KR20210037193A - Noise reducing device - Google Patents

Abstract

According to one embodiment of the present invention, a noise reduction device is provided. According to one embodiment of the present invention, the noise reduction device comprises: a plurality of noise panels installed in a flow passage formed inside a duct and closely attached to each of an inner circumferential surface of the duct to form an inner wall surface and absorb a noise introduced to a sound suction surface leaked to the flow passage; and a plurality of fixing members protruding from the duct to support one side portion of the noise panel and having a protrusion unit formed at an end part thereof to fixate the adjacent sound panel.

Description

Noise reducing device

The present invention relates to a noise reduction device, and more particularly, to a noise reduction device capable of effectively reducing the noise generated in the duct.

In general, a duct is a passage through which a gaseous fluid such as air flows, and is widely used in various mechanical devices or structures. For example, ducts may be used in structures such as buildings or ships, and if necessary, a fan may be installed inside to facilitate the flow of air such as inflow of outside air and discharge of indoor air. However, when a fan is installed inside the duct, the air flows smoothly, but there is a problem in that noise generated from the fan is transmitted through the duct. Accordingly, even without a fan installed inside the duct, fluid noise may be generated due to friction with the duct while air flows, so various technologies for reducing the noise generated from the duct are being developed.

On the other hand, in the related art, noise of the duct was reduced by removing the duct in a certain part of the duct line of the ship where noise is generated, and installing a silencer in the part from which the duct was removed. However, as the existing duct is removed and a new silencer is manufactured and installed, there is a problem in that the duct is wasted, the manufacturing and installation cost increases, and the construction period is lengthened.

Accordingly, there is a need for a device capable of effectively reducing noise generated from the duct while preventing waste of duct and minimizing manufacturing and installation costs.

Republic of Korea Patent Registration No. 10-1030440 (2011. 04. 14.)

The technical problem to be achieved by the present invention is to provide a noise reduction device capable of effectively reducing noise generated in a duct.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

The noise reduction device according to an embodiment of the present invention for achieving the above technical problem is installed in a flow path formed inside a duct, and is in close contact with each of the inner circumferential surfaces of the duct to form an inner wall surface and a sound-absorbing surface exposed to the flow path. And a plurality of noise panels for absorbing incoming noise, and a plurality of fixing members protruding from the duct to support one side of the noise panel, and a protrusion formed at an end thereof to fix adjacent noise panels.

Each of the sound-absorbing panels includes a non-metallic perforated plate having the sound-absorbing surface formed on one side and a fixing surface formed on the other side, the sound-absorbing surface and a plurality of perforations penetrating through the fixing surface, and one side of the fixing surface. It may include a sound absorbing material in contact with the surface and the other side in close contact with the inner circumferential surface of the duct.

The sound-absorbing panel may further include a glass fiber material interposed between the perforated plate and the sound-absorbing material to prevent separation of the sound-absorbing material.

The plurality of fixing members may be coupled to different inner circumferential surfaces of the duct, respectively.

The protrusion may have an end portion formed in a cone shape or a hemispherical shape.

The fixing member may include an inclined portion formed at a front end of the protrusion to be inclined toward the flow path so that one side supports the noise panel and the other side supports the adjacent noise panel.

According to the present invention, it is directly installed on the inner circumferential surface of the duct to reduce noise generated from the duct. Accordingly, as in the prior art, there is no need to remove a certain portion of the duct, and there is no need to manufacture and install a separate silencer, thereby preventing waste of the duct and minimizing manufacturing and installation costs.

1 is a view showing a state in which a noise reduction device according to an embodiment of the present invention is installed in a duct.
FIG. 2 is a cross-sectional view of FIG. 1 cut in the longitudinal direction.
3 is an enlarged view of the fixing member.
4 and 5 are views showing a state in which a noise reduction device is installed in a duct.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present invention complete, and are common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

Hereinafter, a noise reduction apparatus according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 5.

The noise reduction device according to an embodiment of the present invention is a device for reducing noise in a duct, and may be installed in a flow path formed inside a box-shaped duct having four sides.

The noise reduction device can be installed directly on the inner circumference of the duct to reduce the noise generated from the duct. Therefore, as in the prior art, there is no need to remove a certain portion of the duct, and there is no need to manufacture and install a separate silencer, thereby preventing waste of the duct and minimizing manufacturing and installation costs.

Hereinafter, the noise reduction device 1 will be described in detail with reference to FIGS. 1 to 3.

1 is a view showing a state in which a noise reduction device according to an embodiment of the present invention is installed in a duct, FIG. 2 is a cross-sectional view of FIG. 1 cut in the longitudinal direction, and FIG. 3 is an enlarged view of a fixing member. It is a drawing.

The noise reduction device 1 according to the present invention includes a plurality of noise panels 10 and a plurality of fixing members 20.

The noise panel 10 absorbs noise, and a plurality of the noise panels 10 may each be in close contact with the inner circumferential surface of the duct D to form an inner wall surface. As described above, since the duct (D) is formed in a box body shape consisting of four sides, the four noise panels 10 may be in close contact with each of the four sides of the duct (D) to form an inner wall surface. Each of the noise panels 10 is formed extending along the longitudinal direction of the duct D and inserted into the duct D, and can absorb noise entering the sound absorbing surface 11a exposed to the flow path F. . The noise panel 10 includes a perforated plate 11, a sound-absorbing material 12, and a fiberglass material 13, respectively.

The perforated plate 11 is a plate made of a non-metallic material, and a sound-absorbing surface 11a is formed on one side exposed to the flow path F, and a fixing surface 11b may be formed on the other side opposite to the one side. For example, the perforated plate 11 may be formed of a plastic material. Since the perforated plate 11 is formed of a non-metallic material, the noise reduction device 1 can be reduced in weight, and thus, the duct D on which the noise reduction device 1 is installed, and the ship on which the duct D is installed. Energy can be saved by reducing the total weight. The perforated plate 11 has a plurality of perforated holes 11c penetrating through the sound absorbing surface 11a and the fixing surface 11b, and the sound absorbing material 12 may be disposed on the fixing surface 11b.

The sound absorbing material 12 is a member that absorbs noise entering through the plurality of perforations 11c, and one side may be in contact with the fixing surface 11b and the other side may be in close contact with the inner circumferential surface of the duct D. That is, the sound absorbing material 12 is interposed between the perforated plate 11 and the duct D, and may be made of, for example, a porous synthetic resin material such as a sponge. However, the sound absorbing material 12 is limited to being made of a porous synthetic resin material. It will not be, and it can be transformed into a variety of forms that can absorb noise. For example, the sound-absorbing material 12 may be formed of a foam material formed by foaming a synthetic or natural material, a fiber material having excellent absorption capacity, or the like. A glass fiber material 13 may be interposed between the perforated plate 11 and the sound absorbing material 12.

Glass fiber material 13 is to prevent separation of the sound-absorbing material 12, one side is attached to the fixing surface (11b) of the perforated plate 11 and the other side is attached to the sound-absorbing material 12, so that the sound-absorbing material 12 is attached to the perforated plate. (11) Can be fixed in a certain position. However, the glass fiber material 13 is not limited to being interposed between the perforated plate 11 and the sound absorbing material 12, and may be modified into various structures capable of preventing separation of the sound absorbing material 12. For example, an adhesive is applied directly to at least one of the surface of the sound absorbing material 12 in contact with the perforated plate 11 or the fixing surface 11b of the perforated plate 11 in contact with the sound absorbing material 12 to fix the sound absorbing material 12 You may.

The noise panel 10 may be fixed by the fixing member 20.

The fixing member 20 is formed protruding from the duct D to support one side of the noise panel 10, and a protrusion 21 is formed at the end to fix the adjacent noise panel 10. That is, a plurality of fixing members 20 are respectively coupled to different inner circumferential surfaces of the duct D to support the noise panel 10 while fixing the adjacent noise panel 10. In this case, the plurality of fixing members 20 may be disposed on the same plane or different planes as shown. In addition, a plurality of fixing members 20 may be arranged along the length direction of the duct D corresponding to the length of the duct D and the noise panel 10. More specifically, each of the fixing members 20 is fixed to the inner circumferential surface of the duct D in the form of a cantilever so that the side surface supports one side of the noise panel 10, and a protrusion 21 protruding perpendicular to the end is It is inserted into the perforated hole 11c of the adjacent noise panel 10 to fix the adjacent noise panel 10. Since the protrusion 21 has elasticity toward the adjacent noise panel 10, when the noise panel 10 is inserted into the duct D along the longitudinal direction of the duct D, depending on the presence or absence of the perforated hole 11c. It can be flexed and restored flexibly. For example, as the sound panel 10 is inserted into the duct D, when the end of the protrusion 21 contacts the surface between the perforated holes 11c of the perforated plate 11, the protrusion 21 is It can be refracted. Conversely, when the end of the protrusion 21 comes into contact with the perforated hole 11c of the perforated plate 11 as the sound panel 10 is inserted into the duct D, the protrusion 21 is restored to its original state and thus the perforated 11c ) Can be inserted. At this time, the protrusion 21 has an end portion formed in a cone shape, as shown in FIG. 3(a), or the end portion thereof in a hemispherical shape as shown in FIG. 3(b). Can be formed. Since the end of the protrusion 21 is formed in a cone or hemispherical shape, the perforated plate 11 along the inclined or refracted surface of the protrusion 21 inserted into the perforated portion 11c when the sound panel 10 is inserted into the duct D ) Is pushed and the protrusion 21 inserted into the perforated hole 11c can be easily separated from the perforated hole 11c, and thus, the noise panel 10 can be inserted smoothly.

In addition, the fixing member 20 includes an inclined portion 22 formed inclined toward the flow path F at the front end of the protruding portion 21, and the inclined portion 22 has one side supporting the noise panel 10 and the other It is possible to support the noise panel 10 adjacent to the side. Since the inclined portion 22 is formed at the front end of the protruding portion 21, the noise panel 10 can be fixed between the duct D and the inclined portion 22 without shaking, and thus, through the noise panel 10 Noise can be absorbed effectively.

Hereinafter, the installation process of the noise reduction device 1 will be described in more detail with reference to FIGS. 4 and 5.

4 and 5 are views showing a state in which a noise reduction device is installed in a duct.

The noise reduction device 1 according to the present invention is directly installed on the inner circumferential surface of the duct D to reduce noise generated from the duct D. Therefore, as in the prior art, there is no need to remove a certain portion of the duct D, and there is no need to manufacture and install a separate silencer, thereby preventing waste of the duct D and minimizing manufacturing and installation costs. .

The plurality of fixing members 20 are fixed to different inner circumferential surfaces of the duct D in a cantilever shape, respectively, and the noise panel 10 made of a perforated plate 11 and a sound absorbing material 12 and a fiberglass material 13 is shown in FIG. 4. As shown in, it may be interposed between the fixing member 20 and inserted into the duct (D). Since the inclined portion 22 is formed in the fixing member 20, the noise panel 10 is in close contact with the inner circumferential surface of the duct D and can be inserted into the duct D. As the noise panel 10 is inserted into the duct D, the end of the protrusion 21 is in contact with the perforated hole 11c of the perforated plate 11, as shown in Fig. 5A. As shown in (b), the end of the protrusion 21 may contact the surface between the perforated holes 11c of the perforated plate 11. When the end of the protrusion 21 is in contact with the perforated hole 11c of the perforated plate 11, the protrusion 21 is inserted into the perforated hole 11c, and the end of the protruding portion 21 is between the perforated holes 11c of the perforated plate 11 When in contact with the surface of, the protrusion 21 may be refracted. Since the end of the protrusion 21 is formed in a cone or hemispherical shape, the protrusion 21 inserted into the perforated hole 11c is easily separated from the perforated hole 11c when the sound panel 10 is inserted into the duct D. As a result, the noise panel 10 can be smoothly inserted.

The plurality of sound-absorbing panels 10 inserted into the duct (D) are supported and fixed by a plurality of fixing members (20), each of which is in close contact with the inner circumferential surface of the duct (D) and exposed to the flow path (F). It is possible to absorb noise coming through the perforated holes 11c formed in (11a).

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features. You will be able to understand. Therefore, it should be understood that the embodiments described above are illustrative in all respects and are not limiting.

1: noise reduction device
10: sound panel 11: perforated plate
11a: sound-absorbing surface 11b: fixed surface
11c: perforated 12: sound-absorbing material
13: fiberglass material 20: fixing member
21: protrusion 22: inclined portion
D: duct F: flow path

Claims (6)

In the noise reduction device installed in the flow path formed inside the duct,
The noise reduction device,
A plurality of noise panels that are in close contact with the inner circumferential surface of the duct to form an inner wall surface and absorb noise entering the sound absorbing surface exposed to the flow path, and
A noise reduction device comprising a plurality of fixing members protruding from the duct to support one side of the noise panel, and having a protrusion formed at an end thereof to fix an adjacent noise panel. The method of claim 1, wherein each of the noise panels,
A perforated plate made of a non-metallic material having the sound-absorbing surface formed on one side and a fixed surface formed on the other side, and having a plurality of perforations penetrating the sound-absorbing surface and the fixing surface,
Noise reduction device comprising a sound-absorbing material in which one side is in contact with the fixed surface and the other side is in close contact with the inner circumferential surface of the duct. The method of claim 2,
The noise panel further comprises a glass fiber material interposed between the perforated plate and the sound-absorbing material to prevent separation of the sound-absorbing material. The method of claim 1,
The plurality of fixing members are noise reduction devices respectively coupled to different inner circumferential surfaces of the duct. The method of claim 4,
The noise reduction device in which the protrusion has an end portion formed in a cone shape or a hemispherical shape. The method of claim 4,
The fixing member includes an inclined portion formed at a front end of the protruding portion to be inclined toward the flow path, so that one side supports the noise panel and the other side supports the adjacent noise panel.

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