KR200281810Y1 - A rotation type soundproofing walls for absorbed of wind pressure - Google Patents

Abstract

The present invention relates to a wind pressure absorbing rotary soundproof wall that is installed on the roadside to absorb the wind pressure while rotating when the wind pressure occurs.

The present invention provides an outer frame sandwiched between a support post and a support, a soundproof plate that is movable in the outer frame by a rotational shaft, and the soundproof panel is capable of rotating with elastic force in one direction about the rotation shaft in accordance with a wind pressure equal to or greater than the designed wind load. In the wind load absorbing rotary soundproof wall to allow the torsion spring, one end is fixed to the sound insulation plate and the other end is fitted to the outer frame is wound on the rotating shaft so that the elastic restoring force is generated during the rotation of the soundproof plate according to the wind pressure It is characterized by.

This means that if the wind pressure more than the design wind load acts on the soundproof panel, the soundproof panel is rotated to reduce the wind receiving area, and the load and construction cost of the entire soundproof wall are greatly reduced.

Description

Wind pressure absorption type rotary soundproof wall {A ROTATION TYPE SOUNDPROOFING WALLS FOR ABSORBED OF WIND PRESSURE}

The present invention is to absorb the wind load while the soundproof plate is rotated when the wind pressure is generated on the soundproof wall installed on the road side, more specifically the soundproof plate to be rotated by the torsion spring provided on the rotating shaft can be rotated elastically by the wind pressure The present invention relates to a wind pressure absorbing rotary soundproof wall for simplifying the assembly and greatly reducing the construction cost by reducing the load on the soundproof wall.

Conventional soundproof walls are built with struts (H-posts) at regular intervals on the ground or bridge edges on the roadside, and are fitted with soundproof panels between the struts and struts. Most soundproofing panels are opaque materials designed for high soundproofing efficiency. In some places, transparent materials are used.

In addition, the conventional transparent transparent soundproof plate has been known utility model registration 20-0228357 (exam 2000-0009744 public), this design is the same structure as the existing general chassis window, hang the window by hand on the top and bottom of the window frame There is a door lock for locking or opening, so it is difficult to improve the wind load of the entire soundproof wall by simply opening and closing the window.

In other words, to solve the wind pressure of the soundproof wall by the wind to reduce the wind load of the soundproof wall has been filed by the applicant of the patent application No. 10-2002-2433 (wind load absorbing soundproof wall).

As shown in FIGS. 1 and 2, the outer frame 2 is sandwiched between the strut H1 and the strut H2, and the soundproof plate 1 is inserted into the outer frame 2 so as to be able to flow. Elastic means for allowing the soundproof plate 1 to rotate elastically in either direction by the compression spring 4 and the arc-shaped camber 3 using the rotational center according to the wind pressure of the design wind load or more, and the wind pressure of the design wind load or more. When the wind pressure is generated in the soundproof plate 1, the soundproof plate 1 is rotated while the fixing means is dropped, and the arc-shaped camber 3 is rotated together with the soundproof plate 1. Compression spring (4) is compressed so that the wind pressure is gradually resolved.

Accordingly, the existing soundproof wall is applied to the soundproof wall and the structure connected to it by vaguely setting the expected maximum wind load, but the above design is applied to the part or the whole and the rotation angle of the soundproof plate is adjusted, so that the usability of the soundproof wall and the usability of the wind load during typhoon are individually Controllable design becomes possible.

For example, the sound insulation wall in the structure of high importance can increase the cross-sectional force or elastic force of the fixing pin to increase the stability at all times, and in the case of the structure of the low importance structure, the sound insulation wall can be installed at the minimum cost by artificially Design is possible.

However, in the wind load absorbing soundproof wall, when the wind pressure is generated, the soundproof plate is rotated in only one direction, and the elastic means for imparting elastic force when rotating is composed of a plurality of parts by combining a circular camber, a compression spring, and a part fixing the same. There is an uncomfortable problem.

Therefore, the present invention relates to the improvement of patent application No. 10-2002-2433 (wind load absorbing soundproof wall) filed by the applicant of the present application, so that the rotation and restoration of the soundproof plate according to the wind pressure can be made by the elastic force of the torsion spring. It is to make the assembly more simple.

Another object of the present invention is to reduce the projected area in the wind load direction by reducing the projected area in the wind load direction when the soundproof wall is loaded at the maximum wind pressure, so as to reduce the overall load of the soundproof wall and significantly reduce the construction cost.

1 is a perspective view of main parts of a conventional wind load absorbing soundproof wall,

2 is a sectional view of the main part of FIG. 1;

3 is a front view of the main portion of the wind pressure absorption type rotary soundproof wall according to the present invention,

4 is an exploded perspective view of the main part of FIG. 2;

Figure 5 is a state of use of the wind pressure absorption type rotary soundproof wall according to the present invention.

<Explanation of symbols for main parts of the drawings>

H1, H2: Holding

100: outer frame

110,210: coupling groove 120,220: rotating shaft guide groove

130,230: fixing groove 150,250: cover

200: soundproof plate 240: rotating shaft locking jaw

300: rotating shaft 310: head portion

400: torsion spring

In order to achieve the above object, the present invention provides an outer frame fitted between a support post and a support, a soundproof plate that is inserted into the outer frame so as to be movable by a rotation shaft, and the soundproof plate which has a wind pressure equal to or greater than the design wind load. In the wind load absorbing rotary soundproof wall to allow one side to rotate with elastic force, the torsion spring is fixed to the rotary shaft, one end is fitted to the sound insulation plate and the other end is fitted to the outer frame to the wound of the soundproof plate according to the wind pressure It characterized in that the elastic restoring force is generated during the rotation.

Hereinafter, with reference to the accompanying drawings, the wind pressure absorption type rotary soundproof wall according to the present invention will be described in detail.

Figure 3 is an enlarged view of the main portion of the wind pressure absorption type rotary soundproof wall according to the present invention, Figure 4 shows a state in which the soundproof plate is coupled to the outer frame in a perspective view, Figure 5 is a soundproof plate when the wind pressure generated in the soundproof plate It shows the state of rotation.

3 to 5, the present invention is to support the struts (H1, H2) arranged on the road at a predetermined interval, and the outer frame 100, the both ends of the slide fitting between the struts (H1, H2) And the soundproof plate 200 coupled to the outer frame 100 by both rotation shafts 300 to be rotated when wind pressure is generated, and coupled to the rotation shaft 300 to impart elastic force when the soundproof plate 200 is rotated. It comprises a torsion spring (400).

The struts H1 and H2 are used with known "H" beams which are erected and fixed at regular intervals on both sides of the road, so that vertical guide grooves vertically open in a direction corresponding to each other are positioned.

The outer frame 100 has a rectangular shape, and both edges of the outer frame 100 are slide-inserted into corresponding vertical guide grooves of the struts H1 and H2, and a through-hole 160 having a rectangular shape is formed inside the through frame. On both sides of the hole 160, one end of the rotation shaft 300 is rotatably fitted with a coupling groove 110 of a predetermined area and a rotation shaft guide groove 120 is formed in the coupling groove 110.

The coupling groove 110 prevents the support and detachment of the rotation shaft 300 and the torsion spring 400 inserted into the cover 150 by the bolt fixing so that the outer frame 100 maintains the same thickness.

The sound insulation panel 200 has a rectangular shape to be inserted into the through hole 160 of the outer frame 100, and the coupling groove 210 is positioned at a position corresponding to the coupling groove 110 of the outer frame 100. Is formed, the coupling groove 210 is formed with an arc-shaped rotating shaft locking jaw 240 so that one side end of the rotating shaft 300 is locked to prevent the departure.

Here, a sound absorbing pad made of a flexible material may be attached to an outer edge of the sound insulation board 200 and an inner wall of the through hole of the outer frame 100 in contact with the sound absorbing plate 200 so as to absorb and reflect sound. It will be possible to prevent the transmission and at the same time to be fixed to the soundproof plate 200 in a fixed position.

The rotating shaft 300 is to allow the soundproof plate 200 to be fixed and rotated in the outer frame 100, to be prevented from being caught by the rotating shaft engaging jaw 240 of the soundproof plate 200 on at least one side. The head portion 310 having a larger diameter is formed.

The torsion spring 400 is wound around the outer circumferential surface of the rotation shaft 300, one end of which is fitted into a vertical fixing groove 230 formed in the coupling groove 210 of the soundproof plate 200, and the other end of the torsion spring 400. It is fitted into the fixing groove 130 formed in the coupling groove 110 of the frame 100 to impart a torsional elastic force when the soundproof plate 200 rotates. And the torsion spring 400 is preferably designed so that the elastic force is applied to the soundproof plate 200 when the wind pressure is generated above the maximum limit load.

In addition, the reference numeral 150, 250 is a cover, which is bolted to the coupling groove 210 of the soundproof plate 200 and the coupling groove 110 of the outer frame 100 is the torsion spring 400 and the rotating shaft 300 ) To prevent the departure.

The assembly and use of the wind pressure absorbing rotary soundproof wall according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

At the time of assembly, as shown in FIG. 4, the soundproof plate 200 is first inserted into the through-hole 160 of the outer frame 100, and then the rotation shaft guide grooves of the coupling grooves 110 and 210 respectively formed in these hinge portions. Both ends of the rotating shaft 300, the torsion spring 400 is wound on the 120 and 220, and at the same time, both ends of the torsion spring 400 are fixed groove 230 and the outer frame 100 of the soundproof plate 200, respectively. After fitting into the fixing groove 130 of the respective coupling 150 and 250, the assembly is completed, as shown in Figure 3, the soundproof plate 200 is continuously coupled to the outer frame 100 on the road When pushed up and down in the guide groove between the struts (H1, H2) arranged in the assembly of the soundproof wall is completed.

In operation, when wind pressure is generated in the soundproof panel 200 as shown in FIG. 5, wind loads are distributed to the soundproof panel 200. At this time, the maximum wind load is set to a limit load, that is, the elasticity of the torsion spring 400. When the limit is exceeded, the soundproof plate 200 is rotated about both rotation shafts 300, and the wind load is passed by the soundproof plate 200, so that the overall wind load of the soundproof wall is reduced. Since the wind load is reduced after the torsion spring 400 generates a restoring force to rotate the sound insulation plate 200 to the initial state to perform the role of the sound insulation plate 200.

Therefore, the wind pressure absorption type rotary soundproof wall according to the present invention can reduce the cross section of the column in the case of earthmoving soundproof wall to at least 1/2 size, and if there is a free space of the road, the rotation angle can be increased to minimize the influence of wind. have. Therefore, the price of landlords is reduced considerably, and the weight of the hot-dip galvanized plate is also significantly reduced, and the section wall of the foundation retaining wall can be reduced by reducing the size and spacing of the anchor, which can reduce the construction cost of the entire soundproof wall by 20-50%. In particular, as the height of the soundproof walls increases, the cost savings are greater and structurally more stable.

In addition, in the case of the soundproof wall for bridges, it can be increased from 2m to 4m, which is the distance between the existing landscaping, and additional cost reduction can be achieved, and even if the height of the soundproof wall increases, no special design of the base plate is required. In this case, the unit costs are significantly reduced. In particular, the cross section of the piers can be prevented from becoming too large due to the influence of the horizontal force due to the wind load, and the excessive increase of the cross section of the slab cantilever can be prevented, thereby significantly reducing the construction cost.

In addition, from the design and structural aspects, when the wind load is greater than the horizontal force during earthquake design of bridges, excessive design is being made to increase the stiffness of earthquake bearings at all times. Can be less than the horizontal force. Therefore, it is possible to solve the difficulties in seismic design, which is an opportunity to increase the applicability, and the wind load reduction effect in seismic design is also excellent.

In addition, as the height of the soundproof wall increases, it is necessary to increase the cross section considering the increase of activity, conduction, and bearing capacity of the foundation concrete. However, when the present invention is applied, the cross section of the foundation retaining wall and the structure hardly changes, so there is no burden in designing the structure. And the special design of the base plate is virtually eliminated, which simplifies the design.

Previously, the expected maximum wind load was determined vaguely and applied to the soundproof wall and the structure connected thereto. However, if the elastic force of the torsion spring is adjusted while applying the present invention to the part or the whole, it is possible to control the usability of the continuous soundproof wall and the wind load during typhoon separately. Can be designed.

Claims (2)

An outer frame fitted between the support and the support, a soundproof plate that is inserted into the outer frame so as to be movable by the rotation axis, and the soundproof plate can be rotated with elastic force in any one direction about the rotation axis according to the wind pressure of the design wind load or more. In the wind load absorption type rotary soundproof wall, Wind pressure absorbing rotary soundproof wall, characterized in that the torsion spring, one end is fixed to the soundproof plate and the other end is fitted to the outer frame is wound on the rotating shaft to generate an elastic restoring force when the soundproof plate is rotated according to the wind pressure. The method of claim 1, By attaching a sound absorbing pad of a flexible material to at least one of the outer edge of the soundproof plate and the inner edge of the outer frame corresponding to the soundproof plate, it is possible to prevent the maintenance of the torsional spring or transmission of sound waves through these gaps. Wind-absorbing type rotary soundproof wall.