KR200466813Y1 - Fireproof and soundproof Panel Structures - Google Patents

Abstract

The present invention relates to a fire-proof soundproof panel that is strong in fire and absorbs noise by processing a 'vermiculite' powder having a characteristic of incombustibility, heat insulation, heat resistance and light weight, which is expanded in volume when the raw stone is heated, Specifically, compression-molding vermiculite whose volume is expanded upon heating, forms a plate member having a density of vermiculite powder of at least 1000 Kg / m 3 and a density of vermiculite powder of 600 to 650 Kg / m 3, adhering to each other, and forming a sound absorbing hole. It is to provide a fire-proof soundproof panel that can minimize noise by inducing noise and insulating noise, and eliminating harmful gas in case of fire by constructing a wall of a building or a ship.

Description

Fireproof Soundproof Panel Structures

The present invention relates to a fire-proof soundproof panel that is strong in fire and absorbs noise by processing a 'vermiculite' powder having a characteristic of incombustibility, heat insulation, heat resistance and light weight, which is expanded in volume when the raw stone is heated, In detail, the vermiculite that is expanded in volume when heated is compressed and molded with a different density of vermiculite, and the vermiculite powder has a high density of vermiculite powder on both sides, and a sound absorbing groove is formed on both sides of the panel. It relates to a fire-proof soundproofing panel constituting a wall, such as a building or a ship by integrally bonding the.

In general, the type of panel can be classified according to the type or form of the material or according to the use temperature. Generally, the panel can be classified into inorganic materials, organic materials and composite materials.

Inorganic materials include rock wool, glass wool, vermiculite and perlite, and organic materials include polystyrene cork and polyurethane urea.

In addition, rock wool or glass wool, which is used most among inorganic materials, is reluctant to use it because it is a carcinogenic substance or because there are many harmful elements to human body due to the fine powder scattered during handling. .

On the other hand, organic insulating materials are frequently used because of their ease of handling and relatively good thermal insulation. However, they are weak in heat and ignite, causing toxic gases. In recent years, organic insulation has been tried to improve to some extent by non-combustible or flame retardant treatment. In the end, they are all ignited at high temperatures to generate toxic gases, which is why they are reluctant to use these toxic gases at the fire site due to social problems.

Therefore, in the future, it was required to develop panels that are used for buildings or industrials without burning, generating smoke or toxic gas, and causing no environmental problems.

Therefore, expanded vermiculite was developed in response to these demands, and vermiculite is composed of SiO₂ (37.3%), Al₂O₃ (11%), K₂O (4.88%), Fe₂O₃ (4.52%), and M (27.6%). ), lg (10.8%), CaO (1.08%), etc., which is good for human body, it has high spectral distribution of far infrared rays, so it has high far-infrared radiation, excellent deodorizing and antibacterial properties, and excellent fire resistance. It is used for wall, and used as prevention of heat radiation after radiating board of electronic products, and especially powder is used to grind various kinds of particle size as gypsum board and fire retardant paint, coating agent and filler.

Korean Patent Application No. 10-2003-0027851 A soundproof panel includes a front absorption plate integrally provided with a plurality of primary noise absorption holes; A structure of the front absorbing plate coupled to the rear absorbing plate having an installation port and a plurality of secondary noise absorbing holes; A fixed box coupled to the installation tool, the connector having a fixing box provided with a fixing groove in the front of the connector; A fixing frame inserted into the connector to install a rear absorption plate; It is coupled to the fixing groove, the fixing member for preventing the separation of the fixing frame; comprises.

Domestic patent application No. 10-2007-0010317 Environmentally friendly building soundproof vibration-proof interior material is the first and second buffer rubber layers are disposed on both sides to absorb the air and solid transfer sound transmitted through the building, between the 1 A synthetic rubber layer interposed with a foamed rubber layer formed by foaming a rubber having cross-cell particles to absorb attenuated air transfer and solid transfer sound in the secondary buffer rubber layer; It is bonded to both sides of the synthetic rubber layer to give an adhesive force for bonding to the finishing mortar layer of the building, and primarily absorbs the air transfer and solid transfer to the synthetic rubber layer, the air transfer absorbed and remaining in the synthetic rubber layer It comprises a butyl rubber layer for absorbing sound and solid transfer sound, the synthetic rubber layer is formed through a plurality of through holes through the upper and lower surfaces to absorb and filter the vibration transmitted through the building, two of the through What is formed in the primary buffer rubber layer is formed in the form of a groove that is not completely penetrated and the end is blocked.

In Korea Utility Model Application No. 20-2005-0006795, the soundproof pad for preventing noise between floors of a multi-storey building is provided with a plurality of upper and lower impact bumps on the upper and lower surfaces of the pad body in a flat shape at regular intervals. Four lower buffering protrusions are formed on the lower sides of the protrusions, and a soundproof plate having a flat plate shape is attached to the upper end of the upper buffering protrusion so that an air layer is formed between the upper surface of the pad body and the soundproofing plate. The shock and vibration sound transmitted from the sound absorbing plate provided on the pad body and the air layer formed between the sound insulating plate and the upper surface of the pad body are blocked and absorbed by the plurality of upper and lower impact bumps formed on the upper and lower surfaces of the pad body. Attenuation is to more effectively block the noise generated between the floors of the multi-storey building.

The Korean Utility Model Application No. 20-2006-0023555 is a soundproof panel for building interiors is made by solidifying the waste paper, the groove surface having a regularly smooth bottom surface over the same interval on one side is formed recessed, the back surface is the groove surface Protruding surface is formed in the form of unevenness due to the depression of the sound absorbing hole is opened in the direction facing the bottom surface of the groove surface along the circumferential direction of the inner wall surface of each groove surface, the back surface through the sound absorption hole At the same time, the outside air flows into the air, and at the same time, the noise reflected through the groove surface is introduced into the chamber formed between the protrusion surfaces by the protrusion surface of the rear surface through the sound absorbing hole opened in the direction facing the groove surface. And sound absorption can be induced.

Domestic Patent Application No. 10-2003-0027851 (2003.04.30), Domestic Patent Application No. 10-2007-0010317 (2007.01.31), Domestic Utility Model Application No. 20-2005-0006795 (2005.03.14), Korea Utility Model Application No. 20-2006-0023555 (2006.08.31)

However, in such a conventional configuration, Korean Patent Application No. 10-2003-0027851 (2003.04.30), Domestic Patent Application No. 10-2007-0010317 (2007.01.31), and Korean Utility Model Application No. 20-2005-0006795 (2005.03.14), Korean Utility Model Application No. 20-2006-0023555 (2006.08.31), all have the function of sound absorption and insulation, so if a fire occurs, it is weak to fire and easily burns or extinguishes fire. The damage caused by the harmful gases generated by hard and fire increases the damage to life, polluting the environment, as well as causing many problems that the whole structure falls down due to melting without melting. The sound absorption effect was also inadequate, causing many problems.

The present invention consists of a main board consisting of a thin plate material and a density of vermiculite powder of at least 1000Kg / ㎥ or more, and the density of vermiculite powder bonded to both sides of the main board is composed of 600 ~ 650Kg / ㎥ A plurality of sound absorbing holes are formed on the outer surface of the sound absorbing board and the sound absorbing board integrally bonded to both sides of the main board, and at least two side surfaces of the main board protrude from the sound absorbing board, and the remaining two side surfaces are recessed. It consists of what was comprised.

In addition, the vermiculite powder has a density of 600 ~ 650Kg / ㎥ on both sides of the panel where the main board and the sound absorbing board are integrally formed. It is achieved by providing a fireproof soundproof panel composed by joining the floorboards integrally.

According to the present invention, the construction is added to the wall or the outer wall that divides the space from the building or the ship, and the panel is installed in such a way that the fire is not burned, the insulation is excellent, and there is almost no heat deformation. It has the effect of reducing the damage to property and the effect of inhaling the noise by the sound absorbing hole.

And because it is environmentally friendly, it is easy to dispose of when disposing, and provides a fireproof soundproof panel that does not harm the human body.

1 is a configuration diagram showing a configuration state of the present invention.
2 is an exemplary view showing a coupling state according to the present invention.
Figure 3 is a construction state cross-sectional view showing a construction state of the present invention.
Figure 4 is a construction state cross-sectional view showing a construction state of another configuration of the present invention.

Looking at the present invention in detail by the accompanying drawings, first consisting of a thin plate as shown in Figure 1 constitutes the main board 10 consisting of at least 1000Kg / ㎥ or more density of vermiculite powder.

And the vermiculite powder is formed of a vermiculite board consisting of 600 ~ 650Kg / ㎥ and forms a plurality of sound absorbing holes 21 on the surface to constitute a sound absorbing board (20).

Next, the sound absorbing boards 20 are integrally bonded to both the left and right sides of the main board 10, and the sound absorbing boards 20 are configured such that the sound absorbing holes 21 are exposed to the outside. .

At this time, in bonding the sound absorbing board 20 to both sides of the main board 10, as shown in Figure 2, at least two side cross-section of the main board 10 protrudes more than the sound absorbing board 20 to the convex portion 11 To form, the other two side cross-section is configured to facilitate the coupling when constructing the concave inlet portion 30 to be concave.

In constructing the present invention configured as described above, in fitting the present invention to the space between the wall configured to sandwich the heat insulating material in the existing middle, as shown in Figure 3, the main board 10 protruding convex portion ( 11) is inserted into the concave inlet portion 30 formed by the sound absorbing board 20 to be integrally coupled to the construction.

The present invention installed as described above is not burned, has excellent thermal insulation, and does not melt even at high temperatures in the fire, thereby maintaining the original state, thereby reducing human damage and property damage, and absorbing noise from the sound absorbing hole 21. At the same time, a large amount of space is secured so that the air is insulated.

In order to use the present invention as a wall by itself, as shown in FIG. 4, a plurality of sound absorbing holes 21 outside the sound absorbing board 20 of the present invention are formed integrally with the main board 10 and the sound absorbing board 20. The formed surface is bonded to the reinforcing board 40 made of a flat plate consisting of 600 ~ 650Kg / ㎥ of density of vermiculite powder, and is formed by integrally bonding the finishing melamine cosmetic plate 50 to the outer surface.

The present invention configured as described above can be constructed directly as a wall partitioning the interior space, which is easy to install and acts as a firewall in case of fire, but also provides sound insulation and insulation effect.

10: main board 11: iron 20: sound absorption board
21: sound absorption hole 30: recessed portion 40: reinforcement board
50: melamine cosmetic

Claims (2)

Main board 10 made of a thin plate and composed of at least 1000Kg / ㎥ or more density of vermiculite powder,
Sound absorbing board 20 and the density of vermiculite powder bonded to both sides of the main board 10 is composed of 600 ~ 650Kg / ㎥,
A plurality of sound absorbing holes 21 formed on the outer surface of the sound absorbing board 20 integrally bonded to both sides of the main board 10,
At least two side end surfaces of the main board 10 protrude from the sound absorbing board 20 to form the convex portion 11, and the other two side cross sections include the concave inlet portion 30 configured to be concaved. Fireproof soundproof panel structure characterized in that.
The method of claim 1,
Bonding the reinforcement board 40 made of a flat plate without any processing, the density of vermiculite powder is composed of 600 ~ 650Kg / ㎥ on both sides of the panel formed by the main board 10 and the sound absorbing board 20 integrally, Fire-proof soundproof panel structure characterized in that the outer surface is formed by integrally joining the melamine cosmetic plate 50.

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