KR100301865B1 - a silencer of air compressor - Google Patents

Abstract

The present invention relates to an air cylinder and a solenoid valve of an automated facility driven by compressed air and a silencer to reduce noise generated in a brake (brake) or an air tool, which is used to be mounted on the air outlet of the pneumatic equipment (1). In the silencer, an air discharge hole 11 through which compressed air discharged from the pneumatic device 1 is discharged is formed in the center, and a blow hole 12 communicating with the air discharge hole 11 is formed in all directions. A coupling body 10 having a screw portion 13 screwed to the air outlet of the pneumatic device 1 on one side and a screw portion 14 screwed to the nut portion 22 of the body 20 on the other side; The outer peripheral surface has a groove 21 having a larger inner diameter than the outer diameter of the outer peripheral surface of the pipe 15 in which the ejection hole 12 of the assembly 10 is formed in a conical shape, and the threaded portion 14 of the assembly 10 inside the groove 21. Nut part 22 is screwed is formed, the edge (edge) of the surface 24 in close proximity to the coupling member 10 is formed into a curved surface 23, the compressed air that escapes between the gap (S) is curved if

When the compressed air is discharged by being composed of the body 20 formed to be curved along the flow (23) is induced to the curved flow by the body curved surface of the muffler to prevent friction and drag phenomenon to reduce the noise It is possible to achieve stable operation without any performance impairment (operating force) of pneumatic equipment by smooth discharge of compressed air, and it is possible to adjust the gap between the assembly and the body fixed to the pneumatic equipment. Therefore, it is possible to adjust the amount of air discharge accordingly, and it is a very useful invention that can improve worker protection and working environment from compressed air discharge noise in the workplace using pneumatic equipment.

Description

Silencer of pneumatic equipment

The present invention relates to an air cylinder and a solenoid valve of an automated facility driven by compressed air, and a silencer to reduce noise generated in a brake (brake) or an air tool, in particular, compressed air discharged through an air outlet (exhaust valve). To reduce the noise caused by friction and drag phenomena by inducing the flow to the curved surface, and to reduce the noise remarkably, and to the silencer of pneumatic equipment that can be used stably without degrading the performance of pneumatic equipment by smoothly exhausting compressed air. It is about.

1 is a view showing an example in which compressed air is supplied to a pneumatic device operated by compressed air. Compressed air generated by a compressor is stored in a storage tank via an aftercooler and a dryer.

Compressed air stored in the storage tank as described above is transferred along the transfer line to remove foreign matters in the air from the air clean unit installed on the transfer line (tube), the air is removed through the solenoid valve, the flow is changed The speed controller actuates the actuator (cylinder, brake system, solenoid valve, air tool, etc.).

Compressed air operating the pneumatic device as described above is discharged through the air outlet formed in the pneumatic device, or the solenoid valve to change the flow of air.

The pneumatic equipment is continuously operated by the continuous intake and exhaust of the compressed air.

Pneumatic equipment that is operated by the compressed air as described above has the disadvantage that when the compressed air is discharged through the air outlet, the noise is very severe as it is expanded and diffused at the end of the air outlet.

In order to reduce the occurrence of noise, which is a disadvantage of the pneumatic equipment described above, the silencer as shown in FIG. 2 has come to be used in the air outlet of the pneumatic equipment.

The conventional silencer is a felt foamed polyurethane (sound absorbing material) 102 is filled in the cylinder 100 having a plurality of air discharge holes 101 along the main surface.

When using the above-mentioned silencer, the noise generated by the pneumatic equipment can be lowered to some extent, but the noise reduction effect is not so great, and the compressed air is resisted to the sound absorbing material filled into the cylinder, thereby preventing the smooth discharge of air. In addition, the exhaust air remaining in the pneumatic equipment causes a problem that causes the malfunction and failure of the pneumatic equipment.

The present invention developed to solve the problems of the conventional muffler as described above, when the compressed air is discharged to the air outlet of the pneumatic equipment, the silencer installed in the air outlet guides the flow of air to the curved flow, first, compressed air When the exhaust gas is discharged by the body curved surface of the muffler, the exhaust air is guided to the curved flow to prevent friction and drag phenomenon can reduce the noise; Second, the smooth discharge of compressed air can achieve stable operation without any performance impairment (operating force) of the pneumatic equipment; Thirdly, the gap between the body and the body fixed to the pneumatic device is adjustable so that the amount of air discharge can be adjusted according to the output (capacity) of the pneumatic device; Fourth, to provide a silencer of the pneumatic equipment that can improve the working environment while protecting the operator from the noise of the compressed air in the workplace using the pneumatic equipment.

The object of the present invention described above is that in the silencer to be used in the air outlet of the pneumatic equipment,

Compressed air discharged from the pneumatic equipment is formed in the air discharge hole is formed in the center, the blow hole communicating with the air discharge hole is formed in all directions, one side of the screw threaded to the air outlet of the pneumatic equipment and the other side of the nut of the body An assembly having a screw portion screwed to the portion;

The outer circumferential surface has a concave shape and has a groove having an inner diameter larger than the outer diameter of the outer circumferential surface of the pipe in which the ejection hole of the assembly is formed. It is achieved by being composed of a body formed so that the compressed air exiting between the gaps (S) can be curved flow along the curved surface.

It is achieved by forming the body through the air discharge hole of the combination, the body having a plurality of air discharge holes on the front surface in communication with the air discharge hole is configured.

1 is a system diagram showing an example of moving the pneumatic equipment using the air pressure.

Figure 2 is a partial cross-sectional view showing an example of a silencer according to the prior art.

Figure 3 is a cross-sectional configuration of the silencer of the pneumatic device according to the present invention removed.

Figure 4 is a cross-sectional configuration of the silencer combined state of the pneumatic device according to the present invention.

5 is an exemplary view showing a state in which the silencer of the pneumatic device according to the present invention is applied to the pneumatic device.

Figure 6 is a side cross-sectional view showing an example with a flange on the assembly.

Figure 7 is a cross-sectional view showing another embodiment of the present invention.

8 is a front view of FIG. 7;

※ Explanation of symbols used in the main part of the drawing ※

10: binder 11: air discharge hole

12: blowout hole 13,14: screw portion

15: tube 20: body

21: groove 22: nut part

23: curved surface 24: surface

25: air discharge hole

The configuration of the present invention, in the silencer that is used to be mounted to the air outlet of the pneumatic device (1),

An air discharge hole 11 through which compressed air discharged from the pneumatic device 1 is discharged is formed in the center, and a blow hole 12 communicating with the air discharge hole 11 is formed in all directions, and pneumatically directed to one side. An assembly 10 having a screw portion 13 screwed to the air outlet of the apparatus 1 and a screw portion 14 screwed to the nut portion 22 of the body 20 on the other side;

The outer peripheral surface has a groove 21 having a larger inner diameter than the outer diameter of the outer peripheral surface of the pipe 15 in which the ejection hole 12 of the assembly 10 is formed in a conical shape, and the threaded portion 14 of the assembly 10 inside the groove 21. Nut part 22 is screwed is formed, the edge (edge) of the surface 24 in close proximity to the coupling member 10 is formed into a curved surface 23, the compressed air that escapes between the gap (S) is curved It is composed of a body 20 formed to be curved along the surface (23).

The body 20 having a plurality of air discharge holes 25 communicated with the air discharge holes 11 is formed in the front of the air discharge hole 11 of the combination 10, and the combination 10 is formed therethrough. It is constructed in combination.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Figure 3 is a cross-sectional configuration of the silencer of the pneumatic device according to the present invention, Figure 4 is a cross-sectional configuration of the silencer of the pneumatic device according to the present invention, Figure 5 is a pneumatic device according to the present invention Exemplary diagram showing a state in which the silencer is applied to a pneumatic device.

Figure 6 is a side cross-sectional view showing an example with a flange on the assembly, Figure 7 is a cross-sectional configuration showing another embodiment of the present invention, Figure 8 is a front view of Figure 7.

As shown, when assembling the silencer of the present invention to the pneumatic device 1, first, the screw 13 of the assembly 10 is screwed to the air outlet of the pneumatic device (1).

When the screw can not be screwed into the air outlet of the pneumatic device (1), as shown in Figure 6, the assembly 10 having a flange (13a) is assembled using a screw.

As described above, the nut portion 22 formed inside the recess 21 of the body 20 is screwed to the threaded portion 14 of the assembly 10 while the assembly 10 is coupled to the air outlet of the pneumatic device 1. Will be assembled by assembly.

When the body 20 is assembled to the assembly 10 as described above, the inner diameter of the groove 21 of the body 20 is smaller than the outer diameter of the tube 15 of the assembly 10 in which the ejection hole 12 is formed. A space for escape of the compressed air blown out at (12) is formed.

On the other hand, the surface 24 of the body 20 proximate to the assembly 10 is adjusted to the capacity of the pneumatic device 1, that is, the gap S through which the compressed air can be completely discharged.

When the compressed air is discharged through the air discharge port from the pneumatic device (1) equipped with a silencer as described above, the discharge compressed air is transported along the air discharge hole (11) of the assembly 10 to the air discharge hole (11) and It is discharged between the gaps (S) to fall through the space through the blowing hole 12 formed in communication.

As described above, the compressed air discharged between the gaps S is curved along the curved surface 23 formed as the edge of the body 20.

If the compressed air flows by the curved surface 23 of the body 20 as described above, the trailing phenomenon that may occur during the compressed air is discharged (generated by the end edge of the pipe or tube, etc.) The friction noise caused by the phenomenon is eliminated, so that the noise generated by the pneumatic device 1 can be minimized.

7 shows that the compressed air can also be discharged from the front of the body 20.

When the compressed air is discharged through the air discharge port in (1), the discharge compressed air is transported along the air discharge hole (11) formed through the combination body 10 to communicate with the air discharge hole (11) formed blow holes (12) A plurality of air discharge holes formed in front of the body 20 at the same time flows through the curved surface 23 is discharged between the space (S) through the space through the through)

(25) will also be discharged at the same time.

The present invention as described above is not limited to the preferred embodiments of the above-described characteristics, and various changes can be made by those skilled in the art without departing from the gist of the present invention claimed in the claims.

As described above, the silencer of the pneumatic device according to the present invention, when the compressed air is discharged, the exhaust air is guided by the curved surface of the body of the silencer to prevent the friction and drag phenomenon can reduce the noise, compression The smooth discharge of air enables stable operation without any performance impairment (operating force) of the pneumatic equipment, and the gap between the assembly and the body fixed to the pneumatic equipment can be adjusted according to the output (capacity) of the pneumatic equipment. It is a very useful invention that can control the amount of air discharge and improve the working environment while protecting the operator from the noise of the discharge of compressed air in the workplace using pneumatic equipment.

Claims (2)

In the silencer to be used in the air outlet of the pneumatic equipment (1), An air discharge hole 11 through which compressed air discharged from the pneumatic device 1 is discharged is formed in the center, and a blow hole 12 communicating with the air discharge hole 11 is formed in all directions, and pneumatically directed to one side. An assembly 10 having a screw portion 13 screwed to the air outlet of the apparatus 1 and a screw portion 14 screwed to the nut portion 22 of the body 20 on the other side; The outer peripheral surface has a groove 21 having a larger inner diameter than the outer diameter of the outer peripheral surface of the pipe 15 in which the ejection hole 12 of the assembly 10 is formed in a conical shape, and the threaded portion 14 of the assembly 10 inside the groove 21. Nut part 22 is screwed is formed, the edge (edge) of the surface 24 in close proximity to the coupling member 10 is formed into a curved surface 23, the compressed air that escapes between the gap (S) is curved Silencer of the pneumatic device, characterized in that consisting of a body 20 formed to be curved flow along the surface (23). The method of claim 1, wherein the air discharge hole 11 of the assembly 10 is formed to penetrate, and the combination 10 has a plurality of air discharge holes 25 in communication with the air discharge hole (11) in front The silencer of the pneumatic device, characterized in that the body 20 is configured to be coupled.