KR100954149B1 - Variable height sound wall - Google Patents

Abstract

PURPOSE: A soundproof wall capable of varying the height is provided to automatically control the height of the soundproof wall when noise is high, and to secure sunshine and view. CONSTITUTION: A soundproof wall capable of varying the height comprises a foundation(1), fixed soundproof walls(2), moving soundproof walls(3), and a drive unit(4). The foundation is installed in the ground. The fixed soundproof walls are composed of columns(21) and fixed soundproof plates(22). The moving soundproof walls expand or contract the fixed soundproof walls. The drive unit is coupled to the foundation and the moving soundproof wall, and expands or contracts the moving soundproof wall.

Description

Variable Height Sound Wall

TECHNICAL FIELD The present invention relates to noise control technology in the field of environment, and more particularly, to a variable height sound barrier that can raise or lower height depending on wind load, sun altitude, noise level, and time zone.

Recently, various means such as soundproof walls, soundproof tunnels, soundproof forests, etc. have been mobilized to reduce road traffic noise. However, in the case of the soundproof tunnel, it is not widely distributed due to various problems such as mining, internal dust generation, and installation cost, and the soundproof forest is not widely distributed due to its small soundproofing effect and occupies a lot of sites. Therefore, a soundproof wall is most commonly installed as a means for reducing road traffic noise. As shown in FIG. 1, a conventional soundproof wall forms a foundation 300 with concrete at the end of a road, and at a predetermined interval on the foundation. The post 200 is erected and installed in such a way as to install the soundproof plate 100.

The sound insulation panel 100 has a sound insulation performance of a certain level or more to prevent noise from directly penetrating the soundproof wall, and the sound is absorbed from the side of the soundproof wall where the noise is incident to increase the noise by the reflected sound on the opposite side of the soundproof wall. It is manufactured to prevent it. As the soundproof plate used therein, various types of soundproof plates, such as metal soundproof plates, transparent soundproof plates, and concrete soundproof plates, which are filled with sound-absorbing materials therein, are used for each purpose.

The noise reduction mechanism by soundproof wall is negative diffraction attenuation. The principle of diffraction attenuation is as follows.

If there are no obstacles between the sound source and the sound collection point, the sound wave is transmitted from the sound source to the sound collection point directly in the transmission path d as shown in FIG. However, if there is an obstacle with sufficient sound insulation between the sound source and the sound collection point, the sound from the sound source reaches the sound collection point along the diffraction path (A + B) through the top of the obstruction, and thus the sound volume when the sound diffracts. Is reduced.

A barrier artificially installed for diffraction in the course of sound transmission for the purpose of noise reduction is called a soundproof wall, and the amount of attenuation of the soundproof wall is determined by the path difference δ. If the sound source and the sound collection point are constant, the path difference depends solely on the height of the sound barrier. Various equations for calculating the negative diffraction noise by the barrier are known, but the following equations are frequently used to calculate the amount of diffraction reduction of the sound barrier against the road traffic noise.

As can be seen from the above equation, the amount of attenuation of the soundproof wall is determined solely by the path difference δ. That is, the larger the path difference, the larger the amount of diffraction reduction. Therefore, in order to obtain high damping amount, the soundproof wall should be installed high. That is, the most basic matter in the design of a soundproof wall is to determine the height of a soundproof wall.

Since the effect of the soundproof wall is basically determined by the height of the soundproof wall as described above, to achieve a noise reduction effect above a certain level, the soundproof wall should be installed high. In particular, if there are high-rise apartments or high-rise buildings in the area adjacent to the road, the high-rise households that are not covered by the sound-proof walls have no soundproofing effect.

, ρ : 공기밀도, v : 벽과 수직인 바람의 속도성분)에 벽의 면적을 곱한 것인데, 방음벽이 높을 경우 바람을 받는 면적이 커지고, 이에 따라 풍하중도 크게 작용한다. 방음벽에 센 바람이 불 경우, 방음벽은 큰 풍하중을 받게 되어 방음벽이 전복될 염려가 있다. 높이가 높은 방음벽이 전복될 경우 인명피해를 유발할 염려가 있고, 차량의 통행을 불가능하게 하여 도로교통을 마비시킬 염려가 있다. 따라서 높이가 높은 방음벽의 경우 예상되는 최대 풍속의 풍하중을 견딜 수 있도록 지주(200)와 기초(300)를 아주 튼튼히 하여야 하고, 그만큼 공사비가 증가하는 문제점이 있다.The magnitude of the wind load acting on the wall is determined by the dynamic pressure (=

, ρ: air density, v: wind velocity perpendicular to the wall), multiplied by the area of the wall. If the soundproof wall is high, the area receiving wind increases, and wind load also acts greatly. If the wind blows on the sound barrier, the sound barrier receives a large wind load, which may overturn the sound barrier. If the high-level sound barrier is overturned, there is a risk of causing injury to people, and it is possible to paralyze road traffic by disabling traffic. Therefore, in the case of a high soundproof wall, the shore 200 and the foundation 300 must be made very strong to withstand the wind load of the expected maximum wind speed, and there is a problem in that construction cost increases.

In addition, the sound barrier has a form of a high barrier, there is a problem to block the sun, and to damage the view. Recently, the right of sunshine and the right of view have emerged as a property of the right of property value, and the normal sound-proof walls are sacrificed to sunshine and view for noise reduction.

As described above, a normal soundproof wall must have a high height of the soundproof wall in order to increase the degree of noise reduction. Such a high soundproof wall forms a huge enclosed barrier to block sunlight and damage the view. In addition, if a large wind such as a typhoon wind load acts greatly, there is a risk that the sound barrier falls. Therefore, in consideration of the maximum wind speed that can be expected, the construction cost must be strengthened in order to withstand the wind load and the construction cost is increased.

Therefore, there is a need for a soundproof wall of varying height to enable sunshine and view, which are disadvantages of the soundproof wall, and to avoid the effects of wind loads.

Sunlight and vistas are mainly needed during the day. On the other hand, noise in residential areas (especially high-rise apartments) should be low, mainly when people go to bed at night. In other words, the time zone where noise is a problem and the time zone where sunshine and view are needed are different. In addition, road traffic noise is not a big problem in the winter when the windows are mostly closed, and road traffic noise is a big problem in the summer when the door is open. And countermeasures against wind loads are especially necessary when there are large winds, such as typhoons.

The soundproof wall of the present invention includes a fixed soundproof wall having a predetermined height, a movable soundproof wall that can be contracted into the fixed soundproof wall or extended above the fixed soundproof part, and a driving device for extending or contracting the movable soundproof wall, wherein the height of the soundproof wall is variable. It is a soundproof wall that can be changed. The sound barrier is equipped with a noise sensor, a wind pressure sensor, and a solar position tracking sensor, and the height of the sound barrier is automatically adjusted according to the sun's altitude, wind strength, noise level, and time zone. In addition, the present invention may be provided with a wind power generator or a solar generator to produce a driving force in itself.

The soundproof wall of the present invention to maintain the soundproof wall is usually low height to ensure sunshine and vista, when the noise is high, especially when the time of sleep, such as the night when people go to bed, the soundproof wall is raised A large noise reduction can occur, and when a large wind blows, the noise barrier can be lowered to avoid a large wind load.

It also detects noise level, wind strength, and sun altitude on the rotating soundproof panel, and automatically adjusts its height according to the need.The soundproof wall is raised to guarantee sunshine and vista during periods or seasons when sunshine and vista are needed. When the required time zone or noise level is high, the soundproof wall is increased to increase the noise reduction performance, and when the wind blows, the soundproof wall is lowered to avoid a large wind load.

3 and 4, the present inventors have a height variable soundproof wall (1), a fixed soundproof wall (2) having a predetermined height installed on the ground of the position where the soundproof wall is to be installed, The soundproof wall is provided with a movable soundproof wall 3 which can be retracted into the interior of the fixed soundproof wall 2 or can be extended above the fixed soundproof wall 2, and a driving device 4 which extends or contracts the movable soundproof wall 3. It is a soundproof wall that can change the height of.

The soundproof wall is equipped with a controller (8) with a noise sensor (5), a wind pressure sensor (6), and a solar position tracking sensor (7). The height of the sound barrier is automatically adjusted according to the set time zone and season.

And the power required to drive the drive device 4 is usually to use the commercial electricity supplied from the outside, but in the back country, such as difficult to use commercial electricity by using the wind power generator 9 or the photovoltaic generator 10 Can be developed and used. The wind power generator 9 or the photovoltaic generator 10 for this purpose is a lot of commercialization, so it may be used by selecting a suitable capacity.

The foundation 1 is the same as the foundation of a normal soundproof wall.

The fixed soundproof wall 2 is installed on the base 1, and is similar to the conventional soundproof wall formed by fixing the fixed soundproof plate 22 between the pillars 21 and the pillars, which are installed in a plurality, in a row. . The pillar 21 should be provided with a guide for guiding the movable sound barrier 3 to be raised or lowered. The fixed soundproof plate 22 is attached to one flange of the H-beam using an H-beam, which is a structural steel, as the material of the pillar. The other flange can be fixed and guided to the movable sound barrier 3.

The fixed soundproof plate 22 is a plate-shaped component that prevents sound from directly transmitting. The fixed soundproof plate 22 may be manufactured in one large plate, and may be manufactured in a predetermined size (typically 50 cm × 200 cm) to facilitate handling and installation work. A plurality of plates may be stacked in succession. As the fixed sound insulation board 22, all kinds of sound insulation boards used for a normal sound insulation wall, such as a soundproof soundproof board, a concrete soundproof board, a transparent soundproof board, can be used.

The movable soundproof wall 3 extends or contracts along the pillar 21 of the fixed soundproof wall 2 and overlaps the fixed soundproof wall 2 or extends to the upper end of the fixed soundproof wall 2, and is made of a plate-like material. A guide frame 32 attached to both edges of the soundproof plate 31, the movable soundproof plate 31, and capable of raising or lowering along a guide provided in the pillar 21 of the fixed soundproof wall 2, and a driving device ( 4) is composed of a drive bracket 33 is coupled.

The movable soundproof plate 31 is made of a plate having a certain surface density (mass per unit area of the plate, multiplied by the thickness of the material) and having a noise transmission loss of a certain level or more, but all materials may be used. Polycarbonate plates, which are widely used as soundproof panels for transparent soundproof walls, are light in weight and require less driving power, and a certain degree of light and view can be guaranteed.

The guide frame 32 is attached to both side surfaces of the movable soundproof plate 31 to reinforce the movable soundproof plate 31, and the movable soundproof plate 31 along the guide formed in the pillar 21 of the fixed soundproof wall 2. Allow to ascend or descend. As shown in the plan perspective view of FIG. 4, the guide frame 32 has a plate fixing groove 321 to fix the movable soundproof plate 31, and has a guide groove 322 to serve as a guide. In this case, one side of the guide beams 32 on both sides of the H-beam pillar may be manufactured so as to protrude from the outer surface of the guide groove 322 to cover the guide frame of the adjacent movable soundproof plate 31. It is preferable to have a cover 323 to be able to. In this way, if the cover 323 is provided on one side of both guide frames 32, a gap is not generated between adjacent movable soundproof walls 3 when the movable soundproof walls 3 are extended above the fixed soundproof walls 2, so as to form a gap. To prevent the leakage of noise.

Since the guide frame 32 is a wire rod having a relatively complicated cross section, it is possible to produce a large amount by extruding a material that can be extruded, such as aluminum and plastic.

The driving bracket 33 is attached to the movable soundproof plate 31, and the driving device 4 for raising or lowering the movable soundproof wall 3 is coupled. It is preferable to attach this drive bracket 33 on the vertical center line of the upper, middle, or lower end of the upper part of the movable soundproof board in view of the balance of force.

The driving device 4 functions to push the movable sound barrier 3 over the fixed sound barrier in order to increase the height of the entire sound barrier. As the driving device, all kinds of driving devices capable of lifting and lowering objects, such as hydraulic, pneumatic, screw, winch, gear, and electric actuator, can be used. The driving device 4 is fixed to the fixed portion of the soundproof wall, such as the foundation 1 of the soundproof wall or the fixed soundproof wall 2, and the portion to which the force is applied is coupled to the movable soundproof wall 3 to move the movable soundproof wall 3 above the fixed soundproof wall. Push it up or down.

As the driving device 4, a hydraulic pneumatic driving device 4-1 using a hydraulic actuator or a pneumatic actuator (collectively referred to as "hydraulic pneumatic actuator") as shown in Fig. 5 can be used. The pneumatic actuator 4-1 uses a pneumatic actuator that is widely used for various industrial purposes. A piston (not shown) is provided inside the cylinder 4-11 constituting the body, and the piston 4-12 is coupled, the piston is raised or lowered according to the injection direction of air (or nitrogen gas) or hydraulic hydraulic oil supplied to the cylinder 4-11, and thus the rod 4-12 is raised or lowered. Descend.

In the case of using the hydropneumatic drive device 4-1 as a drive device, the cylinder 4-11 is fixed to the fixed soundproof plate 22, and the end of the rod 4-12 is driven to the movable soundproof plate 31. (Or vice versa, the cylinder may be fixed to the movable soundproof plate, and the end of the rod may be coupled to the fixed soundproof plate).

In the case of using the pneumatic actuator 4-1 as a driving device, the hydraulic pneumatic actuator used therein is operated by supplying high pressure hydraulic oil or compressed air to the cylinder 4-11. Although not shown) may be provided separately for each drive device, it is preferable to provide a pipe and a valve so that the high-pressure hydraulic oil or compressed air discharged from one pump is supplied to the plurality of hydraulic air actuators.

In order to raise the soundproof wall, the pneumatic drive device 4-1 is extended to push up the movable soundproof plate 31, and in order to lower the soundproof wall, the pneumatic drive device 4-1 is shrunk to shrink the movable soundproof plate 31. Down.

As another type of drive device 4, a gear type drive device 4-2 as shown in Fig. 6 can be used. The gear type drive device 4-2 is connected to a drive motor 4-21 attached to the fixed soundproof plate 22, a pinion 4-22 rotating to a shaft of the drive motor, and a movable soundproof plate 31. It consists of a rack 4-23 to which it is attached. The drive motor 4-21 has a built-in reducer or can be used by connecting the reducer to the shaft of the drive motor (or, conversely, attaching the rack 4-23 to the fixed soundproof plate and operating the drive motor 4-21. It can also be fixed to the sound insulation board.)

In the case of using the gear type drive device 4-2, when the drive motor 4-21 is supplied with electricity and rotated, the pinion 4-22 rotates to push up the rack 4-23 held by the pinion, As a result, the movable sound barrier 3 rises. When lowering the movable sound barrier, the shaft of the drive motor is rotated in reverse to reverse the direction of rotation of the pinion.

As another type of drive device 4, a screw drive device 4-3 as shown in Fig. 7 can be used. The screw type drive device 4-3 includes a nut 4-31 attached to the fixed soundproof wall 2, a drive motor 4-32 attached to the drive bracket 33 of the movable soundproof wall, and a shaft of the drive motor. It consists of a screw 4-33 which is connected and rotates. The drive motor 4-32 may have a built-in reducer or may be used by connecting the reducer to the shaft of the drive motor. Driving means made of nuts and screws are used in a variety of industrial machinery, but recently, since the ball screw has been developed and marketed to minimize friction, it is good to use it.

In the case of using the screw drive device 4-3, when the drive motor 4-32 is supplied with electricity and rotated, the screw 4-33 is screwed into the nut 4-31, which is fixed to the fixed soundproof wall 2. At the rotation, the movable sound-proof wall to which the screw (4-33) is attached is raised. In order to lower the movable sound barrier, the shaft of the drive motor may be rotated in reverse to reverse the direction of rotation of the screw.

8 shows a state in which the height of the soundproof wall is increased or lowered, (a) is a state in which the soundproof wall is increased by the hydraulic-pneumatic drive device 4-1 extending, and (b) is a hydraulic-pneumatic drive device 4-1. Is contracted and the sound barrier is lowered.

As shown in FIG. 9, the soundproof wall of the present invention can be constructed such that the fixed soundproof wall 2 and the movable soundproof wall 3 are curved so that their cross-section is part of an arc. If the sound barrier is composed of curved sound barriers and the concave side of the sound barrier is directed toward the sound source (the road side in the case of road sound barriers), the top of the sound barrier is biased toward the sound source in the same way as the straight sound wall where the top is refracted, and the diffraction path becomes longer. Therefore, the noise reduction effect is increased. In particular, if there is a high-rise apartment on the side of the road, the curved soundproof wall has a wider range of shielding the sound source, so the noise reduction effect of the soundproof wall can be seen even at the high floor of the apartment. As a drive device for such a curved soundproof wall, a gear type drive device 4-2 is suitable as shown.

As shown in FIG. 3, the soundproof wall is provided with a controller 8 together with a noise sensor 5, a wind pressure sensor 6, or a solar position tracking sensor 7 so that the height of the soundproof wall is a noise level, a wind. The height of the sound barrier can be adjusted automatically according to the intensity of the sun, the altitude of the sun, and the time zone and season. The noise sensor 5, the wind pressure sensor 6, or the solar position tracking sensor 7 may be attached at any position of the soundproof wall, but may be attached to the road side of the fixed soundproofing plate 22.

As the noise detecting sensor 5 that can be used for the soundproof wall of the present invention, a microphone used for measuring the noise level can be used. If the noise level is continuously detected by the noise sensor 5, the controller 8 sends a command to raise the sound barrier to the drive unit 4, and the noise level below the predetermined level is sent to the noise sensor 5. If this is continuously detected, the controller 8 sends a command for operating the soundproof wall to the drive device 4.

, ρ : 공기밀도, v : 벽과 수직인 바람의 속도성분)이 발생하는데, 태풍과 같이 큰 바람이 불어 동압력이 일정 이상이 되면 컨트롤러(8)에서 구동장치(4)에 방음벽을 내리는 작동을 하는 명령을 송출하고, 동압력이 일정 이하가 되면 컨트롤러(8)에서 구동장치(4)에 방음벽을 올리는 작동을 하는 명령을 송출한다.The wind pressure sensor 6 may be provided on the soundproof wall. As the wind pressure sensor, all kinds of sensors capable of detecting pressure may be used. If the wind blows on the soundproof wall, the dynamic pressure (=

, ρ: air density, v: wind velocity perpendicular to the wall), and when a large wind such as a typhoon blows up the dynamic pressure to a certain level, the controller (8) lowers the sound barrier to the drive (4). When the dynamic pressure falls below a certain level, the controller 8 sends a command to the drive device 4 to raise the sound barrier.

In addition, the solar position tracking sensor 7 may be provided on the soundproof wall. Although there are various types of the solar position tracking sensor 7, shadows are formed on a plate provided with a plurality of photocells whose electric quantity changes according to the light intensity. The solar position identification means for identifying the position of the sun by recognizing the position of the shadow generated by the rod is provided and used. The solar position tracking sensor 7 sends the position information of the sun (mainly the altitude of the sun) to the controller 8, and the controller 8 sends an operation to the driving device 4 to raise or lower the soundproof wall according to the sun's altitude. do.

The controller 8 may send an operation command for raising or lowering the soundproof wall to the driving device 4 when the sun and the view are needed for each time period such as daytime and nighttime, and for the seasons such as summer and winter. In addition, the controller 8 may input a time zone during which the sound barrier is opened and closed, and may control the operation of automatically raising or lowering the sound barrier at the start time and the end time of the time zone.

Such a controller 8 can be easily configured by a person with basic knowledge in the field of control.

The variable height sound barrier of the present invention is used to reduce noise pollution such as road noise and factory noise. The soundproof wall of the present invention can be particularly useful for noise prevention of high-rise apartments or high-rise buildings built in an area adjacent to the road.

1 is a shape of a normal soundproof wall.

2 shows a negative diffraction path by the sound barrier.

3 is an overall configuration diagram of a variable height sound barrier according to the present invention.

4 is a plan perspective view.

5 is an attachment portion of the pneumatic actuator.

6 is an attachment portion of the gear type drive device.

7 is an attachment portion of the screw type drive device.

8 is an operational state diagram of a straight soundproof wall employing a hydraulic-pneumatic driving device.

9 is an operational state diagram of a curved soundproof wall employing a gear drive.

※ Important Component Number

1: foundation, 2: fixed soundproof wall, 3: movable soundproof wall, 4: driving device,

5: noise sensor, 6: wind pressure sensor, 7: solar position tracking sensor, 8: controller,

9: wind power generator, 10: solar power generator

4-1: Pneumatic drive device, 4-2: Gear drive device,

4-3: screw drive,

21: pillar, 22: fixed soundproof plate,

31: movable soundproof plate, 32: guide frame, 33: driving bracket,

Claims (8)

Foundation (1) is installed on the ground of the position where the sound barrier is to be installed; A plurality of pillars 21 are arranged in a row at a predetermined interval on the foundation 1, and a fixed soundproof plate is fixed to one side flange of two H-beams adjacent to each other, the pillar 21 being made of an H-beam ( A fixed soundproof wall 2, consisting of 22); The movable soundproofing plate 31 and the movable soundproofing plate 31 as being raised or lowered along the column 21 by being fitted to a flange to which the fixed soundproofing plate 22 of two H-beams adjacent to each other, which are the pillars 21, are attached. The guide frame 32 is provided with a plate fixing groove 321 fixed to the fitting and the guide groove 322 that can be moved up and down by inserting the flange of the H-beam that is the pillar 21 of the fixed soundproof wall (2) A movable soundproof wall (3) configured to expand or contract over the fixed soundproof wall (2); And, the driving device is fixed to the fixed soundproof wall (2) or the base (1), the portion to apply a force is coupled to the movable soundproof wall (3) to extend or contract the movable soundproof wall (3) over the fixed soundproof wall ( 4); It is configured to include, variable height soundproof walls. delete The method of claim 1, One of the two guide frames 32 of the movable soundproof wall 3 is provided with a cover 323 to protrude from the outer surface of the guide groove 322 to cover the guide frame 32 of the adjacent movable soundproof plate 31. As one guide frame 32, A variable height soundproof wall, characterized in that no gap is formed between adjacent movable soundproof walls 3 when the movable soundproof walls 3 are extended over the fixed soundproof walls 2. The method of claim 1, The drive device 4 is provided with a piston inside the cylinder 4-11, which is coupled with a rod 4-12 that protrudes and extends or contracts outside the cylinder 4-11. As a hydraulic actuator or pneumatic actuator, The cylinder 4-11 is fixed to the foundation 1 or the fixed soundproof wall 2 of the soundproof wall, and the rod 4-12 is coupled to the movable soundproof wall 3, thereby providing a pneumatic pneumatic drive device (4-). A variable height soundproof wall, characterized in that the movable soundproof wall 3 rises or descends above the fixed soundproof wall 2 as 1) expands or contracts. The method of claim 1, The drive device 4 includes a drive motor 4-21 attached to the fixed soundproof wall 2, a pinion 4-22 that is connected to the shaft of the drive motor 4-21, and rotates. As a gear type drive device 4-2 composed of a rack 4-23 attached to the soundproof wall 3, In accordance with the operation of the drive motor 4-21, the pinion 4-22 is rotated, characterized in that the movable sound-proof wall (3) to which the rack 4-23 is attached rises or falls above the fixed sound-proof wall (2), Variable height soundproof walls. The method of claim 1, The drive device 4 is connected to the nut 4-31 attached to the fixed soundproof wall 2, the drive motor 4-32 attached to the movable soundproof wall 3, and the shaft of the drive motor. A screw type drive device 4-3 composed of a screw 4-33 which is coupled to a nut 4-31 and rotates, As the screw 4-33 rotates according to the operation of the drive motor 4-32, the movable sound-proof wall 3 to which the drive motor 4-32 is attached is raised or lowered above the fixed sound-proof wall 2. Soundproof walls, variable height. The soundproof wall of claim 1, wherein the variable height soundproof wall comprises: At least one of a noise sensor 5, a wind pressure sensor 6, and a sun position tracking sensor 7; And receiving at least one of a noise level, a wind strength, and a sun altitude signal from each of the sensors, and transmitting a signal to the driving device 4, the signal being operable to adjust the height of the soundproof wall. A controller 8; Further comprising, the height of the soundproof wall, characterized in that automatically adjust the height of the soundproof wall according to the wind strength and the sun's altitude or set time, variable height soundproof wall. The soundproof wall of claim 1, wherein the variable height soundproof wall comprises: Further comprising a wind power generator (9) or a photovoltaic generator (10), characterized in that for producing the power required for the height adjustment operation of the soundproof wall in itself, variable height soundproof wall.

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