JPH0724800B2 - Low pressure atomization spray gun - Google Patents

Description

TECHNICAL FIELD The present invention relates to an air spray gun for atomizing a spray material such as paint by compressed air and spraying the atomized material. In particular, the present invention relates to an air spray gun capable of performing sufficient atomization when the pressure of compressed air is a low pressure of 1 kgf / cm ² or less.

[Prior Art] A so-called air spray gun that atomizes and sprays with compressed air is roughly classified into an external mixing method and an internal mixing method according to the atomization method. The external mixing method mixes the paint sprayed from the paint nozzle with the compressed air sprayed at a pressure of 3 to 5 kgf / cm ² outside the spray gun. Generally, when the spray air pressure is increased, The atomized particle size becomes finer, and the air for pattern formation is made to collide with the atomized flow from both sides to change the atomized shape, and it becomes possible to perform spraying with a pattern of a size suitable for the object to be coated. ing.

Further, the internal mixing type spray gun is for spraying a paint sprayed from a nozzle opening inside an air cap having a spray port, atomizing the paint in the air cap, and spraying it from the air cap in a gas-liquid mixed state. . Therefore, the spray shape is almost determined by the shape of the spray port, and the spray particle size cannot be as fine as external mixing.

The spray guns based on these atomization methods have been put to practical use for a long time, and the contents thereof are widely known to those skilled in the art.

One of the biggest problems with these atomization methods is that the spray particles are often scattered. As a means for improving this, one is considered to be atomization by low-pressure air, and air-airless atomization in which atomization by liquid pressure is used together with atomization control air is being put into practical use.

Atomization with low-pressure air prevents the paint from splashing back and spreads to the surroundings with a large volume of low pressure air, but there is a limit to the amount of paint that can be ejected, and the amount is as low as 200cc / mm. The range of applications as a practical range is narrowing. Since this type of device also has a problem in particle size roughness, a device that attempts to improve even a little by using warm air is often used in practice.

Further, in the case of air-airless atomization, so-called high-pressure paint is sprayed from a nozzle having a lip opening to atomize, and compressed air is used to further control the spray flow.

In this type of system, an internal system in which a hydraulic atomizing nozzle having a lip-like opening is arranged in the spray port having a lip-like opening like the air spray gun, and a hydraulic atomizing nozzle is provided outside, There is an external method in which air collides with the spray flow, and practically the external method is mostly adopted.

[Problems to be Solved by the Invention] In any case, each of the conventional atomization methods has its own problems. A spray that can be blown with low-pressure air and has a fine particle size and a pattern shape adjusted to a range suitable for painting I couldn't get cancer.

That is, in the internal mixing type spray gun which is apt to make the pressure relatively low, the pattern adjustment cannot be performed as described above, and there is a problem that the air cap must be replaced. Further, when spraying a low-viscosity paint, the central portion of the elliptical (elliptical) pattern tends to be thin, which adversely affects the finish of the sprayed surface.

In the external mixing type low pressure air spray gun,
When the ejection amount is increased, the particle size becomes extremely coarse, which is 10
Limited to 0 to 150cc / min or less. Even with the air-airless method, since the fog is based on hydraulic atomization, it cannot be fine enough to be used in finish coating, and even if low-pressure air is added to it. However, it is not enough to atomize the mist to improve the non-uniformity of the spray, and eventually high pressure air is required, which results in promoting the scattering.

In the case of the present invention, 1 kgf / cm ² or less in air spray,
Desirably, the compressed air pressure of 0.7 kgf / cm ² or less is used to achieve atomization of the paint to the extent that it can be used for finish painting, and to obtain an air spray gun with less scattering.

[Means for Solving Problems] In order to solve the above problems, the present invention applies compressed air introduced into the spray gun body (1) to the air nipple (4) below the grip (3). In addition to connecting, the introduced compressed air is supplied to the atomizing part at the tip through the air valve (8) and the downstream side is conically expanded and opened in the tip cap having the lip-shaped spray port. An inside of which a one-circle hole paint nozzle is provided, and a flat air spray flow in which the sprayed paint is mixed and sprayed is formed by the primary air flowing around the outer circumference of the paint nozzle, and the secondary air flow is collided with this to adjust the spray flow. A mixed air spray gun is further provided with a secondary air passage for distributing a distribution valve provided in the main body from the air passage for the primary air, and the secondary air passage is provided with a flow rate adjusting means. Further, with respect to the flat spray flow, a secondary air flow that collides in front of the flat spray flow is jetted from a pair of angular nozzles that open obliquely forward from the rear on both sides of the flat plane, and in the same direction as the flat spray flow. A flat airflow that expands.
Further, another secondary air is injected and collided from an injection port provided obliquely rearward of the flat spray opening on the long diameter side of the flat spray flow.

Further, with respect to the flat spray flow sprayed by the primary air flow from the spray opening of the lip-shaped opening, the first secondary air flow that jets and collides while expanding in the same direction as the flat spray flow, and at a right angle to this. The main body is provided with air holes for injecting the second secondary air flow that collides with each other from the major axis direction of the flat spray flow of, and independent secondary air passages that communicate with the respective air holes are provided,
A distribution means for supplying compressed air to either one of the secondary air passages via a distribution valve provided in the main body is provided.

[Operation] According to the above-described configuration means, the air flow that flows toward the front spray opening is formed on the outer periphery of the nozzle tip, and the paint that is then ejected from the nozzle is directed toward the tip while being sucked by the air flow. With a large area of contact with the jet and air flow, it is efficiently atomized and sprayed from the spray opening. At this time, the spray shape is sprayed in an oblong flat pattern according to the lip opening. After that, the flat pattern is further crushed by the secondary air that is jetted from the pair of angular nozzles that are jetted obliquely forward from the rear to the plane of the pattern, and the flat pattern is further spread and carried to the surface to be coated. .
The jet of the secondary air at this time is jetted from both sides as a parallel flat spray flow that spreads in the same direction as the spray pattern, so it is crushed so as to wrap the pattern to form a uniform spray pattern. In addition, since the flow rate adjusting means for the primary air and the secondary air is provided, the pattern can be adjusted and the atomized state can be adjusted, and the atomized state suitable for the paint or the surface to be coated can be obtained.

By making the square nozzle separable, it is possible to manufacture with improved dimensional accuracy of individual nozzles.
It is also possible to obtain changes in pattern formation.

Further, the secondary air works in a direction orthogonal to the above direction, that is, when the secondary air is injected from the injection holes arranged in the longitudinal direction of the flat spray pattern, it works in the direction of reducing the pattern, and the spread is small. A circular pattern can be formed.

The spray gun according to the present invention has primary air mainly used for atomization and secondary air for pattern adjustment, which have air holes arranged in the longitudinal direction and the direction perpendicular to the flat pattern, and are adjusted to either one. In order to send in and inject air, the pattern adjustment range expands in the expanding and contracting directions with respect to the pattern depending on the shape of the spray port, and from the elliptical primary spray pattern to a larger pattern to a circular shape. Wide range of adjustments are possible.

[Embodiment] FIG. 1 is a sectional view showing the overall structure of a spray gun embodying the present invention.

The main body 1 has a barrel 2 and a handgrip 3, an air nipple 4 is attached to the lower part of the handgrip 3, and compressed air is sent through an through hole 5 to an air valve portion provided on the upper part.

The air valve portion is configured by providing an air valve 8 inside an air conditioning pipe 7 inserted into an air conditioning hole 6 formed from the rear portion of the barrel 2. The air conditioning pipe 7 is provided with a hole 9 communicating from the outside to the inside, and the rotation of the air conditioning pipe 7 causes the hole 9
The air flow rate changes depending on the degree of conformity between the above and the through hole 5. A knob 10 is provided to rotate the air conditioning pipe 7. The air valve 8 is pressed against the seat 12 of the main body by the spring 11 to stop the compressed air. A needle valve 13 extending to the tip of the barrel 2 penetrates through the center of the air valve 8, and a spring 14 is provided at the rear portion of the air valve 8, and an opening adjustment knob 15 for elastically holding the spring 14 and restricting the retreat amount of the needle valve 13. Is provided.

By operating the trigger 16, the needle valve 13 is placed in front of the air valve 8.
An air valve rod 17 is provided on the outer side of the valve, and the air valve 8 is retracted by operating the trigger 16 to send compressed air to the air distribution chamber 18 in the front. When the trigger 16 is further pulled, the needle valve 13 is retracted by the rear end of the air valve 8.

A distribution valve 19 is rotatably fitted in the air distribution chamber 18 and is rotated by an external knob 29. From this air distribution chamber 18, there are three air passages toward the front of the barrel 2, one of which is always connected to the distribution chamber 18, but the other two.
Each of the passages has a different passage area depending on the rotational position of the recess 20 provided in the distribution valve 19, and the flow rate can be adjusted. Therefore,
The change in the flow area at the rotating contact portion is adjusted by the recess 20 of the distribution valve 19.
It is possible to limit the amount of distribution arbitrarily if decided by.

An atomizing device is provided at the tip of the barrel 2, but the paint nozzle 21 for ejecting paint is screwed into the tip of the main body.
The tip of the needle valve 13 has a nozzle opening 22 of the paint nozzle 21.
Stop the paint by hitting the inside of. The outside of the paint nozzle 21 engages with the main body 1 to define two passages 23 and 24, and the primary air passage 26 passage 23 is divided by the distribution valve 19 described above.
However, one of the secondary air passages is formed to communicate with the air passage 27 and the passage 24.

On the other hand, the paint nozzle 21 is covered with a tip cap 30, and the nozzle opening 22 forms an opening 47 having a cone-shaped enlarged downstream side, and a spray opening 31 opening at the center of the tip of the tip cap 30.
Placed inside. The paint discharged from the nozzle 22 flows toward the opening end R along the enlarged opening 47, where it is collided and dispersed with the airflow flowing along the opening end R and the tapered surface 35 of the tip cap 30. To be Dispersed mind
The liquid mixed flow passes through the inlet 32 and is sprayed from the jet 31.

The spray port 31 has a cylindrical inlet portion 32 and a conical or substantially spherical tip portion at the tip thereof, and a V-shaped groove 33 is formed from the outside in the center portion thereof and has a substantially lip-shaped opening portion. . A primary air chamber 40 is formed as a tapered surface 35 in front of the inlet portion 32, and compressed air from the passage 23 flows between the tapered surface 35 and the tip outer diameter 36 of the paint nozzle 21. Have been combined.

It has been clarified that the atomized particles become smaller when the flow area is increased, and it is preferable that the atomized particles be at least equal to or larger than the opening.

Further, the outer side of the spray port 31 is formed with a conical outer surface 34 like the inner side, and the wall thickness of the opening is formed as thin as possible. Further, a corner cap 37 having an angle which is engaged with the outer surface 34 and is opposed to the spray axis at a symmetrical position is provided.
It is integrated with 30, and is detachably fixed to the tip of the main body 1 by a cover 38.

The corner portion 42 of the corner cap 37 is provided with a corner nozzle 43 directed in an oblique direction to eject a flat airflow. In the embodiment, a square nozzle having an opening shape similar to that of the spray port 31 is shown, and the opening portion has a flat airflow that spreads in the same direction from the flat side with respect to the flat spray flow from the spray port 31. Therefore, the jet flow collides with almost the entire flat spray flow. Since the square nozzle 43 injects a flat airflow, a V-shaped groove is inserted from the outer surface into a hole having a conical or spherical inner surface to form a lip-like opening, like the above-mentioned spray port. As another embodiment, FIG. 6 shows a method of separately incorporating the corner nozzle 43 as a separation structure. Corner cap
Of the secondary air passages surrounded by the outside of the paint nozzle 21 and the inside of the cover 38 via the passage 44 of 37, the other air passage 25.
This air passage 25 communicates with the other air passage 28 from the distribution valve 19.

On the other hand, on the side of the square cap 37 that is orthogonal to the square nozzle 43, injection ports 45 are provided at positions facing each other with the spray port 31 as the central axis, and are also formed so as to inject obliquely forward. That is, as shown in FIG. 2, the spray flow is injected toward the long side end portions thereof, respectively, and the spray pattern is advanced in the direction of being reduced. This jet
45 is communicated with the air passage 24 of the paint nozzle 21 through a passage 46 provided in the tip cap 30.

The two secondary passages 27, 28 from the distribution valve 19 are therefore
One jets from the jet port 45 and the other jets from the corner nozzle 43. The secondary air is communicated with either of them by the distribution valve 19, and when it is supplied to the corner nozzle 43 side, it is sprayed in a large spray pattern, and when it is supplied to the injection port 45 side, it is sprayed in a small spray pattern close to a circle. It

As in the present invention, it is difficult to adjust the size of the pattern for the spray particles that have been air-atomized depending on the shape of the spray port as a flat pattern in advance, and the adjustment width cannot be expected to be large, but in the present invention, Since the adjustment is made so that it is large on the one hand and small on the other hand, the width is wide and the required spray pattern can be easily selected.

[Effects of the Invention] As described in detail above, according to the present invention, as the atomizing means in coating, mixed atomization by the paint and compressed air is performed in the spray port, and re-atomization and pattern formation are performed for this spray amount. ,
By colliding the compressed air flow for adjustment, the atomized spray pattern suitable for painting can be obtained with an extremely low air pressure of about 1/5 compared to the conventional air spray. Since no atomizing means is used, the paint may be pumped by the above low-pressure spray air,
Since no special means for pressurizing the paint is required, a great effect can be obtained such that it can be easily used with a spray gun similar to the conventional air spray.

Of course, it goes without saying that the conventional problems such as prevention of scattering of paint particles and improvement of working environment by reducing the pressure of the above-mentioned blowing air are improved.

[Brief description of drawings]

FIG. 1 is a sectional view of a spray gun showing an embodiment of the present invention. FIG. 2 is an enlarged view showing a II-II section of FIG. 1, and FIG. 3 is an enlarged view showing a III-III section of FIG. Figure 4 shows the first
Fig. 5 is a left side view of the tip atomizing device part in Fig. 5, and Fig. 5 is AO in Fig. 4.
It is an expanded sectional view showing a B section. FIG. 6 is a sectional view of the tip portion of a spray gun showing another embodiment of the present invention. 8 ... Air valve 13 ... Needle valve 19 ... Distribution valve 21 ... Paint nozzle 30 ... Tip cap 31 ... Spray port 33 ... V-shaped groove 37 ... Square cap 43 ... Square nozzle 45 ... Jet port

Claims (4)

[Claims] 1. Compressed air introduced into a spray gun body (1) is connected to an air nipple (4) below a grip (3), and the introduced compressed air is passed through an air valve (8) to a tip. It is supplied to the atomizing part of the
In the tip cap (30) having 1), there is a single circular hole paint nozzle (21) that opens the downstream side by conically expanding it,
By the primary air flowing around the paint nozzle (21),
An internal mixing air spray gun for adjusting the pattern of the spray flow by colliding a secondary air flow with the flat spray flow in which the sprayed paint is mixed and sprayed is provided in the main body (1) from the air passage of the primary air. A low-pressure atomizing spray gun having secondary air passages (27, 28) distributed through a distribution valve (19), and the secondary air passages (27, 28) having flow rate adjusting means. 2. The compressed air introduced into the spray gun body (1) is connected to an air nipple (4) below the grip (3), and the introduced compressed air is passed through an air valve (8) to the tip. It is supplied to the atomizing part of the
In the tip cap (30) having 1), there is a single circular hole paint nozzle (21) that opens the downstream side by conically expanding it,
By the primary air flowing around the paint nozzle (21),
An internal mixing air spray gun for adjusting the pattern of the spray flow by colliding a secondary air flow with the flat spray flow in which the sprayed paint is mixed and sprayed is provided in the main body (1) from the air passage of the primary air. Secondary air passages (27, 28) that are distributed via the distribution valve (19) are provided, and the secondary air flow that collides with the flat spray flow in front of it is diagonally forward from the rear on both sides of the flat plane. A low-pressure atomization air spray gun that is a flat airflow that is jetted from a pair of square nozzles (43) that open toward each other and spreads in the same direction as the flattened spray flow. 3. The compressed air introduced into the spray gun body (1) is connected to an air nipple (4) below the grip (3), and the introduced compressed air is passed through an air valve (8) to the tip. It is supplied to the atomizing part of the
In the tip cap (30) having 1), there is a single circular hole paint nozzle (21) that opens the downstream side by conically expanding it,
By the primary air flowing around the paint nozzle (21),
In an internal mixing air spray gun for adjusting the pattern of the spray flow by colliding a secondary air flow with the flat spray flow in which the sprayed paint is mixed and sprayed, it is provided in the main body (1) from the air passage of the primary air. Secondary air passages (27, 28) that are distributed via the distribution valve (19) are provided, and the secondary air passages (27, 28) are located on the major axis side of the flattened spray flow and are connected to the injection port (45) diagonally behind the spray opening. A low-pressure atomizing spray gun that is made by jetting and colliding secondary air. 4. A first secondary air that collides with a flat spray flow sprayed by a primary air flow from a lip-shaped spray port (31) while expanding in the same direction as the flat spray flow. And an air hole for injecting a second secondary air flow that collides with each other in the major axis direction of the flat spray flow at right angles to the air flow, are provided in the main body (1), and two independent air holes communicating with the respective air holes are provided. A secondary air passage (27, 28) is provided, and compressed air is supplied from the primary air passage to one of the secondary air passages (27, 28) via a distribution valve (19) provided in the main body (1). An air spray gun equipped with a distribution means for