KR200359303Y1 - A Silencer for Air Compressor - Google Patents

Abstract

The present invention relates to a silencer for a compressor, and more particularly to a silencer for removing or reducing the loud sound generated from the inlet and outlet of the gas during operation of the compressor.

According to the present invention, a loud sound generated during operation of the compressor, including a loud sound transmitted from the inside of the compressor to the outside through the discharge port or a loud sound generated while the outside air is fed through the inlet into the compressor. It can be installed in any place where these noises are generated, and in order to make the loud sound attenuation effect more excellent, the loud sound passes through several times and stages such as mechanical structure, filter shape structure, and sound absorbing material. It allows progressively attenuating loud sounds in multiple stages, and reduces resistance even when passing through the internal gas to maintain a balanced effect that does not lag behind the gas passing through with the basic purpose of damping noise. .

Description

Compressor Silencer {A Silencer for Air Compressor}

The present invention relates to a silencer for a compressor, and more particularly to a silencer for removing or reducing the loud sound generated from the inlet and outlet of the gas during operation of the compressor.

In general, the conventional silencer used in the air compressor (Air Compressor) is a long and complicated path for the internal gas flow in order to alleviate the mechanical noise generated inside the device when the compressor is running. Mainly developed form with emphasis on the configuration, and the size of the silencer is increased, and eventually it is the main factor to enlarge the overall size of the compressor.

In addition, if the flow path of the internal gas is complicated as described above, it may be effective to mitigate the noise to some extent. However, the complex flow path causes a lot of resistance to the internal gas to pass, thus increasing the operational load. There is an unreasonable problem that the capacity of the compressor has to be designed larger in order to maintain the flow rate more than a predetermined amount, and thus, in order to reduce the life of the device due to the constant load generation during operation. It can also lead to bad results.

The present invention has been made in order to solve such a conventional problem has the following objectives.

The main purpose of the present invention is to provide a compressor that can greatly reduce the loud sound or improve the effect of noise while maintaining the proper passage rate so that it does not significantly affect the gas flow rate through the silencer. It is to provide a silencer.

Another object of the present invention is to reduce the effect of the noise while reducing the overall size of the structure does not occupy a lot of space, regardless of the discharge or inlet of the gas, or on the conduit of the connection between these outlets and the inlet Easily installed anywhere, and when installed at the outlet and inlet at the same time to provide a compressor silencer that can further double the noise effect.

1 is a longitudinal sectional view of the main portion as a preferred example of the present invention;

2 is an exploded perspective view of FIG. 1;

3 is a schematic external view illustrating a state of use;

Fig. 4 is a plan view of Fig. 4 showing a partially cutaway operation.

<Explanation of symbols for the main parts of the drawings>

1: compressor, 3: body,

5: noise filter, 7: sound absorbing member,

9: finishing member, 10: inlet,

12: outlet, 30: inward protrusion,

32: first passage, 34: installation space,

50: mounting hole, 90: flange portion,

92, 94: protrusions, 96: second passage,

98: through hole, 100: silencer

M: drive motor

In order to achieve the above object, the present invention can be utilized by selectively connecting to one side of the inlet and the outlet of the compressor or at the same time by connecting to both sides of the compressor, and is generated inside the compressor during operation of the compressor and discharged to the outside. In the silencer is used to reduce the loud noise generated in the process of introducing the outside gas of the compressor into the compressor, the first passage is formed in the center of the inward protrusion of one side, the installation space is provided on the inside A main body; A noise filter installed in the space between the inward protrusion and the inner wall of the installation space and having an installation hole penetrated at the center thereof; Sound absorbing member is fitted into the adjacent portion of the first passage formed in the inward projection of the main body as the installation hole of the noise filter; Protruding portions are formed on both sides of the center flange portion, respectively, and a second passage is formed therein, and outer protrusions located on one side are penetrated, and the front part of the inner protrusions located on the other side is blocked and Comprising a plurality of through-holes are formed, and the silencer for the compressor is provided between the inner wall and the inner protrusion of the main body is coupled to each other the closing member is fitted with the noise filter.

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

As illustrated in FIGS. 1 to 3, according to a preferred embodiment of the silencer 100 of the present invention, the compressor 1 may be selectively connected to either one of the inlet and the outlet of the compressor 1, or may be simultaneously connected to both the inlet and the outlet of the compressor 1. It is installed and utilized, and is generated while being discharged to the outside of the compressor (1) when the compressor (1) is operating or generated in the process of introducing the external gas of the compressor (1) into the compressor (1) In the conventional silencer used to reduce the loud noise, the main passage (3) is formed in the center of the inward projection portion 30 of one side long and the installation space 34 is provided on the inside; A noise filter (5) installed in the space between the inward protrusion (30) and the inner wall of the main body (3) and having an installation hole (50) through the center of the installation space (34); Sound absorbing member (7) is fitted to the adjacent portion of the first passage 32 formed in the inward projections 30 of the main body (3) as the installation hole 50 of the noise filter (5); In addition, protrusions 92 and 94 are formed at both sides of the center flange portion 90, respectively, and a second passage 96 is formed therein, and the outer protrusion 94 positioned at one side is penetrated and the other side is disposed at the other side. The inner protruding portion 92 is located in a state in which the front portion is blocked, and a plurality of through holes 98 are pierced from the circumferential portion, and between the inner wall of the main body 3 and the inner protruding portion 92. The finishing member 9 to which the noise filter 7 is fitted is coupled to each other.

In this case, since the structure of the main body 3 and the finishing member 9 is relatively complicated, it is preferable that the production is performed by injection molding using a mold using synthetic resin, and the noise filter 5 In this case, a solid foam having a myriad of fine passages is formed by the combination of fine artificial fiber tissue therein, and in the case of the sound absorbing member 7, a soft sound absorbing material having flexibility and elasticity such as a sponge is used. do.

As an unexplained symbol, 10 denotes an inlet of the compressor 1, 12 denotes an outlet of the compressor 1, and M denotes a drive motor, respectively.

With respect to the silencer that is made in this way will be described the process that the operation is made.

In the case of installation and use, for example, as illustrated in FIGS. 3 and 4, the compressor 1 may be inserted into the inlet 10 or the outlet 12 of the compressor 1 to be used. If the place can be properly used, such as can be installed and used in the middle of the pipe connected to the inlet 10 or the outlet 12, it may be installed in any place, but in the present invention Figures 1 to 4 The description will be made based on the contents exemplified in FIG.

First, when the silencer 100 is installed and used at the inlet 10 of the compressor 1, when the compressor 1 is operated by the driving motor M, external air or other gas is introduced into the inlet 10. After entering the inside of the compressor (1) through the (10) is compressed in the inside of the compressor (1) and then discharged in a compressed state via the outlet 12 again.

At this time, since the silencer 100 is installed in the inlet 10, external air or other gas passes through the silencer 100, and once the external air or other gas is applied to the suction force of the compressor 1. By the negative pressure generated according to the first passage 32 of the main body 3 is introduced into the interior of the main body 3, passing through the sound absorbing member (7), after passing through the noise filter (5) Through the through hole 98 and the second passage 96 of the finishing member (9), and then through the inlet 10 is to be introduced into the compressor (1).

That is, the gas flowing into the compressor 1 may be formed through the first passage 30 of the main body 3, the sound absorbing member 7, the noise filter 5, and the through hole 98 and the finishing member 9 of the main body 3. While passing through the two passages 96 in sequence, the external gas flows into the compressor 1 to greatly reduce the noise generated. The path is not complicated in a maze, but the sound absorbing member 7 and The sound absorbing and noise eliminating characteristics by the noise filter 5 and the structural characteristics of the main body 3 and the finishing member 9 are combined with each other to obtain the effect of removing or reducing noise, and the path passing therethrough is not complicated. Therefore, it does not act as a resistance element in the inflow operation of the incoming gas, and thus the opposite functions of noise elimination and reduction of passage resistance do not deteriorate with each other.

Next, a case in which the silencer 100 of the present invention is installed in the outlet 12 is provided. In contrast to the above-described operation process, for example, the silencer 100 is passed through the outlet 12 from the compressor 1. Internal gas is discharged to the outside via the second passage 96, the through hole 98, the noise filter 5, and the sound absorbing member 7 of the finishing member 9 in the silencer 100. And, while passing through the first passage 30 of the main body 3 in order to reduce the noise discharged to the outside of the compressor (1), the progress path is not complicated maze form The sound absorbing and noise removing characteristics of the noise filter 5 and the sound absorbing member 7 and the structural characteristics of the main body 3 and the finishing member 9 are combined with each other to obtain an effect of removing or reducing noise. The path that passes is not complicated, so The opposite function to that a resistance element is not acting reduction of the passage resistance generated at the time of discharge of the noise reduction and the inner gas is not exhibited well damage each other.

As described above, according to the noise devising device of the present invention, the passage rate is maintained at an appropriate level so as not to significantly affect the change in the gas flow rate passing therethrough, while greatly reducing the loud sound or improving the effect of noise. It is possible to reduce the overall size of the device and to reduce the effect of noise, so that it does not take up much space, and the gas outlet or inlet port is connected to the outlet pipe. Regardless of whether it is easily installed anywhere, and when it is installed at the outlet and inlet at the same time, it has an excellent effect, such as to further increase the noise (消音) effect.

Claims (1)

Selective connection is made to either one of the inlet and the outlet of the compressor (1) or at the same time connected to and installed at both sides of the inlet and the discharge port, the utilization is made, and generated inside the compressor (1) when the compressor (1) is operating to the outside In the conventional silencer used to reduce the loud noise generated while being discharged or generated in the process of introducing the outside gas of the compressor (1) into the inside of the compressor (1), A main body 3 having a first passage 32 formed in the center of one of the inward protrusions 30 on one side and an installation space 34 provided in the inner side; A noise filter (5) installed in the space between the inward protrusion (30) and the inner wall of the main body (3) and having an installation hole (50) through the center of the installation space (34); A sound absorbing member (7) which is fitted into a portion adjacent to the first passage (32) formed in the inward protrusion (30) of the main body (3) as an installation hole (50) of the noise filter (5); And Protruding portions 92 and 94 are formed on both sides of the central flange portion 90, respectively, and a second passage 96 is formed therein, and the outer protrusion 94 positioned at one side is penetrated and positioned at the other side. The inner protrusion 92 is a front portion of the blocked state and the circumferential portion is composed of a plurality of through holes 98 are formed between the inner wall of the body 3 and the inner protrusion 92 between the Silencer for a compressor, characterized in that the closing member (9) to which the noise filter (7) is fitted is coupled to each other.