KR19980062641U - Low Dispersion Paint Spray Gun - Google Patents

Abstract

The present invention allows the paint sprayed through the spray gun to be atomized several times by using compressed air at the tip of the spray gun's outlet port, thereby lowering the spraying speed and pressure of the sprayed paint. It is possible to prevent the paint sprayed on the subject from being reflected and scattered from the subject while maintaining the fineness, and the paint spray nozzle 2 installed at the center of the tip of the spray gun body 1 has its inner circumference. A large number of compressed air flow holes 22 for external light are formed, and a primary atomization portion S1 having a diameter larger than the discharge port 23 is formed at the tip of the discharge port 23 sealed by the needle 4, and the secondary atomization part is formed. (S2), a plurality of compressed air ejection holes 33 are formed on the outer circumference of the inclined side wall 32, and compressed air flow paths P are formed at the ends of the paint spray nozzles 2 at predetermined intervals. Fastened Stage 5 as a low-scattering paint spray gun, characterized in that fixed mounting the air cap (3) to the spray gun body (1).

Description

Low Dispersion Paint Spray Gun

1 is a cross-sectional view of the present invention

2 is an enlarged cross-sectional view showing the distal end portion of the spray gun body, which is an essential part of the present invention.

(A) (b) of Figure 3 is a perspective view and a front view of the air cap according to the present invention

(A) (B) of Figure 4 is a perspective view and a front view of the paint spray nozzle according to the present invention

5 is a cross-sectional view showing an operating state of the present invention

* Description of the symbols for the main parts of the drawings *

A: Spray gun P: Compressed air passage

S1: 1st atomizer S2: 2nd atomizer

S3: 2nd atomization part 1: spray gun body

2: Paint spray nozzle 3: Air cap

4: needle 5: fastening means

11: compressed air passage 21: paint chamber

22: compressed air distribution hole 23: discharge outlet

24: Communication hole 31: Compressed air outlet

32: inclined side wall 32a: cutout

33: compressed air jet hole 34: tip protrusion

35: compressed air jet

The present invention relates to a low-spray paint spray gun sprayed with compressed air, and more particularly, to an improved multi-stage in which the atomized particles of the paint are further refined while depressurizing the air supplied at high pressure for spraying the paint at low pressure. It is made to spray low pressure by atomization and multi-stage natural pressure reduction.

Until now, air spray paint spray guns have generally been used by high pressure air to spray paint.

As a result of using spray gun sprayed with high pressure air, when the paint is atomized and reaches the subject, the transfer efficiency is very low and it is relatively scattered, so that a large amount of paint is dispersed in the air and harms the environment or health. It gives rise to a situation.

In recent years, the use of spray guns operated by high volume low pressure (HVLP) air has been increasing for higher transfer efficiency and thus reduction of air pollution. In particular, in some states, including California, USA, spray guns operating at 10 psi (0.7 kg / cm ² ) or at lower air pressures are regulated as a requirement to match transfer efficiency.

This solid low pressure air spray gun is a low pressure spray gun developed within the framework of several state regulations, such as California, USA. It is designed to operate from a low pressure air source and a high pressure air source. Low pressure spray guns are impractical, while solid state low pressure spray guns designed to operate from high pressure air sources are increasingly used.

When the solid low pressure spray gun is operated from a high pressure air source, the high pressure air is metered through the valve and the fixed orifice to achieve the desired low pressure.

The maximum atomizing air pressure will face legal requirements in any jurisdiction and should not exceed an injection pressure of up to 0.7 kg / cm ² while at the same time an air spraying pressure within 0.7 kg / cm ² maximum allowed for improved spraying. It is preferable to have. Solid-state low pressure spray gun designed to operate by converting air pressure from high pressure to low pressure through a valve or fixed orifice has excellent transfer efficiency and low scattering effect in paint spraying, but spray particles of paint atomized with low pressure air are sprayed with high pressure. Remarkably poor quality compared to the method. That is, the particles are rougher than the high pressure spray method. As a result of comparing and spraying paint with the high pressure spray gun and the low pressure spray gun, the spray particles are extremely fine in the high pressure spray, while the spray particles sprayed by the low pressure spray gun with the solid low pressure spray gun are not fine. It is true that the finished surface does not consist of fine surfaces.

Therefore, the solid low pressure spray gun is not suitable for aesthetic coating such as furniture, automobiles, musical instruments, etc., which require a beautiful surface, and has a disadvantage that it should be applied to limited applications such as undercoat, initial coating, and fine coating.

Therefore, the present invention, in view of the above-mentioned problems in the conventional spray gun as described above, forms a diameter so that a predetermined constant pressure is measured in the compressed air passage and discharges the compressed air passing through it from the waste inject nozzle formed to measure a certain amount. The primary paint is first matched with compressed air in a state where the flow rate is slowed down through the enlarged nozzle to facilitate atomization, while the primary atomized paint and compressed air have a large amount of air pressure due to the energy deprived during atomization. The lowered and second blown compressed air atomizes the secondary atomized paint more finely and completes the atomization with the tertiary atomization. In this way, the compressed air loses energy in each atomization process. At low speeds, the paint is sprayed on the subject and settles down with it. It provides an improved low-splash paint spray gun that maximizes the transfer efficiency of the paint and minimizes the scattering caused by reflections and minimizes the paint loss, which is economical and protects human health while reducing environmental pollution. When described in detail with reference to the accompanying drawings as the purpose is as follows.

The paint is supplied at a constant pressure into the paint chamber 21 in the paint spray nozzle 2 installed at the center of the tip of the spray gun body 1, and the compressed air flow path inside the spray gun body 1 is provided by a separate supply means. In the paint spray gun (A) in which the compressed air at a constant pressure is supplied around the paint spray nozzle (2) via (11) to mix and spray the paint and the compressed air by the trigger (6). The paint spray nozzle 2 installed at the center of the tip of the gun body 1 forms a plurality of compressed air flow holes 22 for inner narrow external light at its outer circumference and is discharged to the tip of the discharge port 23 sealed by the needle 4. A primary atomization portion S1 having a diameter larger than that of the discharge port 23 is formed, and a communication hole 24 facing each other is formed around the discharge hole 23, and the discharge hole 23 and the compressed air jet port 31 are formed at the center thereof. To constitute a secondary atomization (S2), the compressed air The inclined side wall 32 constituting the ejection opening 31 is formed to face the cutout portion 32a having a predetermined depth, and a plurality of compressed air ejection holes 33 are formed on the outer circumference of the inclined side wall 32, and at the same time, the tip projections on both sides The air cap 3 having the plurality of compressed air jet holes 35 formed in the 34 is also provided with a separate fastening means such that the compressed air flow path P is formed at the front end of the paint spray nozzle 2 at a predetermined interval. (5) A paint spray gun characterized in that it is attached to and fixed to the spray gun body 1 to form a tertiary atomizing part S3 in front of said secondary atomizing part S2.

In the figure, reference numeral 7 denotes a compressed air flow shutoff valve and 8 denotes an angle control valve of the injection width.

It demonstrates the working state of the paint spray gun according to the present invention having the configuration as described above and its working effects.

First, the discharge port 23 at the tip of the paint chamber 21 formed in the paint spray nozzle 2 is sealed by the needle 4 connected to the trigger 6, as shown in FIG. 1. ), The paint supplied at a constant pressure is kept in a filled state, and compressed air having a constant pressure is supplied into the compressed air passage 11 of the handle portion of the spray gun body 1 by an external compressor (not shown). When the operator pulls the trigger 6 of the spray gun A for painting work in a state where further supply progress is suppressed by the compressed air flow shutoff valve 7, the trigger 6 as shown in FIG. The discharge port 23 of the paint spray nozzle 2, which is closed while the needle 4 connected to the needle 4 is retracted (rightward in the drawing), is opened and at the same time, the compressed air passage 11 at the rear end of the spray gun body 1 is opened. Compressed air distribution shutoff valve The compressed air flow passage 11 at the tip of the spray gun body 1 is provided through the compressed air flow passage 11 through the compressed air flow passage 11 to open the compressed air flow passage 11, which is also blocked by the retreat. It is supplied to (P).

In this case, as shown in FIG. 2, the paint sprayed from the discharge port 23 of the paint spray nozzle 2 is larger than the discharge port 23 through the compressed air injection path P as soon as it exits the discharge port 23. It is sprayed in a state of primary atomization while mixing with compressed air supplied through a communication hole 24 formed to be inclined at a predetermined angle to face each other around the primary atomization part S1 formed at the tip of the diameter.

At this time, the paint passing through the discharge port 23 is discharged to a larger diameter, the speed is greatly reduced, thereby making the primary atomization easier. In addition, the spray pressure decreases as the paint and air meet first and atomize.

The paint sprayed by the first atomization passes through the second atomization part S2 at the center of the air cap 3 installed at the tip of the paint spray nozzle 2, and the first atomized paint is an air cap. (3) The compressed air jet passage (P) formed between the outer peripheral surface of the distal end of the paint spray nozzle (2) and the inner surface of the inclined side wall (32) of the air cap (3) at the moment of passing through the central compressed air jet port (31). Compressed air is supplied to make the first atomized paint secondary.

In the second atomization, the injection pressure decreases after the compressed air and the primary atomized paint are combined.

At this time, the compressed air supplied to the secondary atomization part S2 can reduce the air resistance due to the presence of the cutout part 32a formed opposite the inclined side wall 32, so that the secondary atomization of the primary atomized paint Can be made much easier.

In this way, the paint is atomized while passing through the first and second atomization parts S1 and S2 and sprayed into fine particles is sprayed from a plurality of compressed air jet holes 33 formed on the outer circumference of the inclined side wall 32. Collected toward the tip of the gun (A) to form a third atomization (S3). The third atomized jet forms a circle. At the forefront of the spray gun body (1), the compressed air jet hole (35) of the tip projection (34) of the air cap (3) is sprayed in a circular shape by the third order through the angle control valve (8) of the spray width. The angle of the injection width is adjusted by the strength of the blown compressed air.

Even in the third atomization, the spraying speed of atomized paint is reduced, so the spraying speed is converted to low pressure by the third reduction.

At this time, the compressed air is injected through the compressed air ejection hole 33 formed on the outer circumference of the inclined side wall 32 and the compressed air is ejected through the compressed air ejection hole 35 formed at both tip projections 34 of the air cap 3. The air is gathered in one place to form an angle of injection width depending on the strength of the ejected air. The first and second atomized paints that are sprayed forward are collected at one point, and the third atomized paint is sprayed by lowering the speed and pressure of the sprayed paint to a certain level, while maintaining the fine particles of the paint. The paint can be reduced by the amount of paint bounced off the object without reducing the amount of paint is sprayed not only do not harm the health of the operator but also significantly reduce the painting work time.

When the spray gun (A) used in this manner is not used, the trigger (6) of the spray gun (A) being pulled out is released, and the pulled needle (4) is moved forward again. The discharge port 23 of the paint spray nozzle 2 is sealed and the compressed air flow shutoff valve 7, which has opened the compressed air flow path 11 at the rear of the spray gun body 1, is brought back to the compressed air flow. By blocking the furnace 11, no further spraying of paint and compressed air takes place.

In the above configuration, the paint spray nozzle (2) and the air cap (3) has been described as used together in this example, but if necessary, the paint spray nozzle (2) and the air cap (3) separately separated by known paint It is of course possible to use a combination of the injection nozzle and the air cap (3) of the present invention, or may be used by combining the injection nozzle (2) of the present invention with a known air cap, of course, various modifications are possible.

As such, the present invention makes the discharge pressure and the discharge speed of the paint act as an absolute determinant on the size of the atomized fine particles, and the nozzle diameter is enlarged and set at the tip of the needle blocking the nozzle to slow down the discharge flow rate of the paint. By making the air easier to atomize the paint and causing the paint to undergo multiple atomization processes, the microscopic atomization of the atomization is produced, so that the paint sits lightly on the subject with low pressure compressed air and is then used to atomize the paint. Blown compressed air is reduced by the loss of energy in the process of atomizing the paint and converted into low pressure low speed air pressure, which has lost much of the energy in three atomization processes, and is conveyed together with the sprayed paint to make rubber. It is naturally decompressed and transferred to low pressure.

As apparent from the above description, according to the low-spray paint spray gun of the present invention, the first and second paint spray nozzles installed at the tip of the spray gun body and the paint sprayed through the paint discharge port and the compressed air jet port of the air cap are first and second. By atomizing the paint, the spraying speed of the paint is reduced without decreasing the amount of paint sprayed, and the pressure is lowered by lowering the high pressure to lower the spraying pressure. Finally, once again tertiary atomization, not only can the particles of the sprayed paint be very fine, but the amount of paint scattered and scattered by the target can be greatly reduced, thereby protecting the health of the workers. To reduce the amount of paint used When an effective seal action able to be doeneu provides a useful effect, such as.

Claims (1)

The paint is supplied at a constant pressure into the paint chamber 21 in the paint spray nozzle 2 provided at the front end of the spray gun body 1, and compressed air flows inside the spray gun body 1 by a separate supply means. In a paint spray gun (A) in which compressed air of a constant pressure is supplied around the paint spray nozzle (2) via a furnace (11) so that paint and compressed air are mixed and sprayed by a trigger (6) operation. The paint spray nozzle 2 installed at the center of the tip of the spray gun body 1 forms a plurality of compressed air through holes 22 of the inner narrow external light at its outer circumference and is discharged from the tip of the discharge port 23 sealed by the needle 4. A primary atomization portion S1 having a diameter larger than that of the discharge hole 23 is formed in the periphery thereof, and a communication hole 24 facing each other is formed to be inclined outwardly, The outlet port 23 and the outward concentric compressed air outlet 31 are formed to form a secondary atomization part S2, but the inclined side wall 32 that forms the compressed air outlet 31 has a predetermined depth section. A plurality of compressed air jet holes (33) are formed on the outer periphery of the inclined side wall (32), and a plurality of compressed air jet holes (35) are also formed on the tip protrusions (34) on both sides. The air cap 3 is fixed to the spray gun body 1 as a separate fastening means 5 so that a compressed air flow path P of a predetermined interval is formed at the tip of the paint spray nozzle 2. A low scattering paint spray gun, characterized in that the third atomization (S3) to be formed in front of the second atomization (S2).