KR20170001113U - Air nozzle - Google Patents

Abstract

The present invention relates to an air injection nozzle, and more particularly, to an air injection nozzle whose end of an air injection nozzle is made of an elastic material and can be rotated.
To this end, the air injection nozzle of the present invention has an inner air pipe whose center diameter is relatively short compared to the diameters of both ends, and which has an inner hollow shape so that air can move to the inside; A first outside air pipe located on the outside of the inside air pipe and located on the left side of the center of the inside air pipe and having a protrusion extending from the surface in the direction of the inside air pipe by a predetermined length; A second outside air pipe located on the outside of the inside air pipe and located on the right side of the center of the inside air pipe and having a protrusion extending a predetermined length from the surface toward the inside air pipe; A first elastic member drawn between the protrusion formed on the first outer air pipe and the inner air pipe; And a second elastic member drawn between the protruding portion formed in the second outer air pipe and the inner air pipe, and the vertical cross section in which the first outer air pipe and the second outer air pipe are adjacent to each other is formed in a sawtooth shape .

Description

Air nozzle [0002]

The present invention relates to an air injection nozzle, and more particularly, to an air injection nozzle whose end of an air injection nozzle is made of an elastic material and can be rotated.

Generally, an air compressor for generating air is used to perform an operation using air in an industrial field, a sports facility, etc. The compressed air generated in the air compressor is connected to the air gun by a connection hose, And is used to remove foreign matter such as dust, water and the like by spraying on a predetermined site.

The technology for such an air gun has been variously known in the past, and is for improving the use function.

The structure includes a body having an air passage formed therein, a valve for opening and closing the air passage formed in the body, and a nozzle coupled to a final discharge end of the air passage.

The valve is moved backward by the elastic force of the compression spring, which is resiliently provided to the valve when the lever is placed, by opening the air passage to backward the valve by pulling the lever functioning as a trigger provided as a shaft pin to the body, (Return), and the air passage is blocked at the same time as the lever is in place, thereby blocking the flow of compressed air.

One of the important functions of this air gun is the valve that opens and closes the compressed air flow.

The valve is installed in a valve chamber provided on the air passage of the body, and is sealed using a rubber ring to prevent the compressed air from leaking from the valve chamber.

However, since the end of the conventional air gun is formed of a metal material, when the air gun is used, scratches may occur on the object. In addition, since the end of the conventional air gun is fixed, there is a disadvantage that air can not be injected into the corner of the curved vehicle.

Korean Patent Publication No. 10-2014-0068647 (entitled: Airgun nozzle) Korean Patent No. 10-1421788 (title of the invention: improved air gun) Korean Utility Model Utility 20-2011-0008719 (design name: stretchable tip for air gun and air gun equipped with it)

The problem to be solved by the present invention is to propose an air nozzle which does not cause scratches on the object.

Another task to be addressed by the present invention is to propose an air nozzle capable of air injection into a curved corner.

Another object of the present invention is to provide an air nozzle capable of easily removing foreign substances adhered to a subject.

To this end, the air injection nozzle of the present invention has an inner air pipe whose center diameter is relatively short compared to the diameters of both ends, and which has an inner hollow shape so that air can move to the inside; A first outside air pipe located on the outside of the inside air pipe and located on the left side of the center of the inside air pipe and having a protrusion extending from the surface in the direction of the inside air pipe by a predetermined length; A second outside air pipe located on the outside of the inside air pipe and located on the right side of the center of the inside air pipe and having a protrusion extending a predetermined length from the surface toward the inside air pipe; A first elastic member drawn between the protrusion formed on the first outer air pipe and the inner air pipe; And a second elastic member drawn between the protruding portion formed in the second outer air pipe and the inner air pipe, and the vertical cross section in which the first outer air pipe and the second outer air pipe are adjacent to each other is formed in a sawtooth shape .

In the air injection nozzle according to the present invention, the longitudinal end face of the outside air pipe is formed in a sawtooth shape, so that the two external air pipes having a serrated profile can be rotated apart. When the two outer air pipes are rotated in the state where the two outer air pipes are separated from each other, the user can freely adjust the spraying direction of the spray nozzle through which the air is discharged to the outside.

In addition, the injection nozzle is made of an elastic material, so that the occurrence of scratches on the object can be prevented, and the foreign matter adhering to the object can be removed by using the brush formed outside the injection nozzle.

1 shows an air jet nozzle according to an embodiment of the present invention.
2 shows an outer air pipe viewed from the top according to an embodiment of the present invention.
Fig. 3 shows the driving of the outer air pipe constituting the air injection nozzle according to the embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other aspects of the present invention will become more apparent from the following description of preferred embodiments with reference to the accompanying drawings. Hereinafter, the embodiments of the present invention will be described in detail so as to be easily understood and reproduced by those skilled in the art.

1 shows an air jet nozzle according to an embodiment of the present invention. Hereinafter, the construction of the air injection nozzle according to one embodiment of the present invention will be described in detail with reference to FIG.

Referring to Fig. 1, the air injection nozzle 100 includes an inner air pipe, an outer air pipe, an elastic member, a fastening portion, and an injection nozzle. Of course, other configurations than the above-described configuration may be included in the air injection nozzle proposed in the present invention.

The inner air pipe 105 moves air to the inside. The inner air pipe 105 is formed in a cylindrical shape having a different diameter. The inner air pipes 105 have different diameters, not the same diameters. 1, the diameters of both end portions of the inner air pipe 105 are formed to be relatively larger than the diameter of the central portion. That is, the diameter of the central portion of the inner air pipe 105 is formed to be relatively small in comparison with the diameters of both end portions.

A coupling portion 110 is formed at one end of the inner air pipe 105. The inner air pipe 105 is fastened to the main body or separated from the main body by using the fastening part 110. The fastening part 110 is formed with a screw thread, and the inner air pipe 105 is fastened to the main body or separated from the main body by using a screw thread.

Outer air pipes 115 (115a, 115b) are formed on the outer side of the inner air pipe 105. The outside air pipe 115 is not composed of one member but is composed of two members. That is, the outer air pipe 115 is provided with the first outside air pipe 115a on the outside of one side of the inside air pipe 105 and the second outside air pipe 115b on the outside of the other side of the inside air pipe 105 ).

The first outside air pipe 115a is formed in a T shape. That is, the first outside air pipe 115a is composed of a first portion extending a certain length from the upper end and a second portion extending constantly in the direction toward the inside air pipe at a point inside the first portion. One side of the first part of the first outside air pipe 115a extends in the direction of the coupling part 110 to be coupled to the main body and the other side of the first part is connected to the main body 110 in the direction opposite to the direction in which the coupling part 110 to be coupled with the main body is formed . The other end of the first outside air pipe 115a is formed in a sawtooth shape.

The elastic member 120a is inserted between the inner air pipe 105 and the second portion of the first outer air pipe 115a. And moves in the longitudinal direction of the inner air pipe 105 of the first outer air pipe 115a by the elasticity of the elastic member 120a.

Referring to FIG. 1, the first outside air pipe 115a moves to the left by a force applied from the outside, and moves to the original position, which is the original position, by the elastic force of the elastic member 120a when a force applied from the outside is removed .

And the second outside air pipe 115b is also formed in a T shape. That is, the second outer air pipe 115b is composed of a first portion extending a predetermined length from the upper end and a second portion extending constantly in the direction of the inner air pipe 105 at an inner point of the first portion. One side of the first part of the second outside air pipe 115b extends in the direction in which the first outside air pipe 115a is formed and the other side of the first part is in the direction of the fastening part 125 in which the air nozzle 130 is fastened . One end of the second outside air pipe 115b is formed in a sawtooth shape.

That is, the other end of the first outside air pipe 115a and the other end of the second outside air pipe 115b are formed in a sawtooth shape, and the other end of the first outside air pipe 115a and the second end of the second outside air pipe One end of the outer air pipe 115b is maintained in an engaged state.

The elastic member 120b is inserted between the inner air pipe 105 and the second portion of the second outer air pipe 115b. The second outer air pipe 115b moves in the longitudinal direction of the inner air pipe 105 by the elasticity of the elastic member 120b.

1, the second outside air pipe moves to the right by a force applied from the outside, and moves to the original position leftward by the elastic force of the elastic member when the force externally applied is removed.

At the other end of the second outside air pipe 115b, a fastening part 125 is formed.

The injection nozzle 130 is fastened to the coupling part 125 formed at the other end of the second outer air pipe 115b. The injection nozzle 130 is fastened to the second outside air pipe 115b or separated from the second outside air pipe 115b by the fastening part 125. [ Of course, the injection nozzle 130 may be integrally formed with the second outer air pipe 115b.

Although not shown in FIG. 1, a sealing member (not shown) may be included between the inner air pipe 105 and the second outer air pipe 115b. That is, a sealing member may be included between the inner air pipe 105 and the second outer air pipe 115b so that the air flowing inside the inner air pipe 105 is not injected outside the second outer air pipe 115b .

The injection nozzle 130 is made of a material having elasticity. For example, the injection nozzle 130 is made of rubber or plastic. The injection nozzle 130 is connected to the second outside air pipe 115b and injects the air supplied from the inside air pipe 105 to the outside. Since the injection nozzle 130 is fastened to the second outside air pipe 115b, the injection nozzle 130 also moves and rotates as the second outside air pipe 115b moves or rotates.

The foreign material removing member 135 may be further formed on the outer side of the injection nozzle 130 in the longitudinal direction of the injection nozzle 130. The foreign substance removing member 135 may be composed of a plastic material sol. The foreign substance removing member 135 performs a function of removing foreign substances adhering to the surface of the subject.

In this embodiment, the piping through which the air passes is divided into an inner air pipe and an outer air pipe, and the outer air pipe is divided into a first outer air pipe and a second outer air pipe. The outer air pipe can be moved in the left and right (lengthwise) direction with respect to the inner air pipe, so that the jet nozzle connected to the outer air pipe can also be moved to the left and right.

2 shows an outer air pipe viewed from the upper side according to an embodiment of the present invention. As shown in Fig. 2, the end of the outer air pipe is formed in a sawtooth shape. In other words, the ends of the first outside air pipe 115a and the second outside air pipe 115b are formed in a sawtooth shape, and the first outside air pipe 115a and the second outside air pipe 115b are normally made of a resilient member The end of the first outside air pipe 115a and the end of the second outside air pipe 115b are spaced apart from each other.

3 is a view showing the operation of the outer air pipe according to one embodiment of the present invention. Hereinafter, the operation of the outer air pipe according to one embodiment of the present invention will be described in detail with reference to FIG.

3, the first outside air pipe 115a moves to the left, and the second outside air pipe 115b moves to the right. When the first outside air pipe 115a moves to the left, the elastic member 120a drawn between the first outside air pipe 115a and the inside air pipe 105 is compressed. When the second outside air pipe 115b moves to the right side, the elastic member 120b drawn between the second outside air pipe 115b and the inside air pipe 105 is also compressed.

When the first outside air pipe 115a moves to the left and the second outside air pipe 115b moves to the right side, the longitudinal section of the first outside air pipe 115a and the longitudinal side surface of the second outside air pipe 115b It is separated. When the longitudinal section of the first outside air pipe 115a is separated from the longitudinal section of the second outside air pipe 115b, the second outside air pipe 115b can rotate with respect to the first outside air pipe 115a. That is, when the vertical cross-section of the first outer air pipe 115a and the vertical cross-section of the second outer air pipe 115b are separated from each other, the second outer air pipe 115b is formed with reference to the first outer air pipe 115a, Lt; / RTI > When the second outside air pipe 115b rotates, the injection nozzle 130 fastened to the second outside air pipe 115b also rotates. Thus, the present invention rotates the second outer air pipe 115b to rotate the injection nozzle 130 fastened to the second outer air pipe 115b.

When the force exerted on the first outside air pipe 115a and the second outside air pipe 115b is removed, the first outside air pipe 115a moves to the right by the elastic force of the elastic members 120a and 120b, And the two outer air pipes 115b move to the left. When the first outside air pipe 115a moves to the right and the second outside air pipe 115b moves to the left side, the longitudinal plane of the first outside air pipe 115a and the longitudinal side face of the second outside air pipe 115b So that the second outside air pipe 115b is fixed to the first outside air pipe 115a.

 While the present invention has been described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention .

100: air jet nozzle 105: inner air piping
110: fastening portion 115a: first outer air pipe
115b: second outside air piping 120a, 120b: elastic member
125: fastening part 130: injection nozzle
135: Foreign matter removing member

Claims (5)

An inner air pipe having a central diameter smaller than the diameter of both ends and having an inner hollow shape so that air can move to the inside;
A first outside air pipe located on the outside of the inside air pipe and located on the left side of the center of the inside air pipe and having a protrusion extending from the surface in the direction of the inside air pipe by a predetermined length;
A second outside air pipe located on the outside of the inside air pipe and located on the right side of the center of the inside air pipe and having a protrusion extending a predetermined length from the surface toward the inside air pipe;
A first elastic member drawn between the protrusion formed on the first outer air pipe and the inner air pipe;
And a second elastic member drawn between the protrusion formed on the second outer air pipe and the inner air pipe,
And the vertical cross-section in which the first outer air pipe and the second outer air pipe are adjacent to each other is formed in a sawtooth shape.
The method according to claim 1,
Wherein the other longitudinal side surface of the second outer air pipe on which the saw tooth shape is not formed is formed with a second fastening portion and the second fastening portion is fastened with an injection nozzle for spraying air to the outside.
The air jet nozzle according to claim 2, wherein the inner air pipe is formed with a first fastening portion.
The air jet nozzle according to claim 2, wherein a brush is formed on an outer periphery of the jet nozzle from which air is ejected to the outside.
3. The air conditioner of claim 2, wherein the protruding portion compresses the first elastic member or the second elastic member by a force provided from the outside, and when the provided force is removed, the first outer air pipe and the second outer air pipe, Wherein the first elastic member or the second elastic member is elongated such that a longitudinal section of the air pipe is in close contact with the air nozzle.

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