KR19980072299A - How to reduce blast noise near shaft - Google Patents

Abstract

The present invention relates to a method for reducing foam noise near a shaft, and having a predetermined interval on a lower surface of a cover door (2) covering an opening of a shaft (1) surrounded by a soundproof wall (3) of a certain height. Non-woven fabrics 4 and 4b of appropriate sizes are formed to be folded to be adjacent to each other in multiple layers while forming a predetermined height through a plurality of angles 7 fastened to be adjacent to each other, and an entrance formed at the side of the cover door 2. The nonwoven fabrics 4 and 4b of the appropriate size are formed in a plurality of layers with a predetermined height through the plurality of angles 7 which are fastened to be adjacent to each other with a predetermined interval even at a portion 6 which is inclined downward to 5 and the lower part. Folded so as to be adjacent to each other and mounted along the inclination angle of the stairs (6), the noise generated during blasting is repeatedly reflected between each folded gap of the nonwoven fabric (4, 4b), noise is reduced, construction site The amount of noise is transmitted to the residential area of the muscle it will be reduced as much as possible to help.

Description

How to reduce blast noise near shaft

The present invention relates to a method for reducing foam noise near the shaft, and in particular, by installing a nonwoven fabric on the inner upper portion of the shaft to absorb noise during blasting work so that the noise generated during the blasting in the shaft can be reduced to the outside. The present invention relates to a method for reducing blast noise near a shaft.

In general, along with the development of the industrial society, the increase of underground structures is accompanied, and the underground cavities are excavated for the construction of these underground structures. Work is increasing greatly. However, in order to excavate the vertical shaft, blasting work is carried out several times. The noise around blasting causes residents around the work site to feel severe physical and mental pains, resulting in delays in construction due to numerous civil complaints. There were many problems.

Therefore, in the industry which is currently carrying out excavation work of vertical gang using blasting work, it is making the best effort to make noise in blasting not to be transferred to the surroundings and to be blocked in the workplace.

Accordingly, in order to reduce noise transmitted to the outside during blasting, a cover door 2 is disposed on the upper portion of the shaft 1 and a soundproof wall 3 is disposed around the shaft 1. In this case, the cover door (2) consists of two parts, left and right, each center of the folding type is generally left and right from the center of the shaft (1) via a device for converting the rotational force of the motor. The soundproof wall 3 which blocks the noise propagated to the outside while being able to be opened or closed by the furnace is installed in the form of wrapping the periphery of the shaft 1 circularly at a predetermined height with a predetermined distance from the shaft 1. .

Therefore, the sound wave at the time of blasting is first interrupted by the covering door 2 by carrying out work with the covering door 2 closed as shown at the time of blasting, and then the shaft 1 The noise is transferred to the periphery of the workplace by blocking the soundproof walls 3 around the periphery.

However, after the blasting, the blasting noise transmitted to the outside by the pressure wave at the time of blasting is slightly opened by the cover door 2 covering the opening of the shaft 1, as shown in FIG. 8. Although partially blocked, the wavelength of the blasting noise generated during the blasting is generally 17 m and propagates radially while colliding with the air molecules, so that the problem of being transmitted outside the soundproof wall 3 installed at a height of about 6 to 9 m is transmitted to the outside. Is generated.

In addition, most of the noise generated during blasting is about 20Hz, which is the most unpleasant sound to be heard by humans, and some of them act as pressure waves, which can't be heard but shake windows. Since it has a frequency of 20 Hz or less, the noise and shaking of the building are generated at every blasting work. Therefore, the method of reducing the noise by narrowing the space spacing of the shaft 1 or reducing the amount of explosives used in one blasting is taken. As a result, there is a problem that the construction cost is also increased as the air is extended.

Therefore, the present invention was invented to solve the above problems, by increasing the amount of absorption in the shaft of the noise generated during blasting, the cover door is not opened by the blasting pressure, even if the cover door is slightly opened to absorb the noise once again The purpose of the present invention is to provide a method of reducing blast noise near the shaft which can reduce the amount of noise transmitted to the outside through the soundproof wall.

1 is a cross-sectional view of the shaft for performing a blasting work according to the invention,

2 is a plan view of the shaft inlet;

3 is a cross-sectional view of the shaft showing a state in which the present invention is applied to the step shown in Figure 2,

Figure 4 is a cross-sectional view showing how the nonwoven fabric is installed in accordance with the present invention,

5 is a noise propagation diagram when blasting work is performed according to the present invention;

6 is a state diagram at the time of putting the restraint into the shaft or after processing the blasting work according to the present invention,

7 is a cross-sectional view of the shaft for performing the blasting work according to the prior art,

8 is a noise propagation diagram when blasting work is performed according to the prior art.

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

1: shaft 2: covered door

3: soundproof wall 4, 4a, 4b: nonwoven fabric

5: entrance 6: stairs

7: angle 8: iron ring

The present invention for achieving the above object, three lengths, such as a plurality of angles or rebars fixed to be adjacent to each other with a predetermined interval on the lower surface of the cover door covered over the opening of the shaft surrounded by a soundproof wall of a certain height Non-woven fabrics of appropriate size are formed to be folded to be adjacent to each other in multiple layers while forming a predetermined height, while the doorway formed by the side of the cover door and the stepped portions which are inclined downward are adjacent to each other at regular intervals. The nonwoven fabric of the appropriate size is folded to be adjacent to each other in multiple layers while forming a predetermined height through a plurality of angles fixed to each other, and mounted along the inclination angle of the stairs.

Therefore, while absorbing the primary nonwoven fabric installed under the cover door of the blasting noise, that is, the number of repeated reflections between each folded gap of the nonwoven fabric, the noise is reduced and the blasting noise transmitted to the outside can be greatly reduced.

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

1 is a cross-sectional view of a shaft for performing a blasting operation according to the present invention, the present invention is the cover portion (2) is installed in the upper part of the shaft (1) is opened in both sides so that the middle portion can be folded, this shaft ( A circular soundproof wall 3 having a height of about 4 to 10 m is installed around this shaft, while a nonwoven fabric 4 is overlapped on the lower side of the cover door 2. It is mounted in a losing state, and the nonwoven fabric 4a covers the entire upper part of the shaft 1 at the upper part of the covering door 2.

Here, the shaft (1) and the soundproof wall (3) shown in the upper portion as shown in Figure 2, as shown here, the cover (2) is installed on the shaft (1) and the covering door (2) The entrance (5) which a person enters and exits is formed in the side of side), and the staircase (6) is staggered from the entrance (5) to the inside lower side of the shaft (1) in a zigzag manner. .

Therefore, in addition to installing the nonwoven fabric 4 on the lower side of the cover door 2, a nonwoven fabric 4b for blocking the doorway 5 should also be installed, which is shown in FIG. 3. The inclination angle of the stairs 6 is installed from the upper wall surface of the entrance 5.

Referring to the installation state of the nonwoven fabrics 4 and 4b installed in the shaft 1 in more detail, as shown in Figure 4, the upper wall surface of the cover door 2 or the entrance 5, that is, the nonwoven fabric 4 , 4b) is a plurality of angles (7: cross-section is formed by the letter "B" in the mounting portion, the assembly bar for fastening the bolt and nut is formed of a continuous bar along the longitudinal direction of the member as a book shelf or shelf It is often used to make a back) is bowled at a fixed interval and a plurality of fixed, this angle (7) is to be mounted to the non-woven fabric (4, 4b) by using a wire or grommet (8).

Here, the nonwoven fabrics 4 and 4b are about 1.8m × 20m in size, and the upper portions of the folded portions are fixed to the angles 7 while being folded in the longitudinal direction, and the gap between each of the folded and stretched portions is In consideration of the longitudinal length (axial length of the shaft) of the folded portion, it is appropriately adjusted within the range of several cm to several ten cm.

In addition, a means other than an angle may be used to fix the nonwoven fabrics 4 and 4b. That is, an elongated member such as a reinforcing bar is fixed to the nonwoven fabric installation position, and the nonwoven fabric is made by using a wire or iron ring as described above. It is possible to fix the reinforcing bars after sewing the nonwoven fabric directly to the reinforcing bars before fixing the reinforcing bars or fixing the reinforcing bars, etc. It is a matter of course that a gap can be formed, and a nonwoven fabric can be passed through the gap so that the nonwoven fabric can be laid on the rebar.

In addition, in the case of the nonwoven fabric 4b mounted on the wall of the upper part of the entrance and exit, the nonwoven fabric 4b is stretched from the angle 7 so that the length of the nonwoven fabric 4b is stretched back to the same state in each part so that the nonwoven fabric 4b is the same. As described above, the overall installation state of the folds down along the stairs 6 and is repeatedly folded to be installed at the same inclination angle as the stairs.

Thus, the nonwoven fabrics 4 and 4b are provided on the lower surface of the cover door 2 and the top of the stairs 6 connected to the doorway 5 as described above, and another nonwoven fabric 4a is placed on the top of the cover door 2. When the blasting work is performed after the cover is covered, the noise is absorbed by the nonwoven fabrics 4, 4a, and 4b.

On the other hand, in order to further reinforce the noise absorption in the shaft (1), before fixing the angle (7) to the lower surface of the cover door (2), it is also possible to attach a separate non-woven fabric in close contact with one or more fixed surfaces in advance. This contributes to noise reduction by lowering the reflectance of the covering door surface.

That is, the blasting operation is performed in a state as shown in FIG. 5, in which the pressure wave generated after the blasting is absorbed while touching the nonwoven fabrics 4 and 4b and the impact force is weakened. The downward impact applied to 2) is reduced and the covering door 2 is not opened, and the wavelength of the blast noise is also reflected innumerably between the material properties of the nonwoven fabrics 4 and 4b and the respective folded portions. It is absorbed and weakened.

Moreover, the noise leaked out between the slight gaps between the cover doors 2 is also absorbed by the nonwoven fabric 4a covering the upper part of the cover doors 2, and the sound waves exiting to the outside through the doorway 5 are also stairs 6 It is absorbed by the nonwoven fabric 4b provided while overlapping in multiple layers.

That is, when the blasting noise passes through the nonwoven fabrics 4 and 4b installed on the lower surface of the cover door 2 and the upper portion of the doorway 5, and the nonwoven fabric 4a covering the top of the cover door 2, each layer of the nonwoven fabric is overlapped. Countless reflections are repeated between them, the intensity of which is reduced, and the noise transmitted to the outside of the shaft 1 is greatly reduced.

In addition, since a small amount of sound waves transmitted to the outside of the shaft 1 is once again blocked by the soundproof wall 3, the noise transmitted to the nearby residential area from the work site is further reduced.

On the other hand, in order to process the buckles generated in the shaft (1) after blasting, as shown in Figure 6, the non-woven fabric (4a) covered on the upper part of the shaft 1 is walked, and the cover door (2) is opened to both sides, The work may be performed through the opening. At this time, the non-woven fabric 4 installed on the lower surface of the cover door 2 is left as it is without being removed, and when the cover door 2 is closed during the next blasting work, the cover door 2 is returned to the original installation state to facilitate the work.

On the other hand, when the blasting operation continues and the shaft depth becomes deep, an elevator is often installed in addition to the stairway. However, since the elevator is elevated to the top of the shaft during the blasting operation, the bottom of the door Installing the nonwoven fabric in the same manner, of course, improves the sound absorption.

As described above, according to the present invention, by installing a non-woven fabric overlapping a plurality of layers on the lower side and the entrance of the cover door, the inside of the shaft of the blasting noise is greatly reduced, and thus the amount of noise transmitted to the outside through the gap between the cover door is reduced. Furthermore, the noise is absorbed by the nonwoven fabric covering the upper part of the shaft including the upper part of the covering door, and also blocked by the soundproof wall surrounding the shaft, thereby maximally preventing the noise generated during the blasting work from being transmitted to the outside of the work site. There is an effect that can be done.

Therefore, noise pollution does not occur in neighboring residential areas, so it is possible to prevent the delay of air by suppressing the occurrence of civil complaints, and to increase the air and cost by narrowing the space gap or conducting a large number of blasting operations in response to civil complaints. There is an effect that can be prevented in advance.

Claims (3)

Appropriately via a plurality of angles (7) fastened so as to be adjacent to each other with a predetermined distance on the lower surface of the cover door (2) that covers the opening of the shaft (1) surrounded by a soundproof wall (3) of a certain height. The nonwoven fabrics 4 and 4b of size are folded to be adjacent to each other in multiple layers while forming a predetermined height, while the doorway 5 formed on the side of the cover door 2 and the stairs 6 which are inclined downward. The non-woven fabrics 4 and 4b of appropriate sizes are folded to be adjacent to each other in multiple layers while forming a predetermined height through a plurality of angles 7 fastened to be adjacent to each other with a predetermined interval, and the inclination angle of the stairs 6 A method of reducing blast noise near the shaft, which is mounted along the side of the shaft, in which noise waves generated during blasting are repeatedly reflected between each folded gap of the nonwoven fabric (4, 4b). The method according to claim 1, wherein the nonwoven fabric is attached to the cover door (2) such that the nonwoven fabric is brought into close contact with the surface before the angle (7) is mounted. The non-woven fabric (4a) according to claim 1, wherein after the nonwoven fabrics (4, 4b) are attached to the lower portion of the cover door (2) covering the opening of the shaft (1), the circumferential portion of the shaft (1) is before the blasting operation. Blasting noise reduction method of the vicinity of the shaft, characterized in that it is covered by.