KR20210130560A - Air gun spray nozzle - Google Patents

Abstract

The present invention relates to a spray nozzle for an air gun. More specifically, the present invention relates to an air gun spray nozzle which comprises a rod part coupled to the tip of an air gun, a nozzle body part spaced apart from one side of the rod part and discharging compressed air sprayed from the air gun, and a connection part formed of an inlet pipe extending from one side of the rod part and spaced apart from one side of the nozzle body part in a tubular shape, and a bridge connecting the rod part and the outer peripheral surface of the nozzle body part to each other, and when air gun is operated, an inlet pipe sucks in the surrounding external air by the pressure difference of the moving compressed air and introduces compressed air into the inside of the nozzle body part.

Description

Spray nozzle for air gun {AIR GUN SPRAY NOZZLE}

The present invention relates to a spray nozzle for an air gun, and more particularly, by connecting the nozzle body part to a rod part coupled to the tip of the air gun to be spaced apart, and sucking the surrounding external air by the pressure difference of the compressed air moving by the operation of the air gun. It relates to a spray nozzle for an air gun that flows into the nozzle body.

In general, an air dust gun is connected to a compressor that produces high-pressure compressed air and sprays the compressed air produced by the compressor in one direction. It is used to remove the back.

That is, briefly describing the structure of a general air gun, a body having a handle having an inlet connected to a compressor and a hose to receive compressed air is integrally formed at the lower end and installed in front of the handle of the body to control the supply of compressed air It consists of an operating lever and a spray rod installed to protrude in the front of the body, and the compressed air introduced through the inlet is sprayed through the spray rod.

Since such an air gun is used for the purpose of removing moisture or foreign substances such as dust on the surface of an object by spraying compressed air, technology development has been mainly made for the purpose of efficient spraying of compressed air in the prior art.

Looking at this conventional Korean Patent Registration No. 10-1418997 (registered on July 7, 2014) of the air gun nozzle, an air passage is formed therein, and the screw protrusion and the screw protrusion are integrally assembled to the air discharge path of a conventional air gun. It is molded and provided with a nozzle body part penetrating the injection nozzle hole with the air passage at the tip, and the injection nozzle hole of the nozzle body part is cross-formed into a long and thin slot hole, and at the same time, has a narrower inclined surface toward the tip on the outer circumferential surface and is inclined in the longitudinal direction In the air gun nozzle forming an external air inducing part in which the mountain partition and the valley partition are repeated, the end of each slot hole of the injection nozzle hole is arranged at the position of the valley partition to increase the flow induction of external air, wherein the The mountain division part and the valley division part of the external air induction part provide a configuration in which 4, 8, or 12 pieces are disposed at the ends of the slot holes forming the injection nozzle holes in a number of four times the even number of rows.

However, this conventional technique has the advantage of increasing the spraying force by inducing external air to be stirred with compressed air and spraying, but when the spraying direction of the head office nozzle is changed, the external air pressure is reduced and the spraying pressure is not constant. have.

Republic of Korea Patent Registration No. 10-1418997

In order to solve the problems of the prior art as described above, the present invention connects the nozzle body part to the rod part coupled to the tip of the air gun to be spaced apart and sucks the surrounding external air by the pressure difference of the compressed air moving to the operation of the air gun. It is to provide a spray nozzle for an air gun of a new structure that flows into the nozzle body part.

In addition, by forming one side of the inner body portion of the second injection unit to be narrower than the diameter of the movement passage, a part of the compressed air introduced through the movement passage is moved to the body portion of the first injection portion, so that the pressure of the compressed air is dispersed. is to provide

The present invention in order to solve the above problems

a rod coupled to the tip of the air gun;

a nozzle body part spaced apart from one side of the rod part and discharging compressed air sprayed from the air gun; and

It includes an inlet pipe extending from one side of the rod part and spaced apart from one side of the nozzle body part and formed in a tubular shape, and a connection part formed of a bridge connecting the rod part and the outer peripheral surface of the nozzle body part to each other,

The inlet pipe, characterized in that when the air gun is operated, the surrounding external air is sucked by the pressure difference of the moving compressed air and introduced into the inside of the nozzle body part.

A spray nozzle for an air gun is provided.

In the spray nozzle for an air gun according to an embodiment of the present invention, the rod portion is formed in a tubular shape, the coupling body portion is inserted into the front end of the air gun; a spiral hole through which one side of the outer circumferential surface of the coupling body part penetrates, and a spiral is formed on the penetrated inner circumferential surface; and a fastening screw which is spirally coupled to the spiral hole to firmly fasten the front end of the air gun and the coupling body.

In the spray nozzle for an air gun according to an embodiment of the present invention, the nozzle body part communicates with one end of the inlet pipe at one end, so that the compressed air moves; and a second injection unit communicating with the first injection unit and moving the compressed air.

In the jet nozzle for an air gun according to an embodiment of the present invention, the first jet unit includes a body in which a movement path of the compressed air is formed; And it may further include a first injection path formed with an inclined surface that gradually increases in diameter from the other side of the body portion.

In the jet nozzle for an air gun according to an embodiment of the present invention, the first jetting part further comprises a straight protrusion having a protrusion extending in the longitudinal direction formed on the inclined surface to move the moving direction of the compressed air in one direction. can be done with

In the injection nozzle for an air gun according to an embodiment of the present invention, the second injection portion has an outer peripheral surface formed to correspond to the first injection path, the inner body portion is disposed spaced apart a predetermined distance from one surface of the first injection path; a second injection passage in which one side of the inner body is formed to be narrower than the diameter of the moving passage and a discharge passage is formed for discharging the compressed air introduced from the inlet tube to the outside; and at least two or more connecting protrusions protruding from the outer circumferential surface of the inner body part and connected to one surface of the first injection path,

The second injection passage may be characterized in that a portion of the compressed air introduced through the inlet pipe is discharged in a straight line, and the remaining compressed air is moved to the first injection passage to distribute the pressure of the compressed air. .

The spray nozzle for an air gun according to the present invention connects the nozzle body to a rod coupled to the tip of the air gun to be spaced apart, sucks the surrounding external air by the pressure difference of the compressed air moving by the operation of the air gun and introduces it into the nozzle body. , it has the advantage of preventing air leakage and discharging a large amount of air to the outside.

In addition, the compressed air sprayed from the air gun is discharged through the second injection unit, and the external air introduced into the nozzle body is discharged through the first injection unit, so that the foreign material bouncing by the second injection unit is discharged from the first injection unit. It has the advantage of preventing the outside air from approaching the operator's face or eyes by forming an air film.

In addition, with a simple structure in which a spiral hole is formed in the rod in which the tip of the air gun is accommodated, and a fastening screw is fastened to the spiral hole, the combination and separation of the air gun and the nozzle are simple, so that the user can use it conveniently.

In addition, the jet nozzle for an air gun according to the present invention has the advantage of minimizing the difference in the pressure of the compressed air discharged from the second injection unit by forming a straight protrusion on the inclined surface of the first injection unit to discharge compressed air in one direction.

1 is a perspective view showing the shape of a spray nozzle for an air gun according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view in which FIG. 1 is disassembled.
3 is a cross-sectional view showing a spray nozzle for an air gun according to an embodiment of the present invention.
4 is an exemplary view showing the movement of air in the cross-sectional view of FIG.
5 is an exemplary view showing a straight protrusion formed in the first injection portion of the injection nozzle for an air gun according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment in which a person of ordinary skill in the art to which the present invention pertains can easily practice the present invention will be described in detail. However, when it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention in describing the operating principle of the preferred embodiment of the present invention in detail, the detailed description thereof will be omitted.

In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, when a part is 'connected' to another part throughout the specification, it includes not only a case in which it is directly connected, but also a case in which it is indirectly connected with another element interposed therebetween. In addition, 'including' a certain component means that other components may be further included, rather than excluding other components, unless otherwise stated.

Hereinafter, a spray nozzle for an air gun according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the shape of a spray nozzle for an air gun according to an embodiment of the present invention, FIG. 2 is an exploded perspective view showing an exploded view of FIG. 1, and FIG. 4 is an exemplary view showing the movement of air in the cross-sectional view of FIG. 3 , and FIG. 5 is an exemplary view showing a straight protrusion formed in the first injection part of the injection nozzle for an air gun according to an embodiment of the present invention. .

As shown in FIG. 1 , the nozzle 10 for dispersing the injection pressure of the air gun according to the embodiment of the present invention includes a rod part 100 , a nozzle body part 200 , and a connection part 300 .

More specifically, as shown in FIG. 1 , the injection nozzle 10 for an air gun according to an embodiment of the present invention is a rod part 100 coupled to the front end of the air gun 11 , and disposed spaced apart from one side of the rod part The nozzle body part 200 and extending from one side of the rod part for discharging the compressed air sprayed from the air gun, the inlet pipe 310 spaced apart from one side of the nozzle body part and formed in a tubular shape, and the rod part and the outer peripheral surface of the nozzle body part The nozzle body further includes a connection part 300 formed of a bridge 320 for connecting to each other, and the inlet pipe 310 sucks the surrounding external air by the pressure difference of the moving compressed air when the air gun 11 is operated. It may be characterized in that it is introduced into the interior of the unit 200 .

1 and 2 , the rod part 100 is coupled to the tip of the air gun 11 and serves to move the compressed air moving to the tip of the air gun 11 to the nozzle body 200 .

To this end, the rod part 100 further includes a coupling body part 110 , a spiral hole 120 , and a fastening screw 130 .

The coupling body part 110 is formed in a tubular shape, and the front end of the air gun 11 is inserted therein.

That is, the coupling body portion 110 is formed of a tube having an insertion hole therein so that the tip of the air gun 11 can be inserted.

In addition, the coupling body part 110 has an inlet pipe 310 to be described later to prevent the front end of the air gun 11 from passing to one side of the coupling body part 110 , which is smaller than the hole on one side of the coupling body part 110 . It is formed by extending in diameter.

And in the drawings of this specification, the front end of the air gun 11 inserted into the coupling body 110 is illustrated to extend to the inside of the moving passage 211a, but this is an example, and the front end of the air gun 11 is It is preferable to be located inside the coupling body portion (110).

Referring to FIG. 3 , in the spiral hole 120 , one side of the outer circumferential surface of the coupling body part 110 is penetrated, and a spiral is formed on the penetrated inner circumferential surface.

The fastening screw 130 is spirally coupled to the spiral hole 120 and serves to firmly fasten the front end of the air gun 11 and the coupling body portion 110 .

For example, when the tip of the air gun 11 is inserted into the coupling body part 110 , the fastening screw 130 is inserted into the spiral hole 120 to rotate in one direction. And the end of the fastening screw 130 is in close contact with the outer peripheral surface of the tip of the air gun 11 by one-way rotation, so that the nozzle 11 of the present invention can be easily coupled and separated from the tip of the air gun 11 .

2 and 3 , the nozzle body part 200 is disposed to be spaced apart from one side of the rod part 100 , and serves to discharge compressed air sprayed from the air gun 11 .

The nozzle body 200 further includes a first injection unit 210 and a second injection unit 220 .

Referring to FIG. 3 , one side of the first injection unit 210 communicates with the end of the inlet pipe 310 to form a passage through which the compressed air moves.

To this end, the first injection unit 210 further includes a body portion 211 and a first injection path 212 .

The body portion 211 is formed with a movement passage (211a) of compressed air therein.

That is, the body portion 211 is disposed on one side of the coupling body portion 110, one side is connected to a connection portion 300 to be described later, and the compressed air sprayed from the air gun 11 is introduced into the moving passageway 211a. make it

Referring to FIG. 4 , the moving passage 211a is formed to be larger than the diameter of the hole formed in the coupling body portion 110 and has a predetermined length.

For this reason, the movement passage 211a becomes a space for introducing the surrounding external air by the pressure difference between the compressed air injected from the air gun 11 and the movement of the compressed air. A detailed description of this will be described in the inlet pipe 310 .

The first injection path 212 is formed with an inclined surface 212a whose diameter is gradually increased from the other side of the body portion 211 .

In particular, the first injection path 212 is inclined in response to the angle of the outer circumferential surface of the inner body 221 to radially discharge and spray a portion of the compressed air introduced into the moving passage 211a and the air introduced from the outside. 212a) is formed.

And the first injection path 212 is a part of the external air and compressed air discharged along the inclined surface (212a) is formed as an air film, the second injection path 212 due to the compressed air discharged through the foreign matter that is ejected through the worker Avoid getting close to your face and eyes.

On the other hand, the first injection part 210 of the injection nozzle 10 for an air gun according to an embodiment of the present invention may further include a straight protrusion 213 as shown in FIG. 5 .

The straight protrusion 213 is formed with protrusions extending in the longitudinal direction on the inclined surface 212a, and serves to move the moving direction of the compressed air in one direction.

For example, when liquid or gas is discharged from a tube formed in a radial shape, it is difficult to use in a work process that needs to be sprayed with the same pressure because the pressure is increased to one part because it moves in an arbitrary direction.

Accordingly, in the nozzle 10 of the present invention, a plurality of straight projections 213 extending in the longitudinal direction are formed on the inclined surface 212a of the first injection path 212 having a radial structure as well as double injection.

2 and 3 , the second injection unit 220 communicates with the first injection unit 210 to form a passage through which the compressed air moves.

To this end, the second injection unit 220 further includes an inner body portion 221 , a second injection path 222 , and a connecting protrusion 223 .

The inner body portion 221 has an outer peripheral surface formed to correspond to the first injection passage 212 , and is disposed to be spaced apart from one surface of the first injection passage 212 by a predetermined distance.

The second injection path 222 forms one side of the inner body portion 221 to be narrower than the diameter of the moving passage 211a, and a discharge passage for discharging the compressed air introduced from the inlet pipe 310 to the outside is formed.

This second injection path 222 discharges a portion of the compressed air introduced through the inlet pipe 310 in a straight line, and moves the remaining compressed air to the first injection path 212 to disperse the pressure of the compressed air. will be.

In particular, the second injection passage 222 discharges the compressed air introduced into the moving passage 211a to the center, and the remaining compressed air that is not discharged also serves as a guide to move to the first injection passage 212 .

Accordingly, the nozzle body 200 of the spray nozzle 10 for an air gun according to an embodiment of the present invention transfers the compressed air introduced into the moving passage 211a to the second spray passage 222 of the second spray unit 220 . It is discharged in a straight direction through And it is discharged radially through the first injection path 212 of the first injection unit 210 and injected at the same pressure of the compressed air.

1 and 3 , the connection part 300 extends from one side of the rod part 100 , and is spaced apart from one side of the nozzle body part 200 to form an inlet pipe 310 and a rod part 100 in a tubular shape. ) and the outer peripheral surface of the nozzle body 200 are formed as a bridge 320 connecting each other.

The inlet pipe 310 is disposed between the rod part 100 and the nozzle body part 200 to move the compressed air injected through the air gun 11 to the moving passage 211a to reduce vibration and noise of the compressed air. serves to reduce

In particular, when the air gun 11 is operated, the inlet pipe 310 sucks in the surrounding external air by the pressure difference of the moving compressed air and introduces it into the inside of the nozzle body 200 .

That is, the pressure difference of the surrounding stagnant air is generated according to the rapid movement of the compressed air, so that the surrounding external air is sucked in the moving direction of the compressed air. And the suctioned surrounding air is to be introduced into the moving passage (211a) formed in the nozzle body portion (200).

The bridge 320 serves to connect the rod part 100 and the outer peripheral surfaces of the nozzle body part 200 to each other. For this reason, it maintains the spaced distance between the rod part 100 and the nozzle body part 200, and serves to form the nozzle 10 of the present invention integrally.

As described above, in the detailed description of the present invention, the preferred embodiment of the present invention has been described, but this is an exemplary description of the preferred embodiment of the present invention and does not limit the present invention. In addition, various modifications and imitations are possible without departing from the scope of the technical idea of the present invention by anyone with ordinary skill in the art to which the present invention pertains.

Accordingly, the scope of the present invention is not limited to the above-described embodiments, but may be implemented in various forms of embodiments within the scope of the appended claims. And without departing from the gist of the present invention claimed in the claims, it is considered to be within the scope of the claims of the present invention to the various extents that can be modified by anyone skilled in the art to which the invention pertains.

10: spray nozzle for air gun
100: rod part
110: combined body part
120: spiral hole
130: fastening screw
200: nozzle body part
210: first injection unit
211: body part
211a: movement path
212: first injection furnace
212a: slope
213: straight protrusion
220: second injection unit
221: inner body
222: second injection furnace
223: connecting projection
300: connection
310: inlet pipe
320: bridge

Claims (6)

a rod coupled to the tip of the air gun;
a nozzle body part spaced apart from one side of the rod part and discharging compressed air sprayed from the air gun; and
It includes an inlet pipe extending from one side of the rod part and spaced apart from one side of the nozzle body part in a tubular shape, and a connection part formed of a bridge connecting the rod part and the outer peripheral surface of the nozzle body part to each other,
When the air gun is operated, the inlet pipe sucks in the surrounding external air by the pressure difference of the moving compressed air and introduces it into the inside of the nozzle body part.
Spray nozzle for air gun.
The method of claim 1,
the rod part
a coupling body part formed in a tubular shape and having the tip of the air gun inserted therein;
a spiral hole through which one side of the outer circumferential surface of the coupling body part penetrates, and a spiral is formed on the penetrated inner circumferential surface; and
Further comprising a fastening screw which is spirally coupled to the spiral hole and firmly fastens the front end of the air gun and the coupling body portion
Spray nozzle for air gun.
The method of claim 1,
The nozzle body part
a first injection part communicating with one end of the inlet pipe to move the compressed air; and
Further comprising a second injection unit communicating with the first injection unit and moving the compressed air
Spray nozzle for air gun.
4. The method of claim 3,
The first injection unit
a body portion having a movement path of the compressed air therein; and
Further comprising a first injection path formed with an inclined surface that gradually increases in diameter from the other side of the body part
Spray nozzle for air gun.
5. The method of claim 4,
The first injection unit
A protrusion extending in the longitudinal direction is formed on the inclined surface and further comprising a straight protrusion for moving the moving direction of the compressed air in one direction.
Spray nozzle for air gun.
5. The method of claim 4,
The second injection unit
an inner body portion having an outer circumferential surface formed to correspond to the first injection path, and spaced apart from one surface of the first injection path by a predetermined distance;
a second injection passage in which one side of the inner body is formed to be narrower than the diameter of the moving passage, and a discharge passage is formed for discharging the compressed air introduced from the inlet tube to the outside; and
At least two or more protruding from the outer circumferential surface of the inner body portion further comprises a connecting protrusion connected to one surface of the first injection path,
The second injection passage is characterized in that a portion of the compressed air introduced through the inlet pipe is discharged in a straight line, and the remaining compressed air is moved to the first injection passage to distribute the pressure of the compressed air.
Spray nozzle for air gun.

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