JP2558243Y2 - Internal mixing air spray gun - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION The present invention relates to an internally mixed air spray gun used in the field of adhesive spraying and architectural painting.

[0002]

2. Description of the Related Art There is no spray gun dedicated to adhesives for atomizing an adhesive and applying a large amount of the adhesive, but simply uses an air spray gun for coating. Therefore, the range of use is also limited to adhesives that are solvent-based and have only a low-viscosity adhesive of 500 cps or less. Further, as a recent tendency, the use of an aqueous solvent for solvent removal is progressing.

[0003]

[Problems to be Solved by the Invention] However, when this water-based adhesive is atomized by an air spray gun for coating, the adhesive is hit by the needle valve because the paint nozzle and the seat of the needle valve are tapered. Gelation, and the paint nozzle is easily clogged. Due to the small nozzle diameter, it cannot handle high viscosity. The spray pattern changes by adhering and laminating to the air cap. Presents the problem. Therefore,
A water-based adhesive is provided as an adhesive spray gun for performing stable atomization so as not to cause the above-mentioned problems, and a spray gun capable of coating a building material made of a high-viscosity coating material.

[0004]

In order to stably atomize a water-based adhesive, an atomizing head configured to supply compressed air from the center and a coating material from around the center into a cap is provided on a general spray gun body. In an air spray gun having at least an atomizing air passage and a needle valve in a spray gun body, the tip shape of the needle valve is spherical, and a nozzle base is formed so as to face the tip of the needle valve. A cover is provided in front of the spray gun body so as to surround the nozzle base, and a base having a discharge port is attached to the tip of the cover, and the nozzle base is arranged obliquely forward from a center hole located at the rear center. A coating material passage which penetrates the outer periphery toward the outer periphery, and an air passage which penetrates obliquely forward from the inlet hole located on the rear outer periphery toward the central shaft hole, and wherein the coating material passage of the nozzle base is provided. The inlet is connected to the coating material inlet, the outlet of the coating material passage is connected to the cover, the inlet of the air passage is connected to the atomizing air passage, and the outlet of the air passage is connected to the air nozzle. It is.

[0005]

According to the present invention, in the nozzle base forming the seat portion of the needle valve, the coating material passage forms a passage that reverses from the center to the outer periphery, and the compressed air passage forms a passage that reverses from the outer periphery to the center, and surrounds the nozzle base. With the configuration in which the cover is attached, the compressed air can be discharged on the same central axis as the seat portion of the needle valve, and the coating material can be discharged from the outer periphery of the nozzle base into the cover. As a result, compressed air is supplied from the center and the coating material is supplied from the surrounding area, and is internally mixed inside the cover. can do.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIG.
1 is a spray gun main body, 2 is an atomizing air passage, and a knob 2a for adjusting the amount of compressed air ejected from the outlet of the atomizing air passage 2 is attached to the rear surface of the main body. 3
Is a needle valve, and an adjustment knob 3a for adjusting the amount of the coating material ejected from the gun by regulating the movement of the needle valve 3.
Is on the back of the unit. Further, reference numeral 4 denotes an air valve which can be adjusted by a trigger 5 to turn ON / OFF the supply of compressed air to the atomizing air passage 2. The trigger 5 also moves the needle valve 3. The tip of the needle valve 3 is spherical, and a nozzle base 6 is attached to the main body 1 so as to face the tip of the needle valve 3. A cover 7 is attached to the front of the spray gun body 1 so as to surround the nozzle base 6 and a base 8 having a discharge port is detachably attached to the tip of the cover 7. The nozzle base 6 has a coating material passage 6a penetrating diagonally forward from a central hole located therethrough and an air passage 6b penetrating diagonally forward from a entrance hole located diagonally rearward toward a central axis. The inlet of the coating material passage is connected to the coating material inlet 9 through the needle valve 3, and the outlet of the coating material passage 6 a is connected to the cover 7.
Further, the outlet of the air passage 6b is connected to an air nozzle 10 provided in the cover, thereby forming an internal mixing type air spray gun.

With the above construction, when the trigger 5 is pulled, the air valve 4 is opened, and the compressed air enters the atomizing air passage 2 and is usually about 1.5 to ² kgf / cm ^{2 by the} adjustment knob 2a. Is adjusted to the nozzle base 6 from the outlet of the atomizing air passage 2.
, And is ejected from a central air nozzle 10 into a cover having a base 8.

On the other hand, the adhesive and the architectural coating material are usually supplied from an unillustrated coating material pump for 40 to 50 kgf / cm ^2.
Pressurized to the extent that it enters through the coating material inlet 9 and the needle valve 3
Is pulled by the trigger 5, and the ball valve at the tip of the needle valve 3 is separated from the ball seat of the nozzle base 6, so that the coating material is ejected into the cover 7 through the coating material passage 6 a of the nozzle base 6. . At the same time, compressed air is also supplied from the air valve 4 to the air passage 2 for atomization.
Into the air passage 6b of the nozzle base 6 through the outlet 2a.
The air nozzle 10 is ejected from the tip of the air nozzle 10. The coating material and compressed air ejected from the coating material passage 6a of the nozzle base 6 and the air nozzle 10, respectively, are internally mixed in the cover 7, and are ejected from the base 8 toward the object to be coated. Therefore, the coating of the high-viscosity material can be operated with the feel of an air handgun, which facilitates the operation.

Further, as another embodiment of the present invention, the one shown in FIG. 2 is applied to an automatic gun for performing painting by attaching to an automatic painting machine such as a flat automatic painting machine, a reciprocator or a painting robot. The difference from the hand spray gun shown in FIG. 1 is that the trigger operation and the air valve are not provided. The pressure of the compressed air entering the atomizing air passage 2 is adjusted by an air pressure reducing valve (not shown), and then supplied to an automatic gun through an air hose.

Further, the movement of the needle valve 3
A piston chamber 11 is provided at the rear end, and the pressure of the compressed air entering the piston chamber is adjusted by an air pressure reducing valve (not shown), and then supplied to an automatic gun through an air hose. From the outlet of the atomizing air passage 2, the compressed air is
The gas is similarly internally mixed through the air passage 6b of the nozzle base 6 having the same configuration as shown in FIG.

[0015]

[Effect of the Invention] By using a main body of a general-purpose air spray gun, the passage of the compressed air and the coating material is reversed at the nozzle base, the compressed air is supplied from the center, and the coating material is supplied from around the center. Therefore, high-viscosity adhesives and architectural coating materials can be atomized stably. Conventionally, since a material having an airless gun and an internal mixing and atomizing unit has been used for pumping the coating material to the spray gun via a pump, the airless gun is triggered with one hand to supply the coating material. However, it was necessary to open and close the atomizing cock with the other hand, but this model has the same structure as a general-purpose air spray gun except for the atomizing part, so it is like a general-purpose air spray gun. It can be operated by one hand only with the trigger, and the operability can be greatly improved. Since the seat shape of the nozzle base and the needle valve is in line contact with the ball valve, nozzle clogging can be eliminated.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing one embodiment of the present invention.

FIG. 2 is a longitudinal sectional view showing another embodiment of the present invention.

[Explanation of symbols]

 6 Nozzle base 6a Coating material passage 6b Air passage

Claims (1)

(57) [Scope of request for utility model registration] 1. An air spray gun having at least an atomizing air passage 2 and a needle valve 3 in a spray gun main body 1. The needle valve 3 has a spherical tip, and the tip of the needle valve is A nozzle base 6 is disposed so as to face each other. A cover 7 is attached to the front of the spray gun body 1 so as to surround the nozzle base 6, and a base 8 having a discharge port is attached to a tip of the cover 7. Has a coating material passage 6a penetrating from the center hole located at the rear center obliquely forward to the outer periphery, and an air passage 6b penetrating obliquely forward from the inlet hole located at the rear outer periphery toward the central shaft hole. The inlet of the coating material passage 6a of the nozzle base 6 is located in the coating material inlet 9, the outlet of the coating material passage 6a is located in the cover 7, and the inlet of the air passage 6b is atomized in the spray gun body 1. For air An internal mixing air spray gun in which the passage 2 and the outlet of the air passage 6b are connected to an air nozzle 10 disposed in the cover 7, respectively.