KR101454353B1 - Air spraying apparatus for hetrogeneous mixture coating solution containing solid particles by aids of the needle pulse on/off action - Google Patents

Abstract

The present invention relates to an air spray device for equally coating an application surface with unequally mixed coating solution, and more specifically, to an air spray device for unequally mixed coating solution capable of suppressing the precipitation and cohesion of powder contained in the unequally mixed coating solution without including an extra stirring device. The air spray device (100) for unequally mixed coating solution includes a body (110) with an inlet (111) for the unequally mixed coating solution and an external compression air inlet (112), an extension block (120) combined with a lower part of the body, a coating solution outlet (131) combined with a lower part of the extension block and including a nozzle assembly (130) discharging the unequally mixed coating solution passing through the extension block to the outside, a stovepipe path (140) vertically formed on the center of the body, the extension block, and the nozzle assembly, a needle valve (150) opening and closing the coating solution outlet while performing a pulse opening and closing motion by receiving elevation force from the body by being installed in the stovepipe path, and a plunger (160) to stir the unequally mixed coating solution by generating fluid resistance in the stovepipe while performing the pulse opening and closing motion with the needle valve by being inserted into the valve in close proximity to the floor of the stovepipe path of the extension block.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air spraying apparatus for a heterogeneous mixed coating solution using pulsed opening and closing operations of a needle valve,

The present invention relates to an air spray apparatus for uniformly coating a nonuniform mixed coating liquid on a coated surface, and more particularly, to an air spray apparatus for uniformly coating a nonuniform mixed coating liquid on a coating surface, The present invention relates to an air spray apparatus for a nonuniform mixed coating liquid using an operation.

In general, the air spray apparatus is operated by the principle that the coating liquid is sucked up by the negative pressure by the fast flow of the compressed air and the coating liquid is discharged, and the coating liquid discharged through the nozzle is atomized by the air having a high flow rate at the nozzle end, Respectively.

As an example of such an air spray apparatus, Korean Patent Laid-Open Publication No. 10-2012-0028237 is known.

1 and 2, the air spray apparatus 1 includes a compression coating liquid inlet 11 for receiving a coating liquid from the outside and a compressed air inlet 12 for receiving compressed air from the outside An extension block 20 extending downward from the lower end of the main body 10 and a nozzle assembly 30 fastened to the lower end of the extension block 20. The main body 10, the extension block 20, and the nozzle assembly 30 commonly include a communication passage 40 formed vertically.

A needle valve (50) elastically moves up and down in the communication passage (40) of the main body (10) to determine opening and closing of the coating liquid. The upper end of the main body 10 is provided with a stroke regulating member 60 for adjusting the amplitude of the needle valve 50 and a lift force is applied to the inside of the main body 10 from the compressed air to apply a lift force to the needle valve 50 The piston member 70 is provided.

The lower portion of the needle valve 50 is inserted into the nozzle assembly 30 so that when the compressed air is introduced into the main body 10 from the compressed air inlet 12, The coating liquid discharge port 31 formed at the lower end of the nozzle assembly 30 is opened. When the inflow of the compressed air is stopped, the coating liquid discharge port 31 is closed while being lowered by the elastic force.

Therefore, when the coating liquid discharge port 31 is opened, the coating liquid flows into the main body 10 from the compression coating liquid inlet 11 side and is sprayed through the coating liquid discharge port 31 via the extension block 20.

On the other hand, in order to impart a specific function to the coating layer, a heterogeneous mixed coating liquid containing a metal / non-metal powder that performs a specific function is widely used in high technology fields in recent years.

For example, in the field of fuel cell cells, a heterogeneous mixed coating liquid containing nano-sized platinum powder is used to coat a catalyst on both sides of a membrane electrode assembly (MEA), and a catalyst is coated on both sides of a GDL (Gas Diffusion Layer) In order to realize white light in the field of LED, a phosphor powder having a size of 3 to 6 um is coated on a blue LED when a phosphor is coated on the blue LED. A non-uniform mixed coating liquid is used.

However, such conventional air spray apparatuses are not suitable for spraying a heterogeneous mixed coating liquid. This is because the powder is coagulated or settled in the spray device due to electrophoresis or gravity over time, but conventional air spray devices can not prevent such flocculation and settling, This is because the powders that are responsible for a specific function can not be uniformly sprayed, and the desired high efficiency can not be obtained.

Therefore, in order to solve the above-mentioned problem, a stirrer capable of strongly stirring a heterogeneous mixed coating liquid in a pressure vessel containing a heterogeneous mixed coating liquid is installed, or a heterogeneous mixed coating liquid in a pressure vessel is periodically stimulated by ultrasonic An ultrasonic generator capable of strongly stirring can be provided to maintain the dispersed state of the powder in a non-uniform mixed coating liquid in the pressure vessel, or piping the body in a circulation-type fluid, A variety of air spray apparatuses have been developed such that a non-uniform mixed coating liquid supplied to the inside of a main body is maintained in a dispersed state of a powder to the maximum.

However, the air spray apparatuses for such a heterogeneous mixed coating liquid are effective only in maintaining the dispersed state of the powder only in the body of the air spray apparatus provided with the pressure vessel or the liquid circulation piping. Due to its structural characteristics, In the block and nozzle assemblies, the powder is still stagnated due to its structural characteristics, so it is difficult to expect the effect of dispersion and maintenance of the powder.

Accordingly, the air spray apparatuses for such a heterogeneous mixed coating liquid have a remarkable increase in production cost and complicated structure when compared with the conventional air spray apparatus, and the merits obtained therefrom are insufficient.

On the other hand, the air spray apparatuses for a heterogeneous mixed coating liquid use a large amount of compressed air as a power source for atomization, so that the bounce back phenomenon of the atomized coating particles can not be avoided and this causes serious deterioration of coating arrival efficiency A high-cost material ratio, etc., a pulsed control spraying method is employed in which the needle valve is controlled to move up and down very quickly and the coating operation is intermittently performed. However, in the pulse-controlled spraying method, the lower portion of the needle valve flows left and right due to the mechanical vibration generated in the course of performing the pulsing operation of the needle valve, and as a result, the coating liquid discharge port can not be accurately opened and closed, There is a problem that the coating quality is lowered.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an air spray apparatus, And to provide an air spray apparatus for a heterogeneous mixed coating liquid.

It is another object of the present invention to provide an air spray apparatus for a heterogeneous mixed coating liquid which can minimize the flow to the left and right and accurately open and close the coating liquid discharge port even if the needle valve performs a pulse operation up and down.

In order to achieve the above object, an air spray apparatus for a non-uniform mixed coating liquid according to the present invention comprises a main body having a non-uniform mixed coating liquid inlet and a compressed air inlet from the outside, an extension block coupled to the lower end of the main body, A nozzle assembly having a nozzle discharge hole formed at the lower end of the extension block and discharging a nonuniform mixed coating liquid passing through the extension block to the outside, a communication passage vertically formed at the center of the main assembly, the extension block and the nozzle assembly, A needle valve which is provided in the inside of the flow passage and which is provided with a lifting force from the main body and which opens and closes the nozzle discharge hole while opening and closing the pulse; and a needle valve which is inserted into the needle valve to be positioned close to the bottom side of the communication passage of the extension block When the pulse is opened and closed, fluid resistance is generated inside the communication channel Including a plunger formed of a plate shape so as to stir the heterogeneous mixture coating liquid is characterized in the configured.

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The plunger may include an outer diameter surface adjacent to the inner diameter surface of the communication passage and a spacing portion between the inner diameter surface and the inner diameter surface of the communication passage.

The plunger may be an original plate having an outer diameter close to the inner diameter surface of the communication passage. At least one groove may be formed in the plunger so as to penetrate the plunger up and down to adjust the fluid resistance strength.

In this case, the grooves may be formed in plural numbers at regular intervals along the outer diameter surface of the plunger.

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According to the present invention configured as described above, since the plunger installed on one side of the needle valve generates pulsation opening and closing operations together with the needle valve to generate fluid resistance in the communication flow path to stir the heterogeneous mixed coating solution, Since the dispersion state of the powder can be maintained up to the discharge port of the coating liquid, the coating quality can be greatly improved.

1 is a perspective view of a conventional air spray apparatus;
2 is a sectional view of Fig. 1;
3 is a perspective view of an air spray device for a heterogeneous mixed coating liquid of the present invention.
FIG. 4 is an exploded perspective view of FIG. 3; FIG.
5 is a sectional view of Fig. 3; Fig.
6 is a plan view of a plunger constituting the present invention, showing a state in which a groove is formed.
7 is a cross-sectional view of the present invention in which the plunger of FIG. 6 is applied.

The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. The same reference numerals are used for the same components, and only the different portions are described for the sake of clarity.

3 to 5, the air spray apparatus 100 for a nonuniform mixed coating liquid of the present invention basically includes a main body 110, an extension block 120, and a nozzle assembly 130. As shown in FIG.

The main body 110 is provided with a nonuniform mixed coating liquid inlet 111 and a compressed air inlet 112 from the outside and the extension block 120 is coupled to the lower end of the main body 110 in a downwardly extending manner The nozzle assembly 130 is formed with a coating solution discharge port 131 which is fastened to the lower end of the extension block 120 and discharges the uneven mixed coating solution passed through the extension block 120 to the outside.

A communication passage 140 is vertically formed in the center of the main body 110, the extension block 120 and the nozzle assembly 130. The communication passage 140 is formed with a through- And a needle valve 150 is provided for opening and closing the coating liquid discharge opening 131 while pulsating and opening operation.

Since the main body 110, the extension block 120, the nozzle assembly 130, and the needle valve 150 constituting the present invention are the same as or similar to those of the conventional art, detailed description thereof will be omitted.

According to the present invention, the plunger 160 is fitted and coupled to the needle valve 150. The plunger 160 is inserted into one side of the needle valve 150 and pulses open and close together with the needle valve 150 to generate fluid resistance in the communication flow path 140 to stir the heterogeneous mixed coating liquid.

The plunger 160 may be disposed near the bottom of the communication passage 140 of the extension block 120. This is because the communication passage 140 of the extension block 120 is not only a portion where the non-uniform mixed coating liquid stagnates most because of the structural characteristics of extending downward from the lower end of the main body 110, This is because the dispersion state of the powder can be maintained most effectively up to the coating liquid discharge port 131.

The plunger 160 is preferably formed in a plate shape having a needle valve through hole 160a at the center thereof to effectively generate fluid resistance.

In this case, the plunger 160 may have an outer diameter surface 161 close to the inner diameter surface of the communication passage and a spacing part 162 for forming a space between the inner diameter surface of the communication passage 140 and the inner space. It is preferable that the spacers 162 are formed symmetrically with respect to the plunger 160 when the plunger 160 is viewed in a plane so that a uniform fluid resistance acts on the plunger 160.

The plunger 160 configured as described above is stably slidably moved along the communication passage 140 through the outer diameter surface 161 and at the same time the unevenness of the inside of the communication passage 140 through the spacing space formed by the spacing portion 162 Thereby providing a passage through which the mixed coating liquid can flow up and down. As a result, when the needle valve 150 performs pulse opening and closing operations, the plunger 160 moves up and down along the needle valve 150. In this process, a vortex is generated around the plunger 160, .

Since the plunger 160 is disposed in the vicinity of the bottom of the communication passage 140 and is slidably moved in the state of being close to the inner diameter surface of the communication passage 160, Even if the operation is performed, it does not flow to the left or right. Thus, the pulse valve opening / closing operation of the needle valve 150 is accurately performed.

The number and the size of the spacers 162 may be appropriately selected depending on the speed of the pulse valve opening and closing operations of the needle valve 150 set in accordance with the required stirring intensity. . That is, the fluid resistance strength can be adjusted while adjusting the number and size of the spacing portions 162 in proportion to the speed of pulse opening / closing operation of the needle valve 150.

Although not shown, the plunger 160 may be formed of a circular plate having an outer diameter smaller than the inner diameter of the communication passage 140 so as to form a spacing space with respect to the inner diameter surface of the communication passage 140 along the entire circumference.

6 and 7, in another embodiment of the plunger 160, the plunger 160 is disposed close to the inner diameter surface of the communication passage 160 so as to stably slide along the communication passage 140 And the plunger 160 may be formed with at least one groove portion 163 passing through the plunger 160 in the up and down direction. The groove portion 163 provides a passage through which the heterogeneous mixed coating liquid inside the communication passage 140 can flow upward and downward. The grooves 163 are preferably formed at regular intervals along the outer surface of the plunger 160 that is the farthest from the center of the plunger 150 in order to maximize vortex generation.

The shape and position of the groove 163 need not be limited. However, the number and size of the groove 163 may be appropriately selected depending on the speed of the pulse valve opening / closing operation of the needle valve 150, . That is, the fluid resistance strength can be adjusted while controlling the number and size of the groove portions 163 in proportion to the pulse opening / closing speed of the needle valve 150.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be takeners of ordinary skill in the art, And such variations are within the scope of the present invention.

110 ... main body 111 ... heterogeneous mixed coating liquid inlet
112 ... Compressed air inlet 120 ... Extension block
130 ... nozzle assembly 131 ... coating liquid outlet
140 ... communicating flow passage 150 ... needle valve
160 ... plunger 161 ... outer diameter surface
162 ... spacing 163 ... groove

Claims (6)

A main body having a nonuniform mixed coating liquid inlet and a compressed air inlet from the outside,
An extension block coupled to the lower end of the body so as to extend downward;
A nozzle assembly coupled to a lower end of the extension block and having a coating liquid discharge port for discharging a non-uniform mixed coating liquid passing through the extension block to the outside,
A communication passage formed vertically in the center of the main assembly, the extension block and the nozzle assembly,
A needle valve installed in the communication passage and provided with a lifting force from the main body to open and close the coating liquid discharge opening while opening and closing the pulse,
And a plunger fitted in the needle valve so as to be positioned close to the bottom of the communication passage of the extension block, and a plunger formed in a plate shape to stir the heterogeneous mixed coating liquid by generating fluid resistance inside the communication passage while pulsating and closing operation together with the needle valve And a pulse valve opening / closing operation of the needle valve. delete The method according to claim 1,
Wherein the plunger has an outer diameter surface which is close to an inner diameter surface of the communication passage and a separation portion which forms a spacing space from the inner diameter surface of the communication passage so that the fluid resistance strength can be adjusted. An air spray device for use with heterogeneous mixed coating liquids. The method according to claim 1,
The plunger is an original plate having an outer diameter close to the inner diameter surface of the communication passage,
Wherein the plunger is formed with at least one groove portion extending vertically through the plunger so as to control the fluid resistance strength. The air spray apparatus for a nonuniform mixed coating solution according to claim 1, 5. The method of claim 4,
Wherein the grooves are formed in a plurality of spaces at regular intervals along the outer surface of the plunger. delete

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