KR20060099165A - Apparatus for ventilation in soundproof tunnel - Google Patents

Abstract

The present invention includes a soundproof tunnel having a reflection portion in the main body and a through-hole formed in the main body; In order to prevent the noise inside the soundproof tunnel from being directly radiated through the ventilation hole, the noise direct radiation prevention means installed adjacent to the ventilation hole; by presenting a ventilation device of the soundproof tunnel, ventilation of the soundproof tunnel Try to reduce the noise emitted by the ball.

Soundproof Tunnels, Ventilation, Noise

Description

Ventilation device for soundproof tunnel {APPARATUS FOR VENTILATION IN SOUNDPROOF TUNNEL}

1 to 8 show the ventilation device of the soundproof tunnel according to the present invention,

1 is a longitudinal sectional view of the first embodiment;

2 is a partial perspective view of the first embodiment;

3 is a longitudinal sectional view of the second embodiment;

4 is a partial perspective view of a third embodiment;

5 is a longitudinal sectional view of the fourth embodiment;

6 is a partial perspective view of a fourth embodiment.

7 is a longitudinal sectional view of the fifth embodiment;

8 is a partial perspective view of a fifth embodiment;

9 is a perspective view of a conventional soundproof tunnel.

** Description of the symbols for the main parts of the drawings **

100: soundproof tunnel 110: reflecting unit

120: ventilator 200: noise direct radiation prevention means

210: Duct structure 210a, 210b: A pair of duct structure

211: inlet 211a, 211b: a pair of inlet

220: noise radiation prevention plate 221: gap maintenance

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roadbed soundproof structure, and more particularly, to a ventilation device capable of reducing noise emitted through a ventilation hole of a soundproof tunnel.

Street soundproof structures are installed on roadsides such as roads, overpasses, bridges, etc., which attenuate noises such as friction and horn generated by vehicles traveling on the road, thereby lowering the overall noise distribution in the surrounding area below a certain standard. Refers to the structure for abatement measures.

Conventionally, soundproof structures in the form of soundproof walls have been used, which adopts the principle of reducing the amount of noise transmitted to the surroundings by reflecting or absorbing noise generated on the road.

However, in recent years, since high-rise buildings are generally constructed around roads, noise propagating upwards is transmitted as it is to the surrounding high-rise buildings regardless of the soundproof walls. Soundproof tunnels have been developed.

9 is a perspective view showing a conventional general soundproof tunnel.

As shown, the conventional soundproof tunnel includes a plurality of arcuate frames 20, both ends of which are fixed on the road and whose overall shape is close to a circular shape, and reflecting plates 10 that are stacked and installed between the arcuate frames 20. It is constructed, and the ventilation hole 11 for ventilating the air inside the tunnel is generally formed in the upper portion of the reflecting plate 10.

Therefore, the soundproof tunnel of such a structure makes it possible to relatively completely prevent the noise generated on the road from propagating to the outside. That is, not only the noise propagating to the side, but also to prevent the noise propagating to the upper surface, it is possible to prevent the noise propagating to the adjacent high-rise building.

However, the conventional soundproof tunnel has been pointed out as a problem in that there is no separate consideration regarding the structure for preventing the noise radiated through the ventilation hole (11).

In particular, when the length of the tunnel is long, since the ventilation of the air in the tunnel is absolutely necessary, a number of ventilation holes 11 have been highlighted as a problem in that it is essential.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a ventilation device having a structure to reduce the noise emitted through the ventilation hole of the soundproof tunnel.

The present invention, in order to achieve the object as described above, and provided with a reflection portion in the main body, the soundproof tunnel through the ventilation hole formed in the main body; In order to prevent noise inside the soundproof tunnel from being directly radiated through the ventilation hole, a noise direct radiation prevention means installed adjacent to the ventilation hole is provided.

The noise direct radiation preventing means includes an inlet for forming a flow path that is refracted with respect to the flow path passing through the ventilation hole, and covers the ventilation hole to form a sealed flow path from the inlet to the ventilation hole. It may be implemented including a duct structure to be installed.

It is preferable that the duct structure takes a structure provided inside the main body.

The duct structure preferably takes a structure installed such that a flow passage passing through the ventilation hole and a flow passage passing through the inlet are intersected at right angles to each other.

The duct structure preferably takes a structure provided such that the inlet is formed rearward with respect to the vehicle traveling direction inside the soundproof tunnel.

A reciprocating lane road is formed inside the soundproof tunnel, and a pair of duct structures are installed on the left and right sides with respect to the traveling direction of the soundproof tunnel, and the inlet of the pair of duct structures is a vehicle traveling direction of the reciprocating lane road. It may take a structure installed so as to be formed in the rear with respect to each.

The duct structure may take a structure formed on both sides such that the inlet faces each other.

The noise direct radiation prevention means may be implemented to include a noise radiation prevention plate installed to be spaced apart from the main body by a spacing.

The noise radiation prevention plate preferably takes a structure provided on the outside of the main body.

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

As shown in Figures 1 to 3, the ventilation device of the soundproof tunnel according to the present invention is provided with a reflection unit 110 in the main body, the soundproof tunnel 100 through which the ventilation hole 120 is formed in the main body ; And noise direct radiation prevention means (200) installed adjacent to the ventilation hole (120) to prevent noise inside the soundproof tunnel (100) directly radiating through the ventilation hole (120). do.

Since noise is a kind of sound wave, it is greatly influenced by the degree of radiation as there is an obstruction on the flow path as it propagates toward the surroundings.

Since the conventional soundproof tunnel has a structure in which the noise is directly radiated through the ventilation hole 120, the noise leaking through this problem has been a problem, and the ventilation device of the soundproof tunnel according to the present invention has the ventilation hole 120 By installing the noise direct radiation prevention means 200 adjacent to the), to prevent the noise inside the soundproof tunnel 100 is directly radiated through the ventilation hole (120).

Hereinafter, two examples of the noise direct radiation prevention means 200 are presented.

First, as shown in Figures 1 to 6, the noise direct radiation prevention means 200 is provided with an inlet 211 to form a flow path refracted with respect to the flow path passing through the ventilation hole 120 and In addition, it may be implemented by the duct structure 210 is installed to cover the ventilation hole 120 to form a sealed flow path from the inlet 211 to the ventilation hole 120.

That is, the noise inside the soundproof tunnel is discharged to the outside through the flow path through the ventilation hole 120, the duct structure 210 having the inlet 211 and the flow path structure as described above installed covering the ventilation hole 120 around By doing so, the flow path between the inlet 211 and the vent hole 120 is refracted, so that the progress of the noise radiated therethrough is disturbed.

The duct structure 210 may be any structure as long as the flow path passing through the ventilation hole 120 and the flow path passing through the inlet 211 are refracted, but as shown in FIGS. 1 to 3, In the case where the structures are installed to cross at right angles to each other, the main body of the soundproof tunnel can be formed together with the duct structure 210, and thus it can be said to be preferable in terms of economy, ease of construction, and the like.

In addition, as shown in FIG. 3, the duct structure 210 preferably has a structure in which the inlet 211 is formed at the rear side with respect to the vehicle traveling direction inside the soundproof tunnel 100.

Since the degree of noise of the vehicle is greater in the forward direction of the vehicle than in the rear, and the frequency of the noise measured in the forward direction of the vehicle by the Doppler effect is higher than that of the rear, the soundproof tunnel is This is because it is advantageous to allow the noise of the rear of the vehicle to be emitted through the ventilation hole 120.

When a reciprocating lane road is formed in the soundproof tunnel 100, as shown in FIG. 4, the duct structure 210 is a pair 210a and 210b on the left and right sides with respect to the traveling direction of the soundproof tunnel 100. The installed structure may be taken. The above-described effects may be obtained by installing the inlets 211a and 211b of the pair of duct structures 210a and 210b to be formed at the rear with respect to the vehicle traveling direction of the reciprocating lane road. .

In addition, when the size of the soundproof tunnel 100 is small or requires a large amount of ventilation, as shown in FIGS. 5 and 6, the inlet 211 is applied to the duct structure 210 formed on both sides facing each other. You may.

Such a duct structure 210 may be installed anywhere inside or outside the main body of the soundproof tunnel 100, but in that it may take an efficient structure according to the traveling direction of the vehicle, which is installed inside the main body. It can be said that it is more preferable.

Second, as shown in Figures 7 and 8, the noise direct radiation prevention means 200 may be implemented by a noise radiation prevention plate 220 installed to be spaced apart from the main body by a spacing retainer 221. .

That is, by the noise radiation prevention plate 220 installed at a predetermined distance adjacent to the ventilation hole 120, the noise flowing into the ventilation hole 120 or the noise flowing out of the ventilation hole 120 is directly radiated. It is to prevent things.

The noise radiation prevention plate 220 may be installed anywhere inside or outside the main body of the soundproof tunnel 100, but as described above, since the duct structure 210 is preferably installed inside the main body, FIG. 7. As shown in, the anti-noise prevention plate 220 is installed on the outside of the main body, the duct structure 210 and the anti-noise prevention plate 220 is a composite structure installed on the inside and outside of the soundproof tunnel 100 body, respectively It would be most desirable to achieve this.

The present invention provides a ventilation device of the structure to reduce the noise emitted through the ventilation hole of the soundproof tunnel.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above Technical idea and the technical idea together with the basic will all be included in the scope of the present invention.

Claims (9)

A soundproof tunnel having a reflection portion in the main body, the ventilation hole is formed through the main body; And a noise direct radiation prevention means installed adjacent to the ventilation hole to prevent noise inside the soundproof tunnel from being directly radiated through the ventilation hole. The method of claim 1, The noise direct radiation prevention means And a duct structure that covers the ventilation hole so as to form a closed passage from the inlet to the ventilation hole, and includes an inlet for forming a channel that is refracted with respect to the passage passing through the ventilation hole. Ventilation of soundproof tunnels. The method of claim 2, The duct structure is a ventilation device of the soundproof tunnel, characterized in that installed on the inside of the main body. The method of claim 3, The duct structure And a flow path passing through the ventilation hole and a flow path passing through the inlet are perpendicular to each other. The method of claim 4, wherein The duct structure Ventilation device of the soundproof tunnel, characterized in that the inlet is installed to be formed in the rear, relative to the vehicle traveling direction inside the soundproof tunnel. The method of claim 5, A round trip lane road is formed inside the soundproof tunnel, The duct structure is provided with a pair is installed on the left and right sides with respect to the traveling direction of the soundproof tunnel, and the sound inlet is installed so that the inlet of the pair of duct structures are formed respectively behind the vehicle traveling direction on the reciprocating lane road. Ventilation of the tunnel. The method of claim 1, The duct structure Ventilation device of the soundproof tunnel, characterized in that the inlet is formed on both sides facing each other. The method according to any one of claims 1 to 7, The noise direct radiation prevention means Ventilation device of the soundproof tunnel, characterized in that it comprises a noise radiation prevention plate installed to be spaced apart from the main body by a gap retaining zone. The method of claim 8, The noise radiation prevention plate is a ventilation device of the soundproof tunnel, characterized in that installed on the outside of the main body.

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