that various changes can be made without departing from the scope of the present invention. .

It is a block diagram which shows an example of the form which implements this invention. It is a block diagram which shows the example of the dripping detection apparatus different from FIG. It is a flowchart which shows an example of the control method of this invention. It is a graph which shows the case where a dripping interval is larger than a setting range. It is a graph which shows the case where a dripping interval is smaller than a setting range. It is a graph which shows the case where a dripping space | interval becomes a setting range.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Paint supply tank 3 Air for pressure supply 4 Regulator 5 Spray gun 7 Return pipe 13 Air supply device for atomization 14 Air for atomization 16 Drop detection device 18 Optical sensor 20 Impact sensor 21 Controller 22 Drop signal L Setting range X Droplet a paint a 'paint

Claims (5)

Paint that is not discharged from the spray gun by supplying spraying air to the spray gun by supplying pressure-feeding air with adjusted pressure to the paint supply tank and discharging the spray gun. Is a method for controlling the spraying amount of the coating device that is to be recovered by the return pipe,
Supplying paint to the spray gun by supplying air for pressure feeding to the paint supply tank in a state where the supply of atomizing air is stopped, measuring the dropping interval of the droplets discharged from the spray gun,
Adjust the pressure of the pumping air so that the droplet dropping interval is within the set range,
An injection amount control method for a coating apparatus, characterized by controlling an injection amount of paint sprayed from a spray gun. A paint supply tank for containing the paint, a regulator for adjusting the pressure of the pressure supply air supplied to the paint supply tank, a spray gun for discharging a part of the paint supplied from the paint supply tank by the pressure of the pressure supply air; , An atomizing air supply device for spraying paint by supplying atomizing air to the spray gun;
A drip detector that measures the drip of the liquid droplets discharged from the spray gun and drip;
Control that takes in the drop signal detected by the drop detection device, measures the drop interval of the drop, and adjusts the set pressure of the air for pumping by the regulator so that the drop interval falls within the target drop interval setting range And
A spray amount control device for a coating apparatus, comprising:   The injection amount control device for a coating apparatus according to claim 2, wherein the controller stops the supply of the atomizing air by the atomizing air supply device prior to the detection of the dropping of the droplet by the dropping detection device.   The spray amount control device for a coating apparatus according to claim 2 or 3, wherein the drop detection device is an optical sensor configured to detect the drop of the droplet by blocking light by the droplet.   The spray amount control device for a coating apparatus according to claim 2 or 3, wherein the drop detection device is an impact sensor configured to detect drop dropping by an impact caused by dropping of the droplet.

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