KR101230584B1 - Polishing nozzle gun - Google Patents

Abstract

According to the present invention, the abrasive spray pipe into which the abrasive is introduced and injected, and the air spray pipe into which the air to enable the injection of the abrasive are injected are arranged in the same line, but the air spray pipe extends in the longitudinal direction of the abrasive spray pipe. Since the interpolated abrasive material prevents abrasion or wear of the internal structure of the polishing nozzle gun, and the shape of the polishing nozzle gun can be simply formed in the longitudinal direction, the structure of the polishing apparatus as a whole can be simplified, It is easy to grasp the operator's finger and prevents excessive force on the operator's finger, and by providing an insulator on the outer surface of the abrasive injection pipe, it is possible to suppress the generation of static electricity during the operation, thus providing a polishing nozzle gun that improves the work efficiency. I would like to.
To this end, the present invention, the abrasive injection pipe 10 through which the interior is penetrated in the longitudinal direction and the abrasive injection hole 11 therein, and the abrasive injection hole 11 through the interior of the abrasive injection pipe 10 The air injection pipe 20 interpolated in the inner longitudinal direction of the inner side and the air injection hole 21 in the longitudinal direction therein, and inserted into the front end of the abrasive injection pipe 10 and the abrasive spray pipe 10 and the bolt. (31) It is characterized in that it comprises a nozzle tip 30 coupled to the discharge hole 32 therein.

Description

Polishing nozzle gun {POLISHING NOZZLE GUN}

The present invention relates to an abrasive nozzle gun, and more particularly, a high-pressure air and an abrasive are mixed and sprayed so that the air injection pipe and the abrasive spray pipe of the abrasive nozzle gun for processing and polishing the surface are positioned in the same line. It prevents the wear and tear of internal components by the abrasive, expects the improvement of the installation by the simple appearance, and reduces the appearance of the entire polishing machine. The present invention relates to an abrasive nozzle gun which minimizes the force exerted on it and expects improved usability.

In general, the polishing nozzle gun used for polishing a workpiece of a metallic material is sprayed with an abrasive using an air pressure sprayed at a high speed and a high pressure to remove or remove the surface of the workpiece of a metallic material. By processing, the abrasive injection pipe injecting the abrasive and the air injection pipe injecting the air are composed of one body.

1 is a block diagram showing a conventional polishing nozzle gun, as shown in FIG. 1, a body 2 through which an abrasive injection pipe 1 is inclined to an upper side and a rear side of a horizontal line of the body 2 as shown in FIG. The air injection pipe (3), which is introduced and penetrates into the body (2) and is positioned at the tip side of the abrasive injection pipe (1), and the mixed air and the abrasive are discharged from the inside of the body (2). It consists of the nozzle tip 4.

In the conventional polishing nozzle gun having such a configuration, the abrasive is introduced into the abrasive injection pipe 1 side by the pressure of air flowing into the body 2 at high speed through the air injection pipe 3, and the body 2 Abrasives introduced into the inside are sprayed to the outside through the nozzle tip 4 by the strong injection pressure of air, and are subjected to post-treatment and post-processing on the workpiece surface.

However, in the case of the conventional abrasive nozzle gun, the abrasive injection pipe (1) formed inclined to the lower side of the body (2) inside the body (2) in the process of flowing into the inside of the body (2) by the pressure of air The front end side of the air injection pipe 3 located at 'a' by hitting strongly toward the front end of the air injection pipe 3 located in the 'a' space (dotted display space) formed inside the body 2. The abrasive is easily worn by the abrasive, there is a problem that frequent failure occurs.

In addition, the wear of the air injection pipe (3) is easily worn by the abrasive, the operation of the entire process line of the polishing apparatus is suspended, bringing the problem of reduced productivity and workability, worn air injection pipe (3) or polishing nozzle As the entire gun must be replaced with a new one, there is a problem in that the cost of maintenance and repair is greatly increased.

In addition, as the abrasive injection pipe 1 is formed to be inclined at the lower side of the body 2, there is a problem that the entire volume of the polishing nozzle gun is enlarged, and thus the size of the entire polishing apparatus is inevitably increased. There is a problem as well as a problem in that the attachability of the polishing nozzle gun is remarkably inferior.

Moreover, when the worker grasps the polishing nozzle gun by hand, it is not easy for the operator to grip the polishing nozzle gun by the enlarged and coarse appearance. There is a problem that the force is applied to the finger of the worker because the polishing operation.

In addition, as the abrasive is strongly sprayed, the static electricity is generated and the operator is surprised or exposed to safety accidents due to static electricity, but it is not easy to install the insulator on the outer surface of the body 2 in which the abrasive spray pipe 1 is inclined. There is a problem.

In the prior art, a polishing cutting nozzle of JP 20-1989-0010363 has been devised, which is a nozzle for mixing and spraying high-pressure water and abrasives at high pressure and high speed, wherein a water spray nozzle is inserted above the nozzle body. After inserting the nozzle case and the collet with the water spray hole on the upper part, forming the abrasive suction port on one side, and inserting the mixed spray nozzle with the hopper and nozzle length of 20 times or more in the lower inner circumference. The tightening nut is screwed into the screw part of the main body.

The prior art of such a configuration is that the abrasive suction port is positioned on the same line as the body and the high pressure water spray nozzle is perpendicular to the upper portion of the body, but the water spray pressure is sprayed in a vertical line with respect to the abrasive suction port. This prevents the abrasive from being properly sprayed so strongly that the abrasive workability is remarkably degraded, and it is not easy to install the insulator on the outer surface by the water spray nozzle formed in a vertical line. It is hardly solved.

The present invention relates to an abrasive nozzle gun, and more particularly, a high-pressure air and an abrasive are mixed and sprayed so that the air injection pipe and the abrasive spray pipe of the abrasive nozzle gun for processing and polishing the surface are positioned in the same line. It prevents the wear and tear of internal components by the abrasive, expects the improvement of the installation by the simple appearance, and reduces the appearance of the entire polishing machine. The present invention relates to an abrasive nozzle gun which minimizes the force exerted on it and expects improved usability.

As a means for achieving the above object, the abrasive nozzle gun of the present invention comprises: an abrasive spray tube having an interior penetrating in a longitudinal direction and having an abrasive spray hole therein; An air injection pipe interpolated in the longitudinal direction of the internal abrasive injection hole of the abrasive injection pipe and having an air injection hole therethrough in the longitudinal direction; The nozzle tip is inserted into the inside of the tip of the abrasive injection pipe and bolted to the abrasive injection pipe, and a discharge hole is formed therein.

A guide groove through which the abrasive flowing from the abrasive spray pipe passes is further formed in the longitudinal direction of the air spray pipe on the outer surface of the air spray pipe, and an insulator is further fitted to the outer surface of the abrasive spray pipe.

The abrasive nozzle gun of the present invention comprises an abrasive spray pipe into which abrasive is introduced and sprayed, and an air spray pipe into which air is sprayed to enable the spray of the abrasive, to be in the same line, but inside the abrasive spray pipe. Since it is interpolated in the longitudinal direction, the internal structure of the polishing nozzle gun is prevented from being worn out or worn out by the abrasive injected, and the shape of the polishing nozzle gun can be simply formed in the longitudinal direction, thereby simplifying the overall structure of the polishing apparatus. In addition, it is easy to grip the operator to prevent the force applied to the finger of the operator, and further comprises an insulator on the outer surface of the abrasive spray pipe can suppress the generation of static electricity during the operation to improve the work efficiency.

1 is a block diagram showing a conventional polishing nozzle gun.
Figure 2 is a perspective view of the abrasive nozzle gun of the present invention.
Figure 3 is an exploded perspective view showing the configuration of the abrasive nozzle gun of the present invention.
4 is a partially cutaway perspective view showing an internal configuration of the present invention polishing nozzle gun.
Figure 5 is a perspective view showing an air injection pipe that is one of the constituent parts of the abrasive nozzle gun of the present invention.
Figure 6 is a block diagram showing an operating state of the abrasive nozzle gun of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

As shown in the drawing, the abrasive nozzle gun of the present invention includes an abrasive spray tube 10 having an inner portion penetrated in the longitudinal direction and having an abrasive spray hole 11 therein, and an abrasive hollowed in the abrasive spray tube 10. An air injection pipe 20 interpolated in the inner longitudinal direction of the injection hole 11 and having an air injection hole 21 therethrough in the longitudinal direction thereof, and inserted into the front end of the abrasive injection pipe 10 to be inserted into the abrasive injection pipe 10 and the bolt 31 is coupled to the nozzle tip 30 through which the discharge hole 32 is formed therein.

As the abrasive injection pipe 10 to which the abrasive is injected and the air injection pipe 20 to which the air is injected are positioned on the same horizontal line as shown, the overall appearance can be simply formed, thereby polishing By preventing the volume of the processing apparatus from increasing, the structure of the polishing apparatus can be simplified and the mounting property is improved.

In addition, since the abrasive injected through the abrasive spray pipe 10 does not hit the side of the air injection pipe 20, the problem that the side of the air injection pipe 20 is worn or worn is solved.

In addition, since it is formed in a cylindrical shape, the gripper of the worker is greatly improved, so that the gripper does not have to be gripped with a strong force, thereby reducing the force applied to the finger of the worker and inducing occupational diseases on the finger of the worker. To prevent.

In the abrasive nozzle gun of the present invention configured as described above, the abrasive is injected through the abrasive injection pipe 10 by the high pressure of the air injected through the air injection pipe 20. ) And the abrasive is mixed with the air through the nozzle tip 30 and sprayed to process the work to be processed.

As described above, the abrasive injection hole 11 of the abrasive injection pipe 10 and the air injection hole 21 of the air injection pipe 20 are disposed during the processing of the workpiece. By virtue of being introduced horizontally through the ejection hole 32 of the nozzle tip 30, the vibration of the abrasive nozzle gun of the present invention is minimized as the vortex of the abrasive or air is not generated therein, and the operator directly When hand-held by hand, the shaking of the operator can be minimized, so that the operator can easily and easily perform the grinding process.

On the outer surface of the air injection pipe 20, a guide groove 22 through which the abrasive flowing from the abrasive injection pipe 10 passes is formed in the longitudinal direction of the air injection pipe 20.

Accordingly, the abrasive is moved to the nozzle tip 30 by the guide groove 22 of the air injection pipe 20 inserted into the abrasive injection hole 11 of the abrasive injection pipe 10 in the longitudinal direction. .

The number of the guide grooves 22 formed in the longitudinal direction of the air injection pipe 20 on the outer surface of the air injection pipe 20 is not limited, as shown in FIG. 5 or formed of four guides as necessary The number of the grooves 22 can be formed in different numbers.

In addition, the insulator 40 is further fitted to the outer surface of the abrasive spray pipe 10.

This is possible because the abrasive injection pipe 10 and the air injection pipe 20 are positioned in the same horizontal line, and the air injection pipe 20 is inserted in the longitudinal direction in the abrasive injection pipe 10. As the insulator 40 is fitted to the outer surface of the abrasive spray pipe 10 as described above, since the operator prevents static electricity from being generated when the worker manually holds the abrasive nozzle gun, workability and work efficiency are further improved.

The material of the insulator 40 is not limited, but may be formed of a urethane or silicon material having insulation, and of course, may be formed of various insulating synthetic resin materials.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

10: abrasive spray pipe 11: abrasive spray hole
20: air injection pipe 21: air injection hole
22: guide groove 30: nozzle tip
31 bolt 32 discharge hole
40: insulator

Claims (3)

In the polishing nozzle gun in which the abrasive is mixed and sprayed by the pressure of the injected air,
An abrasive spray pipe 10 through which the inside is penetrated in the longitudinal direction and the abrasive spray hole 11 is formed therein;
An air injection pipe (20) interpolated in the inner longitudinal direction of the abrasive injection hole (11) through the inside of the abrasive injection pipe (10), and the air injection hole (21) through the inside in the longitudinal direction;
A nozzle tip 30 fitted into the front end of the abrasive spray pipe 10 and coupled to the abrasive spray pipe 10 and a bolt 31 and having a discharge hole 32 therein;
And an insulator (40) fitted to the outer surface of the abrasive spray pipe (10).
The method according to claim 1,
Polishing nozzle gun, characterized in that the outer surface of the air injection pipe 20 is further formed in the longitudinal direction of the air injection pipe 20, the guide groove 22 through which the abrasive flowing from the abrasive injection pipe 10 passes. .
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