KR100530363B1 - Silencer for Air Conditioning Duct - Google Patents

Abstract

The present invention relates to a silencer for an air conditioning duct, which is mounted inside the duct (1), each of the plurality of micro holes 12 are drilled on both sides, the inside of the splitter member having a predetermined size of the resonance chamber 11 ( 10) and a horizontal plate 20 which is mounted in a plate shape in the resonance chamber 11 of the splitter member 10 in the longitudinal direction and divides the resonance chamber 11 into left and right resonance chambers 11a and 11b. ) And a predetermined lattice portion 31 having a predetermined thickness to form an air layer is repeatedly arranged and inserted into the left and right resonance chambers 11a and 11b partitioned by the horizontal plate 20. The lattice panel 30 which is formed and filled is filled with fine pores through the lattice panel 30 in which a predetermined lattice portion 31 is repeatedly arranged without using a sound absorbing material such as glass fiber, rock wool, foam, or the like. 12) is formed in the splitter member 10 to increase the sound absorbing power, so that it is scattered like the existing sound absorbing material and the human body and the ring To not causing harmful dust will be able to cope with parts that can be applied to specific situations.

In addition, the lattice panel 30 and a plurality of porous panels inserted between the lattice panels 30 are respectively stacked in the left and right resonant chambers 11a and 11b of the splitter member 10, thereby filling a wide frequency band. It can effectively absorb the noise with.

In addition, the grid panel 30 has a strong structural force and bending strength to reinforce the stiffness of the splitter member 10 and the duct 1 to increase its life and durability.

Therefore, the sound absorbing panel of the present invention is an environment-friendly, very useful design that can increase the productability and safety.

Description

Silencer for Air Conditioning Duct {Silencer for Air Conditioning Duct}

The present invention relates to a muffler for air conditioning ducts, and more particularly, without using a sound absorbing material, a plurality of perforated perforated panels are repeatedly mounted at predetermined intervals, and a grid portion for forming an air layer between the perforated panels. The formed grid panel is invented so as to absorb the noise in the duct to increase the sound absorption effect, and to not generate harmful dust to the human body and the environment.

In general, an air conditioner is a facility for sucking outside air to have a suitable temperature and humidity, and then supplying it to a required interior of a building.

Then, the outside air changed to have a suitable temperature and humidity in the air conditioner is supplied to the interior of the building through the duct, part of the air pushed out of the room is discharged to the outside, and part is returned to the air conditioner through a separate duct It is mixed with the outside air and becomes the harmonized air again and is sent to the room repeatedly.

In addition, the duct is a structure serving as a passage of the external air circulated in the air conditioner, the situation is equipped with a silencer that can absorb the noise generated while the air is circulated therein.

On the other hand, the silencer is produced by inserting the splitter in the duct, the interior of the splitter is composed of a sound absorbing material is inserted between the two porous plate and the plate member.

In addition, the sound absorbing material is made of porous glass fiber having a structure composed of continuous bubbles of inorganic material, or rock wool, or a foam type sound absorbing material made of an organic material such as polyurethane or polyester. In the process, it is converted into heat energy by friction and disappears and is absorbed.

In addition, in recent years, the glass-fiber absorber is a non-flammable material and is mainly used because it has a high sound absorption in the middle and high frequency bands and a low price as compared with the foamed sound absorber.

However, since the conventional silencer uses a foamed sound absorbing material of glass fiber or various foams inside the splitter, the sound absorption rate is low in the low frequency band, and the sound damping effect is low in the low frequency band of 63 kHz to 250 kHz. There was no problem.

In addition, the sound absorbing material of the glass fiber or rock wool material was eroded by the flow of air in the process of air circulation in the duct, there was a problem that the harmful dust to the human body is introduced into the room.

In addition, even in the case of foam-type sound-absorbing material, after a certain time, the corrosion caused by the chemical component is broken, the dust is generated and the generated dust is scattered by the process of air circulation has occurred a problem that is introduced into the room.

Therefore, dust particles generated from the sound absorbing material flow into the room and accumulate in the human body through respiration, causing respiratory diseases, and in the semiconductor factory or facility system requiring clean environment, the dust particles generated from the sound absorbing material are produced and produced in the system. There has been a closure that cannot be used in a facility that requires such cleanliness as it can cause malfunctions.

On the other hand, there has been proposed a silencer that generates a sound absorbing effect by using the resonance principle by inserting a splitter formed with a plurality of holes therein without filling the sound absorbing material, it is simply a plurality of holes formed in the splitter and the inside of the splitter Since the sound is reduced by using a single air layer, there is a problem in that the sound absorption rate of the silencer itself is not large and the sound absorption effect is insufficient.

An object of the present invention is to stack the lattice panel forming the porous panel and the air layer inside the splitter in a multi-layered charge to excellent sound absorption performance in a wide frequency band, and to maintain a clean environment without generating dust harmful to the human body To provide a silencer for an air conditioning duct.

The object of the present invention is mounted inside the duct (1), each of the plurality of micro holes 12 are drilled on both sides, the inside of the splitter member 10 is formed with a resonance chamber 11 of a predetermined size; A horizontal plate 20 which is mounted in a longitudinal direction to the resonance chamber 11 of the splitter member 10 in a shape and divides the resonance chamber 11 into left and right resonance chambers 11a and 11b; A lattice panel having a thickness and formed of a lattice part 31 having a predetermined shape to form an air layer is inserted and filled in left and right resonance chambers 11a and 11b partitioned by the horizontal plate material 20. In the configuration consisting of 30; The splitter member 10 is formed in a semi-circle or semi-elliptic shape of the body front portion into which air is introduced, and the body rear portion in which the air is discharged is formed in a V-shape, The grid panel 30 is Stacked in plural and inserted into left and right resonance chambers 11a and 11b, respectively, Achievement is achieved by inserting the porous plate material 40 having a plurality of resonance holes 41 between each grating panel 30. That is, inside the splitter member 10 having a plurality of fine holes 12 formed on both sides thereof. The lattice panel 30 is inserted into the left and right resonance chambers 11a and 11b partitioned by the horizontal plate member 20, and air generating noise is left and right resonances through the fine holes 12. When the air flows into the chambers 11a and 11b, noise is resonated in the air layer formed by the grid portion 31 of the grid panel 30 filled in the left and right resonance chambers 11a and 11b to generate a sound absorbing effect. It is possible to absorb noise having a broadband frequency.

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When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

1 is a perspective view showing the configuration of the present invention, a plurality of lattice panels in the left and right resonance chamber partitioned by a horizontal plate material inside the splitter member of the air conditioner duct silencer of the present invention is filled with a plurality of lattice panels The insertion of a porous plate material is shown between them.

2 is a perspective view showing a state in which the air conditioner duct silencer according to the present invention is mounted in a duct, and shows that a plurality of air conditioner duct silencers are mounted at a predetermined interval inside the duct.

FIG. 3 is a cross-sectional view taken along line AA ′ of FIG. 2, and the inner structure of the air conditioner duct silencer according to the present invention is enlarged in a state where the silencer is mounted in the duct.

Hereinafter, as shown in FIGS. 1 to 3, the splitter member 10 mounted inside the duct 1 and absorbing the noise generated inside the duct 1 has a plurality of fine holes on both left and right sides thereof. 12 is formed to be symmetrical with each other, the resonance chamber 11 is formed in the body of the splitter member 10 divided into left and right resonance chambers 11a and 11b by the horizontal plate member 20 to be described later. .

In addition, the splitter member 10 is formed in a semi-circle or semi-elliptical shape of the body front portion into which air is introduced, and has a V-shaped body rear portion from which air is discharged to smooth the flow of air introduced into the duct 1. .

In addition, a horizontal plate 20 is mounted in the resonance chamber 11 of the splitter member 10 in the longitudinal direction so that the resonance chamber 11 is divided into left and right resonance chambers 11a and 11b, and Between the right resonance chamber (11a) (11b) is blocked so that noise and air do not pass each other.

On the other hand, in the left and right resonance chamber (11a) (11b) of the splitter member 10, the lattice panel 30, in which a plurality of lattice portions 31 having a predetermined shape are formed and inserted to fill the air layer, is inserted and filled. do.

In addition, the grating portion 31 of the grating panel 30 is formed of any one of a rectangular or hexagonal honeycomb shape.

In addition, the lattice panels 30 are stacked in plural and inserted into the left and right resonant chambers 11a and 11b, respectively, and a plurality of resonant holes 41 are formed between the lattice panels 30 stacked in plural. The formed porous plate material 40 is inserted.

In addition, the porous plate member 40 uses a steel plate having a thickness of 0.3 to 1 mm, and the resonance hole 41 formed in the porous plate member 40 has a diameter of 1 to 2.5 mm and a porosity of about 2.5%. It is preferable.

That is, when the noise generated while the air flows inside the duct 1 flows into the left and right resonance chambers 11a and 11b inside the splitter member 10 through the micro holes 12, the left and right resonance chambers are provided. In each air layer formed in the grid portion 31 of the grid panel 30 inserted into the (11a) (11b) it is to absorb the sound using the principle of the Helmholz Resonator.

Accordingly, the space in the grid portion 31 in the grid panel 30 of the grid structure in which a certain grid portion 31 is repeatedly arranged is better in resonance than a large air space without a grid, so that a specific frequency band To increase the sound absorbing power, and to increase the overall defects.

In addition, since the lattice panel 30 and the porous plate material 40 are stacked and filled in the left and right resonance chambers 11a and 11b of the splitter member 10, the noise of the broadband is effectively reduced and the broadband frequency is reduced. It is to increase the sound absorption rate in the range.

On the other hand, the lamination number of the lamination of the lattice panel 30 and the porous plate material 40 in a plurality is variable, it is preferable to reduce the process or manufacturing cost by designing to meet the generated noise frequency characteristics of the equipment to which the present invention is applied. Do.

In addition, the grating panel 30 is made of a repetitive arrangement of the grating portion 31 of a predetermined shape to reinforce the stiffness of the splitter member 10 by having a super lightweight and strong structural force and bending strength, sound absorbing material such as glass fiber or rock wool It is possible to prevent the problem caused by dust generated when using.

In addition, the grid panel 30 is a special non-flammable coated paper material when the fire occurs, the grid portion 31 is blocked by the chemical reaction of the flame and the special non-flammable coated paper to suppress the flame, the fire spreads To prevent it.

According to the above-described configuration of the present invention, the sound absorbing power is increased by filling a splitter member having a fine hole with a lattice panel in which a certain lattice portion is repeatedly arranged without using a sound absorbing material such as glass fiber, rock wool or foam. As existing sound absorbing materials are scattered and do not generate harmful dust to the human body and the environment, it is possible to cope with parts that cannot be applied to a specific situation.

In addition, by laminating and charging a plurality of lattice panels and porous panels inserted between the lattice panels, respectively, in the left and right resonance chambers of the splitter member, it is possible to effectively absorb noise having a broadband frequency.

In addition, the grid panel has a strong structural force and bending strength to reinforce the stiffness of the splitter member and the duct can increase its life and durability.

Therefore, the sound absorbing panel of the present invention is an environment-friendly, very useful design that can increase the productability and safety.

1 is a perspective view showing a configuration of the present invention.

Figure 2 is a perspective view showing a state in which the present invention air conditioner duct silencer mounted in the duct.

3 is a cross-sectional view taken along line AA ′ of FIG. 2;

* Description of the major symbols in the drawings *

1-duct 10-splitter member

11-Resonance Chamber 12-Micropores

20-Horizontal panel 30-Lattice panel

31-lattice 40-perforated sheet

41-resonance hole

Claims (3)

delete A splitter member (10) mounted inside the duct (1) and having a plurality of fine holes (12) formed at both sides thereof, and having a resonance chamber (11) of a predetermined size therein; A horizontal plate member 20 which is mounted in a plate shape in the resonance chamber 11 of the splitter member 10 in the longitudinal direction and divides the resonance chamber 11 into left and right resonance chambers 11a and 11b; The grid portion 31 having a predetermined thickness and having a predetermined shape forming an air layer is repeatedly arranged and inserted into the left and right resonance chambers 11a and 11b partitioned by the horizontal plate 20 to be filled. In the grid panel 30; The splitter member 10 is formed in a semi-circle or semi-elliptical shape of the front body portion through which air is introduced, and has a V-shaped body rear portion through which air is discharged. The grating panel 30 is stacked in plural and inserted into the left and right resonance chambers 11a and 11b, respectively, and a plurality of resonance holes 41 are formed between the grating panels 30 stacked in plural. Silencer for air conditioning ducts, characterized in that the porous plate material 40 is inserted. delete