KR20180055592A - Wind pressure relieving soundproof wall - Google Patents

Abstract

The present invention relates to a soundproof wall for relieving a wind pressure. More specifically, the soundproof wall for relieving a wind pressure comprises: an outer case forming an exterior shape and providing a space therein; and a flow passage member which is arranged in the outer case, and forms a flow passage to guide a wind entering in a front direction to discharge the wind in a rear direction. The flow passage member includes: an input unit opened through one surface of the outer case, wherein air flows thereinto by a wind; an output unit opened through another surface of the outer case on an opposite side of the input unit, and formed on one end farther away from a position of the input unit to discharge inflow air; and a passage unit which connects the input unit and a passage unit in the outer case, and is extended in a direction crossing an extension direction of the input unit and the output unit.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a wind pressure relieving soundproof wall,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wind pressure relieving type sound barrier.

Generally, soundproof walls are used to prevent noise from being transmitted to a building or a residential area adjacent to an environment where noise such as roads or railroad tracks around the vehicle is generated.

Such a soundproofing wall can be constituted by arranging panels having the same structure continuously to block sound, and has a structure for blocking the sound wave by making the height high or making it thick, or a sound absorbing material for absorbing the sound wave It is used to block noise.

Soundproof walls have high height and wide structure due to characteristics of environment and structure to be installed. Therefore, if the wind is blown or sudden changes in the air flow occur, the sound barrier itself may be damaged or damaged.

It is impossible to effectively block the noise due to the damage of the soundproof wall, and when the soundproof wall falls down to a building or a residential area for blocking roads, railroad tracks or noise, it may cause a serious accident.

In order to solve this problem, Korean Patent No. 10-0886467 discloses a soundproof ventilation panel that rotates when air pressure due to the pressure of wind is applied to wind the air, thereby protecting the soundproofing wall or the center medallion from wind pressure, A sound-insulating ventilation panel is provided.

In more detail, the soundproof ventilating panel is a soundproof ventilating panel for ventilating the wind and absorbing ambient noise when the wind pressure is applied. The soundproof ventilating panel includes a frame forming a frame, And a rotary ventilation member for ventilating the wind and absorbing ambient noise, wherein the rotary ventilation member includes: a support shaft rotatably installed on a shaft support portion provided on the frame; And a ventilation fan which is installed in the longitudinal direction from the periphery of the sound absorbing material and applies rotational force by wind pressure.

However, the soundproof ventilating panel having such a structure has a problem in that it can not effectively block the noise since the area through which the air can pass is wide as well as the contact area of the sound absorbing material to which the sound waves come into contact is small.

In addition, the soundproof ventilation panel has a structure in which the rotary ventilation member rotates so that wind can pass through. In such a structure, a secondary noise problem may occur due to the rotational noise of the rotary ventilation member. Especially, There is a problem that the secondary noise may gradually increase due to deformation or abrasion of the shaft.

In addition, since the sound-permeable ventilating panel has a structure in which the rotary ventilating member is rotated by a shaft extending in the vertical direction, the rotary ventilating member may not be able to effectively disperse the wind pressure according to the wind direction, In such a case, there is still a risk that the soundproof ventilation panel may be damaged by the wind to cause a safety accident.

An embodiment of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a wind pressure-free soundproof wall capable of effectively suppressing wind pressure to prevent breakage while maintaining a noise blocking effect.

According to an aspect of the present invention, there is provided a wind-noise resisting type soundproof wall, comprising: an outer case forming an outer shape and providing a space therein; And a flow path member provided on the inside of the outer case to form a flow path for guiding the wind introduced from the front and discharging the flow backward, wherein the flow path member comprises: The air conditioner according to any one of claims 1 to 3, wherein the air conditioner further comprises: an input unit that is opened through one surface of the outer case and through which air is introduced by wind; And a passage portion connecting the input portion and the passage portion from the inside of the outer case, the passage portion extending in a direction intersecting the extending direction of the input portion and the output portion.

The input unit and the output unit may be disposed at both left and right ends of the front and rear surfaces of the outer case, respectively.

The passage portion may extend along the extending direction of the out-case.

The extended length of the input unit and the output unit may be longer than the internal width of the passage unit.

The passage member may be formed of a polyester material.

A plurality of concave and convex shapes for dispersing and absorbing sound waves can be formed in the passage space through which the air flows in the passage member.

The output unit may include a plurality of output units, and the plurality of output units may be opened at the same side of the outer case at one side remote from the input unit.

The outer case may have a front opening and a front grill may be provided on the opened front of the outer case. The front grille may include a plurality of grills arranged continuously at predetermined intervals.

And a plate-like sound-absorbing member for shielding the front grille from the back surface of the front grille and shielding the noise introduced through the front grille.

The sound absorbing member may be formed to fill the gap between the front grill and the passage portion.

The sound absorbing member may be disposed on a rear surface of the front grill and spaced apart from the passage portion, and a sound-isolating space may be formed between the sound-absorbing member and the passage portion.

The opening of the input unit and the opening of the output unit may include an inlet door and an outlet door for opening and closing the input unit and the output unit according to the flow of air.

The inlet door and the outlet door are provided with elastic members, and the elastic member can keep the inlet door and the outlet door closed when airflow is not generated by wind through the flow passage member.

The wind-noise resisting type soundproof wall according to the embodiment of the present invention has the following effects.

When the windshield is blown toward the soundproof wall, the soundproof wall can guide the wind to the rear of the soundproof wall through the passage member to be discharged. Accordingly, the wind pressure applied to the soundproof wall can be eliminated, and the structure of the soundproof wall assembly, in which the soundproof wall is mounted, can be made lighter and more compact. In addition, since it is not necessary to strengthen the bottom support on which the soundproof wall assembly is installed, it is possible to reduce the installation cost and simplify the installation work.

In addition, the channel member is formed of a sound-absorbing material, and the input unit and the output unit are disposed so as to intersect with each other, and the noise is dispersed and absorbed during the flow along the channel unit, . That is, it is possible to prevent noise from being transmitted while forming a flow path of air.

The channel member may be opened only when the wind is blown toward the soundproof wall, and may be shielded by the entrance door and the exit door in a situation where the wind is not blown toward the soundproof wall, thereby preventing the appearance from being deteriorated. There is an advantage that foreign matter can be prevented from being introduced from the outside.

In addition, the inlet door and the outlet door can be opened naturally when a certain pressure is applied by blowing wind without any separate operation, and can be kept closed by the elastic member when wind is not blown.

1 is a perspective view showing a state in which a wind pressure-relieving type soundproof wall according to a first embodiment of the present invention is installed.
2 is a perspective view of the wind-noise resisting type soundproof wall.
3 is an exploded perspective view of the wind-noise-resisting type soundproof wall.
4 is a cross-sectional view of the wind-pressure-resisting type soundproof wall.
5 is an enlarged view of part A of Fig.
6 is a view schematically showing a state in which no wind is blown toward the wind pressure-relieving type soundproof wall.
7 is a view schematically showing a state in which the wind is blown toward the wind-noise resisting type soundproof wall.
FIG. 8 is a cross-sectional view of a wind-noise resisting type soundproof wall according to a second embodiment of the present invention. FIG.
Fig. 9 is a cross-sectional view of a wind-noise resisting type soundproof wall according to a third embodiment of the present invention.
10 is a perspective view of a wind-noise resisting type soundproof wall according to a fourth embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, it should be understood that the present invention is not limited to the embodiment shown in the drawings, and that other embodiments falling within the spirit and scope of the present invention may be easily devised by adding, .

1 is a perspective view showing a state in which a wind pressure-relieving type soundproof wall according to a first embodiment of the present invention is installed.

As shown in the drawing, the wind-noise resisting type soundproof wall 100 according to the embodiment of the present invention is a unit constituting the entire soundproof wall assembly 1, and a plurality of the soundproof walls 100 may be connected to each other. May be mounted on the sound barrier wall frame 2 to form the overall sound barrier wall assembly 1. [

That is, the sound barrier frame 2 may be vertically long, and may be disposed at left and right sides at regular intervals. The lower end of the soundproof wall frame 2 may be fixed to the support 3 for supporting the floor or the frame. In addition, an installation groove is formed on the inner side of the soundproof wall frame 2 to mount the soundproof wall 100 composed of a unit panel. That is, both ends of the soundproof wall 100 are fixed to the installation grooves of the soundproof wall frame 2, and a plurality of soundproof walls 100 are stacked in the up and down direction to form the entire soundproof wall assembly 1.

Therefore, it is possible to determine the length of the soundproof wall assembly 1 by determining the number of the soundproof wall frames 2 according to the installation environment. Depending on the height of the soundproof wall frame 2 and the number of the soundproof walls 100 to be stacked, The height of the sound barrier wall assembly 1 can be determined.

Of course, if necessary, the sound barrier wall assembly 1 may be formed of one sound barrier wall 100 or may have a structure in which the sound barrier walls 100 are connected to each other without the sound barrier wall frame 2.

2 is a perspective view of the wind-noise resisting type soundproof wall. 3 is an exploded perspective view of the wind-noise resisting type soundproof wall. 4 is a cross-sectional view of the wind-noise resisting type soundproof wall.

The soundproof wall 100 may include an outer case 200, a front grill 300, a sound absorbing member 400, and a flow path member 500, as shown in the drawing.

The outer case 200 forms an overall appearance of the soundproof wall 100, and may form both sides and a rear surface excluding the front surface. The front grille 300 may be disposed on the open front of the outer case 200.

The outer case 200 may be formed of a metal material and may form a space for accommodating the sound absorbing member 400 and the flow path member 500 therein. The outer case 200 may include a first case 210 and a second case 220. The first case 210 forms an outer surface of one side surface and a rear surface of the soundproof wall 100 and is configured such that both ends thereof can be coupled to the first case 210 and the front grill 300.

A discharge opening 211 may be formed at one side of the first case 210 to expose the discharge port 521 of the passage member 500. The discharge opening 211 can be configured to be opened and closed by the outlet door 212.

The outlet door 212 is rotatably mounted on the first case 210 and may be configured to be opened and closed by air pressure when air is discharged through the discharge port 521. The outlet door 212 is provided with an elastic member 213 to keep the discharge opening 211 closed by the outlet door 212 in a state in which air is not discharged through the discharge port 521 .

The second case 220 is coupled to one end of the first case 210 and may be configured to form one side of the soundproof wall 100. The second case 220 may be formed of the same material as that of the first case 210 and may have the same shape as the other end of the soundproof wall 100 formed by the first case 210 . The second case 220 may be coupled to the front grill 300.

The front grill 300 forms a front contour of the soundproof wall 100 and may be coupled to both ends of the outcouple 200. That is, one end of the front grill 300 may be coupled to the first case 210 and the other end may be coupled to the second case 220.

The front grill 300 may include a plurality of grills 310. The grill 310 may extend vertically, and a plurality of grilles 310 may be disposed at regular intervals. Accordingly, the grill 310 distributes the wind blowing toward the soundproof wall 100 sideways and reflects the sound waves so that the noise can be primarily blocked.

The front grill 300 may be formed on the front surface of the soundproof wall 100 except for the inlet port 511 formed in the channel member 500 to be described later. Accordingly, the inlet 511 may be exposed forward through the inlet opening 320 on the front grill 300, and the inlet opening 320 may be opened or closed by the inlet door 321.

The opening of the inlet door 321 allows the wind toward the soundproof wall 100 to be introduced through the inlet 511. When the inlet door 321 is closed, the soundproof wall 100, that is, a part of the front surface of the front grill 300, can be formed.

The inlet door 321 is configured to rotate in one direction and the inlet door 321 is provided with an elastic member 322 so that the restoring force of the elastic member 322 after the inlet door 321 is opened So that the closed state can be maintained when the wind is not blown.

On the other hand, a sound absorbing member 400 may be formed behind the front grill 300. The sound absorbing member 400 may have a predetermined thickness and may be disposed between the front grill 300 and the flow path member 500. At this time, the front surface of the sound absorbing member 400 may be in contact with the front grill 300, and the back surface may be in contact with the flow path member 500. The sound absorbing member 400 may extend from one side of the flow path member 500 to a side surface of the out case 200.

The sound absorbing member 400 absorbs the wavelength of noise introduced through the front grill 300, and may be formed of a polyester material generally used as a sound absorbing material. The sound absorbing member 400 shields most of the noise passing through the front grill 300 and prevents the noise from being transmitted to the rear of the soundproof wall 100.

The channel member 500 connects the inlet opening 320 and the outlet opening 211 of the soundproof wall 100 to discharge the wind blowing from the front of the soundproof wall 100 to the rear of the soundproof wall 100, Can be eliminated. For this, the channel member 500 may be disposed inside the soundproof wall 100, that is, inside the outer case 200, and form a passage space 501 through which air can flow.

At least a part of the passage member 500 in contact with the passageway space 501 through which the air flows may be formed of a sound absorbing material. Therefore, noise introduced during the passage through the passage member 500 is absorbed by the sound-absorbing material, so that the sound-absorbing effect can be obtained.

For this purpose, the flow path member 500 may be formed of a polyester material or a mixed material mainly composed of polyester, and may be formed to have a density of 32 Kgf / m ³ to 40 Kgf / m ³ . The channel member 500 may have various structures capable of absorbing sound, so that the channel member 500 may have a structure that is effective for sound absorption like a porous structure or a fibrous structure, The branches may be formed to have various structures. Further, a separate case made of plastic or metal may be formed on the outer surface of the flow path member 500 to reinforce the flow path member 500.

In order to improve the absorption efficiency of noise, it is preferable that the channel member 500 has a long channel length. In this case, it is important that an increase in the pressure due to an increase in the channel length is not caused. For this purpose, the inlet 511 and the outlet 521 may be located at the opposite ends of the sound barrier 100, respectively. Therefore, the flow path member 500 is formed to extend in the lateral direction (left and right direction in FIG. 3), and the wind flowing from one side may be discharged to the other side.

The channel member 500 may include an input unit 510, a passage unit 530, and an output unit 520. The input unit 510 may communicate with the inlet 511 and may extend from the inlet 511 in the thickness direction of the soundproof wall. Accordingly, the wind blowing toward the soundproof wall 100 may flow into the input unit 510 through the inlet 511.

One end of the passage part 530 is connected to the end of the input part 510. [ The passage portion 530 may extend in a direction intersecting the input portion 510. That is, the passage portion 530 may extend along the sound barrier 100 in the transverse direction within the sound barrier 100. The other end of the passage portion 530 may be connected to the output portion 520. The passage portion 530 may extend from the inlet 511 to the discharge port 521 and may be disposed inside the space separated from the front and rear surfaces of the soundproof wall 100. The passage portion 530 may be disposed in contact with the sound-absorbing member 400 to support the sound-absorbing member 400.

The output portion 520 may extend from the end of the passage portion 530 toward the discharge port 521. The end of the output unit 520 may be connected to the discharge port 521 so that air flowing along the flow path member 500 may be discharged toward the rear of the soundproof wall 100.

The width of the passageway space 501 formed in the passage member 500 may be narrower than the extended length of the input unit 510 and the output unit 520. Therefore, the reflected sound is minimized in the process of passing the wavelength of the noise introduced into the inlet port 511 through the passage section 530 through the input section 510, so that the noise can be absorbed.

5 is an enlarged view of part A of Fig.

As shown in FIG. 5, a plurality of protrusions 502 may be formed on the inner surface of the passage member 500. The concavo-convex part 502 may be formed at the time of forming the passage member 500 and may be formed on the inner surface of the passage member 500, that is, the entire passage space 501.

The noise can be absorbed or dispersed by the concave and convex portion 502 along the flow path member 500 and noise can be transmitted to the rear side of the soundproof wall 100 through the flow path member 500 So that it can be minimized.

Hereinafter, the operation of the wind-noise resisting type soundproof wall according to the embodiment of the present invention will be described in detail with reference to the drawings.

6 is a view schematically showing a state in which no wind is blown toward the wind pressure-relieving type soundproof wall. 7 is a view schematically showing a state in which the wind is blown toward the wind-induced resilience type soundproof wall.

6, all of the outlet doors 212 of the inlet door 321 are kept closed by the elastic members 213 and 322 in a state in which the wind is not blown toward the soundproof wall 100. As shown in FIG. Therefore, the noise can be blocked by the front grill 300 and the sound absorbing member 400 when the noise is generated, and the noise can be prevented from being transmitted to the rear of the soundproof wall 100. In a situation where the wind is not blowing, the inlet door 321 and the outlet door 212 are kept closed to prevent dust or foreign substances from entering the outside.

In this state, when the wind is blown toward the soundproof wall 100, the inlet door 321 can be opened by the wind pressure. The opening of the inlet door 321 causes the wind to flow in turn along the input portion 510 of the flow path member 500 along the passage portion 530 and the output portion 520. By opening the outlet door 212 And can be discharged to the rear of the soundproof wall 100.

That is, the wind blowing toward the soundproof wall 100 can be discharged to the rear of the soundproof wall 100 through the channel member 500. As a result, the soundproof wall 100 is hardly affected by the wind pressure or is very little affected.

Noise can be partially introduced into the passage member 500 while the entrance door 321 and the outlet door 212 are opened to expose the passage space of the passage member 500. However, Is dispersed or absorbed in the process of passing through the passage member (500), so that no noise is transmitted to the rear of the soundproof wall (100).

That is, air can be passed through the passage member 500, thereby preventing noise from being transmitted through the passage member 500 while eliminating the wind pressure applied to the soundproof wall 100.

It should be noted that the present invention is not limited to the above-described embodiments, and various other embodiments may be possible. Hereinafter, a ventilation soundproofing wall according to another embodiment of the present invention will be described in detail with reference to the drawings.

Other embodiments of the invention differ only in the structure of the flow path member, and the other structures are the same as those of the above-described embodiment, and thus the same reference numerals are used for the same components, and a detailed description thereof will be omitted.

FIG. 8 is a cross-sectional view of a wind-noise resisting type soundproof wall according to a second embodiment of the present invention. FIG.

As shown in the figure, the wind-noise resisting type soundproof wall 100 according to the second embodiment of the present invention is formed in an outer shape by an outer case 200 and a front grill 300, A channel member 500 and a sound-absorbing member 400 may be provided.

The flow path member 500 may be configured to connect the inlet port 511 and the outlet ports 543 and 544 and the inlet port 511 and the outlet ports 543 and 544 are connected to the inlet port 321 and the outlet port 212 Can be opened and closed. Therefore, when the wind is blown toward the soundproof wall 100, the entrance door 321 and the outlet door 212 are opened so that the wind in front of the soundproof wall passes through the passage member 500, So that the wind pressure applied to the soundproof wall 100 can be relieved.

The passage member 500 may include an input unit 510, a passage unit 530, and an output unit 540. The input unit 510 may be connected to the inlet 511 and the output unit 540 may be connected to the outlet 543 and 544. The passage unit 530 may be configured to connect the input unit 510 and the output unit 540.

The output unit 540 includes a plurality of output units 540. The output unit 540 may distribute the air introduced from the input unit 510 to the rear of the soundproof wall 100. [

In detail, the output unit 540 may include a first output unit 541 and a second output unit 542. The first output unit 541 and the second output unit 542 are disposed at a side away from the input unit 510 and the second output unit 542 is located at one end of the soundproof wall 100, The first output unit 541 may be located between the second output unit 542 and the input unit 510. At this time, as the positions of the first output unit 541 and the second output unit 542 are further away from the position of the input unit 510, the noise blocking effect may be increased.

The first output portion 541 and the second output portion 542 have a first discharge port 543 and a second discharge port 544 respectively and the first discharge port 543 A first outlet door 212a and a second outlet door 212b may be provided.

Meanwhile, the present invention may be various other embodiments in addition to the above-described embodiments. Hereinafter, a ventilation soundproofing wall according to another embodiment of the present invention will be described in detail with reference to the drawings.

The other embodiments of the present invention differ only in the structure of the flow path member, and the other structures are the same as those of the above-described embodiment, and thus the same reference numerals are used for the same constituent elements, and a detailed description thereof will be omitted.

9 is a cross-sectional view of the wind-noise resisting type soundproof wall according to the third embodiment of the present invention.

As shown in the drawing, the wind-noise resisting type soundproof wall 100 according to the third embodiment of the present invention is formed in an outer shape by an outer case 200 and a front grill 300, A channel member 500 and a sound-absorbing member 400 may be provided.

The flow path member 500 may be configured to connect the inlet port 511 and the discharge port 521. The inlet port 511 and the discharge port 521 may be connected to each other by an inlet door 321 and an outlet door 212 Can be opened and closed. Therefore, when the wind is blown toward the soundproof wall 100, the inlet door 321 and the outlet door 212 are opened so that the wind in front of the soundproof wall 100 passes through the channel member 500, 100), so that the wind pressure applied to the soundproof wall 100 can be relieved.

The sound absorbing member 400 may be provided between the flow path member 500 and the front grill 300. The sound absorbing member 400 may be spaced apart from the flow path member 500 so that a sound insulating space 110 may be formed between the sound absorbing member 400 and the flow path member 500. The sound insulating space 110 may be formed as a space in which the air layer is formed to separate the shock absorbing member 400 from the flow path member 500 to minimize noise transmission.

The length of the input unit 510 of the passage member 500 may be longer than the length of the output unit 520 so that the space between the sound absorbing member 400 and the passage member 500 may be spaced apart. So that the space between the passage portion 530 and the sound absorbing member 400 can be spaced apart.

Due to such a structure, the noise transmitted through the front grill 300 is primarily reflected by the front grill 300, can be secondarily absorbed by the sound-absorbing member 400, So that the transmission can be blocked by the transmission unit 110 in a tertiary manner. Accordingly, noise transmitted through the sound barrier 100 can be minimized.

Meanwhile, the present invention may be various other embodiments in addition to the above-described embodiments. Hereinafter, a ventilation soundproofing wall according to another embodiment of the present invention will be described in detail with reference to the drawings.

The other embodiments of the invention differ only in the direction in which the front grille, the inlet door and the flow path member extend, and the other components are the same as those in the above embodiment, and thus the same reference numerals are used for the same components, .

10 is a perspective view of a wind-noise resisting type soundproof wall according to a fourth embodiment of the present invention.

As shown in FIG. 10, the wind-noise resisting type soundproof wall 100 'according to the fourth embodiment of the present invention is a unit constituting the entire sound barrier wall assembly 1, and a plurality of the soundproof wall 100' Can be configured to be mounted on the soundproof wall frame 2 to form the entire sound barrier assembly 1.

The soundproof wall 100 'may have a front surface formed by a front grille 300', and the front grille may include a plurality of grills 310 'extending in a lateral direction. The plurality of grills 310 'may be inclined and continuously arranged in the vertical direction. An inlet opening 320 'of the flow path member may be formed at an upper end of the front grill 300' and an inlet door 321 'may be formed to extend in the horizontal direction so as to open and close the flow path member inlet opening 320' It can be formed long.

That is, the soundproof wall 100 'according to the fourth embodiment of the present invention is the same as the soundproof wall 100 of the first embodiment described above, but only in the extension direction. Therefore, it can be seen that the shape of the passage member and the shape of the exit door, not shown, also have a structure extending in the transverse direction.

Claims (13)

An outer case forming an outer shape and providing space therein;
And a flow path member provided inside the outer case and forming a flow path for guiding the wind introduced from the front and discharging it to the rear,
Wherein the flow path member comprises:
An input unit that is opened through one surface of the outer case and into which air is introduced by wind;
An output unit that is opened through another surface of the out case opposite to the input unit and formed at one end of the input unit,
And a passage portion connecting the input portion and the passage portion inside the outer case, the passage portion extending in a direction intersecting the extending direction of the input portion and the output portion.
The method according to claim 1,
Wherein the input unit and the output unit are disposed at both left and right ends of a front surface and a rear surface of the outer case, respectively.
3. The method of claim 2,
Wherein the passage portion extends along the extending direction of the out-casing.
The method according to claim 1,
Wherein an extended length of the input portion and the output portion is formed to be longer than an inner width of the passage portion.
The method according to claim 1,
Wherein the passage member is made of a polyester material.
6. The method of claim 5,
And a plurality of concavo-convex shapes for dispersing and absorbing sound waves are formed in the passage space through which air flows in the passage member.
The method according to claim 1,
Wherein the plurality of output portions are provided on the same side of the outer case at a side away from the input portion.
The method according to claim 1,
The outer case has a front opening,
Wherein the front grill comprises a plurality of grilles arranged continuously and inclined at regular intervals on the open front face of the outer case.
9. The method of claim 8,
And a plate-shaped sound absorbing member for shielding the front grill at a rear surface of the front grill and blocking noise introduced through the front grill.
10. The method of claim 9,
Wherein the sound absorbing member is formed to fill a space between the front grill and the passage portion.
10. The method of claim 9,
Wherein the sound absorbing member is disposed on a rear surface of the front grill and is spaced apart from the passage portion,
And a sound-isolating space spaced apart from the sound-absorbing member and the passage portion.
The method according to claim 1,
Wherein an opening of the input unit and an opening of the output unit are provided with an inlet door and an outlet door for opening and closing the input unit and the output unit according to the flow of air.
13. The method of claim 12,
The inlet door and the outlet door are provided with elastic members,
Wherein the elastic member is configured to maintain the inlet door and the outlet door in a closed state when airflow is not generated by wind through the flow path member.

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