KR100446332B1 - Apparatus for attenuating sound in high air pressure system - Google Patents

Abstract

The present invention relates to a noise reduction device, and more particularly, to high-pressure air that can reduce the noise generated when the high-pressure air is discharged from the pressurized device using the high-pressure vessel to the outside as well as to prevent the external discharge of the liquid material. It relates to an exhaust noise reduction device.

An object of the present invention, in the device using a high-pressure air using an air compressor, to significantly reduce the noise when discharging the high-pressure air to the outside, and to completely remove the moisture discharged to the outside mixed with the high-pressure air The present invention provides a configured high pressure air exhaust noise reduction device.

In order to achieve the above object, the present invention, the cylindrical housing (2) is connected to the inlet pipe (1) on the bottom of one side so that the high-pressure air formed at a predetermined pressure in the air compressor is introduced from the side to form a swirl and noise energy is dispersed; The air discharge hole 3 is formed on a part of the upper surface of the housing 2 to absorb sound and discharge air and the air discharge hole 3 in which water and air are separated by a density difference, and surround the air discharge hole 3. It is characterized in that it is coupled to the outer housing 2, and the discharge hole (4) is formed is formed of a shutoff tube (5) configured to allow water to flow into the housing (2) through the through hole (7) at the bottom.

Description

Apparatus for attenuating sound in high air pressure system

The present invention relates to a noise reduction device, and more particularly, to high-pressure air that can reduce the noise generated when the high-pressure air is discharged from the pressurized device using the high-pressure vessel to the outside as well as to prevent the external discharge of the liquid material. It relates to an exhaust noise reduction device.

In general, in places such as automobile repair shops, high pressure air is used to use air tools such as air drivers and impact wrenches, and to remove vehicle dust using nozzles.

That is, after connecting the above-mentioned various tools to the piping of the air compressor in the state which operated the air compressor, it operates to operate a tool by the above-mentioned high pressure air force.

Since the high pressure air is used in many parts in the factory in addition to the air tool, water is generated during the compression of the air, and thus an air dryer may be used so that water is not discharged to the nozzle and the air tool.

When the water is discharged from the nozzle will affect the machinery, such as rust, oxidation, it can be said that the removal of water is essential.

Of course, the high pressure air discharged from the nozzle is to be discharged in a state in which the pressure is constantly adjusted through a regulator or the like.

However, when the high-pressure air is formed and discharged using the air compressor as described above, a relatively loud noise is generated when the compressed air is discharged. There is a problem affecting.

In addition, these days, environmental regulations are severe, there is a problem that not only the above noise but also a small amount of water discharged at the time of discharge of high pressure air causes environmental pollution.

Accordingly, an object of the present invention is to solve the above problems, in the apparatus using high pressure air using an air compressor, significantly reduced noise when discharging the high pressure air to the outside, and mixed with the high pressure air to the outside It is to provide a high pressure air exhaust noise reduction device configured to completely remove the water discharged to the furnace.

In order to realize the above object, the present invention is a cylindrical housing in which the inlet pipe is connected to the bottom surface of one side so that the high-pressure air formed at a predetermined pressure in the air compressor is introduced from the side to form a swirl while noise energy is dispersed, and the upper surface of the housing The air discharge hole formed in a part is absorbed and the air discharge hole is separated from moisture and air by the density difference, and is coupled to the outside of the housing to surround the air discharge hole. Characterized in that it consists of a shut-off bucket configured to enter the water through the housing.

1 is a perspective view showing a high pressure air exhaust noise reduction device according to the present invention,

2 is a cross-sectional view of FIG.

Figure 3 is a plan sectional view of Figure 1;

* Explanation of symbols for the main parts of the drawings

1: inlet pipe 2: housing

3: air discharge hole 4: discharge hole

5: shutoff box 6: discharge valve

7: through hole 8: sound absorbing material

1, 2 and 3 are a perspective view, a cross-sectional view and a plan sectional view showing a high pressure air exhaust noise reduction device according to the present invention, the high pressure air formed at a predetermined pressure in the air compressor is introduced from the side to form a swirl (swirl) A cylindrical housing 2 having an inlet pipe 1 connected to one side of the bottom surface, an air discharge hole 3 formed in a part of the upper surface of the housing 2, and the air discharge hole 3 It is coupled to the housing (2) outside so that it is composed of a blocking cylinder (5) formed with a discharge hole (4).

That is, in the state where the inlet pipe 1 is attached to the side surface of the cylindrical housing 2 as shown in FIG. 3, when the high pressure air flows into the inlet pipe 1, the cylindrical housing 1 is introduced. The high pressure air is rotated along the wall of the), and the high pressure air is swirled by the above-described rotation, thereby dispersing noise energy.

Of course, the high-pressure air is raised while causing a swirl, the elevated high-pressure air is discharged to the shutoff tube 5 while being primarily filtered through the air discharge hole (3) by the density difference between the air and water, After the secondary filtration in the above-described shut-off tube (5) to be discharged to the outside through the discharge hole (4).

The discharge valve 6 is installed at the bottom of the housing 2 to discharge the collected water.

The through hole 7 is formed in the housing 2 at a portion where the bottom surface of the shutoff tube 5 is located, and the water collected in the shutoff tube 5 through the through hole 7 is formed. This flows down and is trapped in the housing 2 so that it can be discharged through the discharge valve 6 described above.

Here, the diameter of the air discharge hole (3) and the discharge hole (4) is not only the diameter so that the density of the air and the water is different, and thus only the moisture is caught due to the difference in density when rotating, It is configured to cause a relatively small resistance to the discharge of high pressure air to the outside.

In addition, the diameter and length of the housing (2) is determined according to the pressure and flow rate of the high pressure air, the diameter of the neck portion of the inlet pipe (1) by the Bernoulli theorem which is usually applied to noise reduction, and thus, the high pressure air The noise is greatly reduced by the dispersion when the filter passes through the housing 2 and when the filter passes through the air discharge hole 3 and the discharge hole 4.

When the air discharge hole 3 is formed and the discharge hole 4 is formed in two parts and the sound absorbing material 8 is filled therein, the noise reduction effect is increased.

Referring to the operation and effect of the present invention as described above, when the high-pressure air is formed from a high-pressure air source (including a high-pressure air tank) such as an air compressor, it is introduced into the inlet pipe (1).

When the high pressure air enters the inlet pipe 1, it enters the cylindrical housing 2 in the state of having a very high flow rate and high pressure.

At this time, the high pressure air is introduced into the cylindrical housing (2) and at the same time hit the circular wall surface of the housing 2, it is rotated by the wall curvature of the housing (2).

That is, the high pressure air is changed into a flow that rotates with the cylindrical housing 2 as a guide. When the high pressure air is changed into the rotation flow, the high pressure air is in the form of a swirl.

When the high pressure air flow causes a swirl, the air flows up the wall of the cylindrical housing 2.

At this time, the air flow is swirled while the noise energy is dispersed and the sound pressure is reduced while being discharged through the air discharge hole (3) and the discharge hole (4) and is absorbed by the sound absorbing material (8).

When the high pressure air rotates to the upper surface of the housing 2 as it rotates, there is a density difference between the moisture and the air mixed in the high pressure air, and thus only the air is used as the air discharge hole 3. This is discharged and the water falls to the bottom of the housing (2).

That is, air is more easily exited in the radial direction than the above water due to the difference in density of air and water during rotation. The air enters the shutoff tube 5 through the air discharge hole 3 and the water. Will fall.

The water dropped to the bottom of the housing 2 is in a trapped state. When the water is collected for a predetermined amount or more, the discharge valve 6 is opened to be discharged to the outside.

In this case, a small amount of water may also be included in the air introduced into the shutoff tube 5, when the air is discharged to the outside through the discharge hole 4, the moisture is caught and falls, and only the air is external. To be discharged.

That is, by primary filtering in the air discharge hole (3) and the secondary filter in the discharge hole (4), the moisture containing the harmful components to the environment is not substantially discharged to the outside.

The high pressure air discharged while the water is removed through the discharge hole 4 is supplied to the air tool through a pipe (not shown), thereby enabling the supply of high pressure air without affecting the rust of the tool.

As described above, the water dropped from the shutoff tube 5 flows back to the housing 2 through the through hole 7 of the housing 2, and is discharged to the outside through the discharge valve 6. do.

Of course, when the collected moisture is discharged to the outside it is collected in a separate container (not shown) and then discarded in a waste place.

As described above, the present invention allows the high-pressure air to pass through the cylindrical housing when supplying the air tool, so that the high-pressure air causes the swirl to remove moisture contained in the high-pressure air with a difference in density, and can also remove noise. There is an advantage.

Claims (3)

The high pressure air formed at a predetermined pressure in the air compressor is introduced from the side to form a swirl, so that the noise energy is dispersed, the cylindrical housing connected to the inlet pipe at the bottom of one side, and the noise of the air formed and discharged on a part of the upper surface of the housing is absorbed. In addition, the air discharge hole is separated from the moisture and air by the difference in density, and is coupled to the outside of the housing to surround the air discharge hole, and the discharge hole is formed and configured to block the water flow into the housing through the through hole at the bottom High pressure air exhaust noise reduction device characterized in that. The method of claim 1, And a discharge valve installed on the bottom of the housing and configured to discharge the collected water. The method according to claim 1 or 2, High-pressure air exhaust noise reduction device characterized in that the dual configuration of the housing and the blocking cylinder of the air discharge hole and the discharge hole formed portion and filling the sound absorbing material therebetween.