KR101010832B1 - Nozzle tip for air gun - Google Patents

Abstract

PURPOSE: A nozzle tip for an air gun is provided to increase user convenience by maximizing the efficiency of spraying a compressed air. CONSTITUTION: A nozzle tip for an air gun is comprised of a spray body, an operating lever, an inject rod, and a nozzle tip(110). The spray body has a handle with an inlet in lower part for receiving compressed air. The operating lever is installed in the spray body and selects the supply of the compressed air. The nozzle tip is combined the end of the injection rod to prevent the surface of a target.

Description

Nozzle tip for air gun {NOZZLE TIP FOR AIR GUN}

The present invention relates to a nozzle tip for an air gun, and more particularly, to improve the nozzle tip coupled to the end of the injection rod to prevent the nozzle tip from being separated during the compressed air injection process, while amplifying the amount of compressed air to be injected. To provide an improved nozzle tip.

The air gun is connected to a compressor that generates high pressure compressed air to spray the high pressure compressed air generated from the compressor to the object so as to remove foreign substances and water, thereby achieving the intended purpose.

As described above, the air gun has been developed and used in various types. Conventional examples of the air guns are as follows.

The air gun 1 as described above has an injection body 4 having a handle 3 having an inlet part 2 connected to a hose or the like from a compressed air supply means such as a compressor at a lower end thereof so that compressed air can be supplied. It is provided.

The injection body 4 is provided with an operating lever 5 for selecting an air injection operation, and in front of the injection body 4 is connected to the injection rod 6 made of a tubular body of a long length, the injection rod The tip of (6) is further provided with a nozzle tip (7) to prevent surface damage of the injection target.

The nozzle tip (7) is coupled to the tip of the tubular shape of the tubular shape made of a soft material, such as rubber, urethane, silicone and shock-absorbing material at the end of the injection rod 6, even if the surface is damaged Do not cause it.

When the nozzle tip for the air gun to which the prior art is applied is connected to the end of the injection rod as a separation prevention means, the surface of the part or the body may be damaged even if the nozzle tip is connected to an important part such as a semiconductor or the surface of a vehicle. There is an advantage that can be prevented, but the following problems occur.

The injection hole formed in the nozzle tip is blocked when the injection target such as a part or the surface of the body is in close contact with the tip of the nozzle tip. In this state, the compressed air of the high pressure is continuously supplied. The nozzle tip is separated from the injection rod occurs.

This is because the injection hole is blocked, the high-pressure compressed air moves to the rear of the nozzle tip and release the release prevention means associated with the injection rod is eventually separated from the injection rod is separated from the injection rod.

As a result, the nozzle tip coupled to the injection rod is periodically lost during the work process, so it is inconvenient to use a new nozzle tip in combination, and the work cannot be continuously performed due to the installation of the nozzle tip. Becomes

When a large amount of compressed air is required or when a large number of air guns are connected to a single compressor at the same time, it is difficult to supply high pressure compressed air efficiently. Compressed air will not be supplied, making the air gun more efficient to use.

In addition, the use of a large number of air guns are causing a variety of problems, such as the efficiency of the entire air supply line or the use line due to the load of the compressor is reduced, and the maintenance is frequently caused by the causes of frequent failures.

In the present invention to solve the problems as described above, the injection body is provided by forming a handle having an inlet portion at the bottom to receive the compressed air, and provided to the injection body to select the supply of compressed air An air gun is composed of an operation lever, an injection rod connected to the front of the injection body, and a nozzle tip coupled to the end of the injection rod to prevent surface damage of the injection target, and a tip body constituting the nozzle tip. One or more vent holes are formed at the rear of the injection hole to be in communication with the injection holes, and when the injection holes are blocked, the compressed air is discharged, and when the compressed air is normally injected, air is introduced into the air. Aeration means can be formed to increase the amount of spray and to prevent the separation and loss of the nozzle tip. In the compressed air injection process, by injecting external air and amplifying the amount, the air gun's efficiency can be increased and the object can achieve the maximum effect by using the minimum amount without applying a load to the compressed air supply means. .

The present invention prevents the nozzle tip from being separated from the injection rod in the process of injecting and using the compressed air of high pressure while allowing the external air to be injected by the nozzle tip to be injected in an amplified state to increase the injection efficiency of the compressed air. It is an invention having various effects such as maximizing the user's convenience and increasing the efficiency of the work through the compressed air injection and reducing the load of the air supply means and the supply line.

1 is a perspective view of one embodiment showing a nozzle tip for an air gun to which the technique of the present invention is applied.
2 is a cross-sectional view taken along line A-A showing the nozzle tip for an air gun to which the technique of the present invention is applied.
Figure 3 is an illustration showing a state of use of the nozzle tip for an air gun to which the technique of the present invention is applied.
Figure 4 (a, b, c) is a perspective view showing another example of a nozzle tip for an air gun to which the technique of the present invention is applied.
Figure 5 (a, b) is a block diagram showing another example of the coupling means of the nozzle tip for an air gun to which the technique of the present invention is applied.
Figure 6 is a block diagram showing a nozzle tip for an air gun to which the prior art is applied.

Hereinafter, with reference to the accompanying drawings will be described a preferred configuration and operation of the present invention for achieving the above object.

1 is a perspective view of one embodiment showing a nozzle tip for an air gun to which the technique of the present invention is applied, FIG. 2 is a cross-sectional view taken along line A-A showing the nozzle tip for an air gun to which the technique of the present invention is applied, and FIG. Figure 4 (a, b, c) is a perspective view showing another example of a nozzle tip for an air gun to which the technique of the present invention is applied, Figure 5 (a , b) will be described together as a configuration diagram showing another example of the coupling means of the nozzle tip for an air gun to which the technique of the present invention is applied.

The air gun 100 is provided with a spray body 103 having a handle 102 having an inlet portion 101 at the bottom thereof so as to be connected to a hose or the like from a compressed air supply means such as a compressor.

The injection body 103 is provided with an injection amount control valve 105 for selecting the supply amount of compressed air in conjunction with the operation lever 104, the front of the injection amount control valve 105 made of a long length of tubular body The injection rod 106 is connected.

At the end of the injection rod 106 is provided with a nozzle tip 110 made of a flexible material such as rubber, urethane, silicone, PP, PE and capable of absorbing shock to prevent surface damage of the injection target. .

In the present invention, the nozzle tip 110 is improved to prevent the phenomenon that the nozzle tip 110 is separated from the injection rod 106 by the compressed air pressure that is injected even when the injection target and the nozzle tip are connected to each other. Injecting the external air into the amount of amplified in the amplified state.

The nozzle tip 110 forms a coupling means 112 for coupling with the injection rod 106 at the rear of the tip body 111 is provided in a tubular shape, the injection rod (tip) at the tip of the tip body 111 The injection hole 113 for injecting the compressed air transmitted from the 106 is formed, and in the rear of the injection hole 113, the compressed air is discharged when the injection hole 113 is blocked to separate the nozzle tip 110. While preventing the compressed air is injected while the compressed air is injected to form a ventilation means 115 for performing the function of simultaneously amplifying the amount.

The coupling means 112 protrudes so that the locking ring groove 116 and the locking ring groove 116 formed on the inner diameter surface of the tip body 111 may be formed in a ring shape so as to be recessed in the outer diameter surface of the injection rod 106. It consists of a combination of ring-shaped locking projections 117 to be formed.

As another example, as shown in FIG. 5, a female thread 118 and a male thread 119 are formed on the injection rod 106 and the tip body 111 so as to be screwed together, and a band and a ring at the outer diameter of the tip body 111. By using an intermittent ring 120 such as a clip, it may be implemented in various forms such as a type to maintain a firmly coupled state.

In the case of screwing, the male screw 119 is formed at the outer diameter of the distal end of the injection rod 106, and the female thread 118 is formed at the inner diameter of the rear side of the tip body 111. On the contrary, the tip body 111 is formed. A male screw may be formed in the outer diameter to be coupled to the female screw formed in the inner diameter of the injection rod 106.

The venting means 115 is formed by radially forming one or more vent holes 125 to communicate with the injection hole 113 in the rear outer diameter of the side injection hole 113 of the tip body 111 injection hole ( When 113) is blocked, it becomes a passage through which compressed air is discharged, and when compressed air is injected normally, external air is introduced to amplify the amount of air.

The diameter (D) of the injection hole 113 is formed to have a diameter larger than the inner diameter (D1) of the injection rod 106, the location of the vent hole 125 by the compressed air injected through the injection rod 106 The space of the vacuum becomes a vacuum state and is combined with the external air introduced through the vent hole 125 and the compressed air injected through the injection rod 106 according to the Venturi principle to enable amplified discharge. can do.

The vent hole 125 is shown to be formed in a circular shape, but is not limited thereto, and may be formed in various shapes such as a triangle, a square, a pentagon, and a hexagon.

As another example, as shown in FIG. 4, the aeration hole 125 is formed in the tip body 111 in the form of a long hole, and the enlarged part 126 which enlarges the diameter of the tip side of the tip body 111 than the diameter of the rear side. A vent hole 125 is formed in the form, or a vent hole 125 is formed in a reduced portion 127 in which the diameter of the tip side of the tip body 111 is smaller than the diameter of the rear side, or formed by concentrating minute holes. It can be implemented in various forms such as.

Looking at the state of use of the nozzle tip 110 for an air gun 100 to which the technique of the present invention is applied as described above are as follows.

Combining the nozzle tip 110 using the coupling means 112 to the end of the injection rod 106 constituting the air gun 100, and then pull the operating lever 104, as if using the air gun 100, compressed air The compressed air is supplied from the supply means to be finally injected to the injection target through the injection hole 113 of the nozzle tip 110 to remove foreign substances (dust, moisture, etc.).

When the injection hole 113 formed at the tip of the tip body 111 constituting the nozzle tip 110 in the process of using the air gun 100 is connected to the injection target and blocked, the tail of the injection hole 113 Since compressed air is discharged through the vent hole 125 formed in the tip body 111, the nozzle tip 110 may be prevented from being separated from the injection nozzle 106.

In particular, it is possible to obtain an excellent effect that can easily remove the foreign matter on the wall surface in the opposite direction in which the compressed air is injected, which is the injection rod 106 can enter only the direction in which the compressed air is injected If it cannot enter in the opposite direction, when the compressed air is injected in a state in which the injection rod 106 enters and the injection hole 113 is in close contact with the injection object in the entry direction, the compressed air is vented. Since it is discharged in the reverse direction through the injection rod 106 will be able to easily remove the foreign matter buried in a position other than the entry direction.

In addition, when compressed air is normally injected, compressed air is injected into the injection hole 113 of the nozzle tip 110 through the injection rod 106. In this process, the rear tip body 111 is injected into the injection hole 112. Through the vent hole 125 further formed in the outside air is introduced together by the venturi principle (Venturi) principle is injected through the injection hole 113 it is possible to amplify and inject a large amount of air.

While preventing the separation and loss of the nozzle tip in the process of using the air gun of the present invention as described above, by injecting the external air in the compressed air injection process by amplifying the amount by injecting the compressed air supply means while increasing the efficiency of the air gun It has the advantage that it can exert the maximum effect without using the minimum amount.

100; Air gun
106; Injection rod
110; Nozzle tip
111; Tip body
112; Joining means
113; Injection hole
115; Aeration
125; Ventilation hole

Claims (2)

An injection body 103 formed by forming a handle 102 having an inlet portion 101 at a lower end thereof so as to receive compressed air;
An actuating lever (104) provided in the injection body (103) for selecting supply of compressed air;
An injection rod 106 connected to the front of the injection body 103;
In the air gun (100) consisting of a nozzle tip (110) coupled to the end of the injection rod 106 to prevent surface damage of the injection object;
Ventilation means 115 having one or more vent holes 125 to communicate with the injection hole 113 in the rear of the injection hole 113 formed in the tip body 111 constituting the nozzle tip 110 To form;
When the injection hole 113 is blocked, the compressed air is a passage for discharging, and when compressed air is normally injected, the nozzle tip for an air gun, characterized in that the external air is introduced to amplify the amount of air to be injected. . delete

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