KR102341126B1 - Precasting lightweight panel with improved sound insulation using the waste of incineration plant and manufacturing method of the same - Google Patents

Abstract

The present invention relates to a prefabricated lightweight panel, a manufacturing method thereof and a wall body manufactured therefrom, and more specifically, to a prefabricated lightweight panel with excellent sound insulation using waste of an incineration plant, a manufacturing method thereof and a wall body manufactured therefrom, wherein a waterproof finishing plate material such as a waterproof gypsum board, which is a dry finishing material, is used on the outer surface of a mold, a connection member with a concave-convex structure is used between the waterproof finishing plate materials to be integrated as one body, thereby constituting a hollow unit panel molded in a tetrahedral shape, a plurality of the unit panels are bound to constitute one panel assembly, and a cushioning sheet and a flat pallet are combined below the panel assembly, thereby completing a prefabricated lightweight concrete panel. In addition, the flat pallet below the fabricated lightweight concrete panel can be mounted on a curing frame of a floor heater type and lightweight foam concrete can be injected and cured above the fabricated lightweight concrete panel to complete and provide a wall body. Curing and shipment are carried out directly without an additional process after filling the lightweight foam concrete into the fabricated lightweight panel, thereby exhibiting excellent sound insulation, fire resistance, lightness, ease of construction, productivity and economic efficiency.

Description

Precasting lightweight panel with improved sound insulation using the waste of incineration plant and manufacturing method of the same

The present invention relates to a prefabricated lightweight concrete panel used as a wall of a prefabricated house, apartment or building, a method for manufacturing the same, and a wall manufactured therefrom,

In more detail, the outer surface of the formwork uses a waterproof finishing plate such as a waterproof gypsum board, which is a dry finishing material, and uses a connecting member of a concave-convex structure between the waterproof finish plates to be integrally coupled to form a tetrahedral hollow unit panel. make up,

A plurality of unit panels are bundled to form a single panel assembly,

A prefabricated lightweight concrete panel completed by combining a cushioning sheet and a flat-type pallet to the lower part of the panel assembly;

In addition, after placing a flat pallet under the prefabricated lightweight concrete panel on an ondol-type curing frame, and then injecting and curing lightweight foam concrete into the upper portion of the prefabricated lightweight concrete panel, it is possible to provide a wall that is completed. Prefabricated lightweight panel with excellent sound insulation performance using incinerator waste with excellent sound insulation, fire resistance, lightness, constructability, productivity and economic feasibility, which is cured and shipped immediately without additional process after filling the inside of the panel with lightweight foam concrete, manufacturing method thereof and to a wall made therefrom.

In modern architecture, the proportion of walls among buildings is very large. Walls are closely related to human life. It is an important component that not only provides a physical, mental, and cultural base necessary for human housing activities, but also promotes stability and hygiene.

In particular, today's advanced living environment demands excellent wall systems ranging from sound insulation, fire resistance, impact resistance, conductivity and other aesthetic aspects.

In recent years, various building materials have been applied for large-scale, high-rise, and high-end buildings, and among them, prefabricated panels of buildings are used in various buildings. The prefabricated panel is a product that can replace the shortage of construction manpower because it is easy to assemble and install. When it is equipped with simple construction, excellent physical properties, and economic feasibility, the demand for prefabricated panels is expected to grow significantly due to the advantages of the prefabricated panel.

Conventional concrete or masonry walls constituting the walls of recent buildings have many advantages that only concrete has, but have difficult problems such as load, construction, and handling of the building.

Therefore, various panel walls are being developed to solve the defects of general concrete, but problems such as sound insulation, activity resistance, thermal conductivity, lightness, and workability must be taken into consideration and, in particular, manufactured by improving the excellent production method of panels. Cost reduction is very important.

Conventional prefabricated walls of residential buildings are known as lightweight wall panels filled with foamed concrete, EPS pole concrete, or combined pole foamed concrete made by foaming a foaming agent between dry finishing materials, but problems in sound insulation, fire resistance, and workability due to weight In addition to this, there is a disadvantage in that the manufacturing cost increases because various production processes such as mold making, curing, and transport are combined during production.

Republic of Korea Patent Registration 10-1339030 (Registration date December 03, 2013) Republic of Korea Patent Registration 10-1306936 (Registration Date September 04, 2013) Republic of Korea Patent Registration 10-1680470 (Registration Date November 22, 2016) Republic of Korea Patent Registration 10-2158500 (Registration Date September 21, 2020) Republic of Korea Patent Registration 10-0665245 (Registration Date December 28, 2006)

In order to solve the problems of the prior art, the present invention consists of a single lightweight panel assembly by bending a plurality of tetrahedral molded unit panels with a connecting member forming a dry finish and a concave-convex structure connecting them,

In the lower part of the lightweight panel assembly, a buffer sheet of a size that can cover the entire lower area of the lightweight panel assembly and a flat pallet are integrated,

After the lightweight panel assembly integrated with the flat pallet is seated on an ondol-type curing frame, incineration ash, coal ash, etc., which generally have a low specific gravity, are used to evenly mix countless bubbles into the interior of the lightweight panel assembly. Prefabricated lightweight panel with excellent sound insulation performance using incinerator waste that not only improves performance, but also reduces manufacturing cost through simplification of the production process by allowing it to be shipped immediately without additional processes such as curing and demolding after injection What is to be provided is an object of the invention.

In order to achieve the above object,

The present invention relates to a prefabricated lightweight panel that is integrally formed by forming a finishing material,

A tetrahedral hollow unit panel having both sides installed between the waterproof finishing material and the waterproof finishing material, the unit panel being coupled to both ends of the waterproof finishing material and including connecting members integrally formed with the waterproof finishing material;

a lightweight panel assembly in which a plurality of unit panels are arranged so that the waterproof finishing material and the waterproof finishing material of the unit panel are in contact with each other and subjected to bending treatment;

a buffer sheet installed under the lightweight panel assembly;

a flat-panel pallet installed under the cushioning sheet;

Provided is a prefabricated lightweight panel having excellent sound insulation performance using the incinerator waste, characterized in that it includes; the lightweight foam concrete filled in the interior of the lightweight panel assembly, including incinerator waste.

and,

The present invention relates to a method for manufacturing a prefabricated lightweight panel integrally formed by forming a finishing material,

Manufacturing a unit panel having a hollow tetrahedral shape, including a connecting member on both sides of which is composed of a waterproof finishing material, installed between the waterproof finishing materials, and coupled to both ends to form an integral body with the waterproof finishing material;

manufacturing a lightweight panel assembly integrated with bending in a state in which a plurality of unit panels are arranged so that the unit panels are in contact with each other in the lateral direction;

After attaching the cushioning sheet to the lower portion of the lightweight panel assembly, installing a flat-panel pallet under the cushioning sheet, fixing the lightweight panel assembly to the flat-type pallet;

Prefabricated lightweight panel with excellent sound insulation performance using incinerator waste, comprising the step of seating the flat pallet on the ondol-type curing frame and then curing the lightweight foam concrete containing the incinerator waste into the upper part of the prefabricated lightweight panel assembly A manufacturing method is provided.

A prefabricated lightweight panel having excellent sound insulation performance using incinerator waste according to the present invention and a method for manufacturing the same have the following effects.

first. The prefabricated lightweight panel according to the present invention can be easily constructed in all seasons without specific construction equipment, and can be widely applied due to the advantages of the lightweight panel such as precision of the product, sound insulation performance, and shortening of air and excellent economical efficiency.

second. The panel manufacturing method according to the present invention has excellent effects in manpower reduction, production increase, efficient use of factories, and the like.

third. Coal ash, slaked lime, calcined gypsum, waste gypsum, waste lime, desulfurized gypsum, slag dust, or any one or two or more kinds of non-foaming materials selected from dust generated at worksites together with foamable incineration ash constituting lightweight foamed concrete injected into prefabricated lightweight panels By neutralizing alkalinity using dust, foaming performance is controlled, so that the prefabricated panel increases specific gravity and strength, and provides an effect of reducing odor.

fourth. Incineration ash, which is the main material of the prefabricated lightweight panel according to the present invention, is innumerable from household waste to paper, wood, resin, and the like. Due to the inevitable confrontation between incineration ash, social and economic value can be realized through technological development for the recycling of incineration ash.

1 is an exploded perspective view showing a first embodiment of a unit panel constituting a prefabricated lightweight panel according to the present invention.
Figure 2 is a perspective view of the combination of Figure 1;
Figure 3 is an exploded perspective view showing a second embodiment of the unit panel constituting the prefabricated lightweight panel according to the present invention.
Figure 4 is a perspective view of the combination of Figure 3;
5 is a perspective view showing a first embodiment of a lightweight panel assembly according to the present invention.
6 is a perspective view showing a second embodiment of a lightweight panel assembly according to the present invention;
7 is a perspective view illustrating a fastening relationship between the lightweight panel assembly shown in FIG. 5 and the lightweight panel assembly;
8 is a front view showing the basic structure of the connecting member constituting the prefabricated lightweight panel according to the present invention.
9 is a front view illustrating a deformed form by forming a bent portion on the connecting member shown in FIG. 8;
10 is an exploded perspective view of a prefabricated lightweight panel according to the present invention, in a state before lightweight foam concrete is injected.
11 is a coupling view of the prefabricated lightweight panel shown in FIG.
12 is a perspective view showing a state in which lightweight foam concrete is injected as a prefabricated lightweight panel according to the present invention.
13 is a perspective view showing a state in which lightweight foam concrete is injected as a prefabricated lightweight panel of another embodiment according to the present invention.

Hereinafter, a technical configuration of a prefabricated lightweight panel having excellent sound insulation performance and a manufacturing method thereof using waste from an incinerator according to the present invention will be described in detail with drawings.

In the description of the technical configuration and operation of the present invention, if the related known technology distorts the gist of the present invention, the detailed description is omitted, and it should be interpreted so as to conform to the technical facts of the present invention.

As shown in Figures 1 to 13,

The prefabricated lightweight panel (1) according to the present invention is a prefabricated lightweight panel that is integrally formed by forming a finishing material,

A hollow on a tetrahedron including a connection member 12 having both sides installed between the waterproof finishing material 11 and the waterproof finishing material 11, coupled to both ends of the waterproof finishing material 11 and forming an integral with the waterproof finishing material unit panel 10 forming a;

a lightweight panel assembly 20 in which a plurality of unit panels 10 are arranged so that the waterproof finishing material 11 and the waterproof finishing material 11 of the unit panel 10 are in contact with each other by bending;

a buffer sheet 30 installed under the lightweight panel assembly;

A flat-panel pallet 40 installed on the lower portion of the cushioning sheet;

It is filled in the interior of the lightweight panel assembly (20), lightweight foam concrete (50) containing incinerator waste; includes.

In domestic buildings, walls and floors made of 100-210 mm of concrete are connected to each other to form a single structure. Therefore, in terms of providing a comfortable space for occupants, it is very important to secure excellent physical properties and economic feasibility through a simple production method.

As described above, as shown in FIGS. 1 and 2, the unit panel 10 is formed by firmly attaching the unit panel 10 of the concave-convex structure at both ends to the dry waterproof finishing material 11 in a tetrahedral shape. ,

As shown in FIGS. 10 to 13 , the lower portion of the lightweight panel assembly 20 composed of a plurality of the unit panels 10 is coupled to the cushioning sheet 30 and the flat pallet 40 .

By attaching a double-sided tape or applying an adhesive to the upper surface of the cushioning sheet 30, it is integrated with the lightweight panel assembly 20, and the flat pallet 40 and the lightweight panel assembly 20 with their own load Due to this, a strong coupling structure is formed between the lightweight panel assembly 20 , the cushioning sheet 30 and the flat pallet 40 .

In the state of having such a combined structure, it is raised on the ondol-type curing frame 200 formed to fit the lower structure of the flat pallet 40, and then foamed through the upper part of the lightweight panel assembly 20, which is empty inside. The lightweight foam concrete 50 containing incineration ash is filled.

As another embodiment, the unit panel 10 may present a form in which one or more pipes 101 are embedded in a hollow interior as shown in FIGS. 3 and 4 .

This is to prevent the lightweight foam concrete 50 from overflowing onto the panel when the lightweight foam concrete 50 is filled, and a lightweight foam concrete inlet groove 101a is formed at the upper end of the pipe 101 to fill in excess. This is to prevent the foamed concrete from overflowing onto the panel by allowing the foamed concrete to flow into the pipe 101 through the lightweight foamed concrete inlet groove 101a.

At this time, the portion where the pipe 101 and the waterproof finishing material 11 abut is attached using an acrylic copolymer, vinyl acetate emulsion, or a strong adhesive, thereby firmly fixing the unit panel 10 .

The prefabricated lightweight panel 1 according to the present invention presented as described above is a functional wall with excellent workability by simplifying several processes unlike the conventional method, and excellent sound insulation due to the use of lightweight aerated concrete containing foamable incinerator. is utilized

The waterproof finishing material 11 may be used by waterproofing dry finishing materials corresponding to various types of gypsum board.

And the connection member 12 uses an iron material such as aluminum,

The connection between the waterproof finishing material 11 and the connecting member 12 is selected from an acrylic copolymer, a vinyl acetate emulsion, or a strong adhesive so that it is firmly attached.

The connecting member 12 includes a first connecting member 121 and a second connecting member 122 forming a concave-convex structure as shown in FIGS. 1, 3, 7, and 8,

9, including a bent portion bent in a hemispherical, triangular, or rectangular structure in the direction opposite to each other at the same position on one side of the first connecting member 121 and the second connecting member 122,

By combining the lightweight panel assembly 20 and the lightweight panel assembly 20, the first connection member 121 forming the coupling with the second connection member 122 comes into contact with each other and is circular by the bent portion 102, A rhombus shape, a rectangular shape of the wire pipe 103 is to be formed.

The first connecting member 121 and the second connecting member 122 shown in Figs. 1 to 8 are provided in a basic form, and a modified embodiment thereof is shown in Fig. 9 . That is, the form shown in FIGS. 1 to 8 is a structure in which a separate wire pipe 103 is not formed, but the form shown in FIG. 9 is a rectangular structure in (a), a rhombus structure in (b), (c) It is a structure in which the spherical structure of the wire pipe 103 is formed.

In order to form the conduit 103 for the electric wire, as shown in FIG. 9 , a bent portion 102 must be formed on one side of the first connecting member 121 and the second connecting member 122 .

5, 6, 7, and 10, the banding process for forming the lightweight panel assembly 20 is performed by using a polypropylene (PP) band 20a to tightly tighten and integrally fix the pallet when moving, filling, and loading. Make sure there is no shaking.

The cushioning sheet 30 is made of a mat-type cushioning material having a thickness of 1 to 10 mm in which polyethylene resin is foamed 5 to 40 times.

As shown in FIGS. 10 to 13 , after raising the pallet on the ondol type curing frame 200 , as shown in FIGS. 12 and 13 , foaming lightweight foam is passed through the upper part of the lightweight panel assembly 20 . After the concrete 50 is filled and cured, loading is possible immediately without a subsequent process.

In this case, the foamable lightweight foam concrete 50 is foamed incinerator; cement or quenched slag powder; And any one or two or more non-foaming dust selected from coal ash, slaked lime, calcined gypsum, waste gypsum, waste lime, desulfurized gypsum, slag dust, or dust generated in the workplace; With respect to 100 parts by weight of the inorganic material mixture comprising,

1.0 to 10 parts by weight of an acrylic copolymer or vinyl acetate emulsion;

40.0 to 80.0 parts by weight of water.

The inorganic material mixture is

40.0 ~ 90.0 wt% of foamable incineration material having a particle size of 2 mm or less generated when any one or two or more types of paper sludge, wood, resin, or household waste are incinerated at a temperature of 700 ~ 950 ° C;

2.0 to 20.0 wt% of cement or quenched slag powder;

It contains 2.0 to 40.0 wt% of any one or two or more non-foaming dusts selected from coal ash, slaked lime, calcined gypsum, waste gypsum, waste lime, desulfurized gypsum, slag dust, and dust generated in the workplace.

The foamable incineration ash is dust collection dust generated when any one or two or more of paper sludge, wood, resin, or household waste is incinerated at a temperature of 700 to 950 ° C. Generally, hydrogen chloride (HCl) in exhaust gas and sprayed slaked lime are used. generated by reaction.

The foamable incineration ashes generate heat and hydraulic properties due to foaming, slaked lime, and foaming by hydrogen chloride when reacting with water.

The incineration ash has a difference in foaming properties due to the difference in the amount of hydrogen chloride and slaked lime added performance can be adjusted.

In this way, when excessive foaming using the foamable incinerator material increases the lightness, but the durability may be reduced, it is necessary to adjust the foaming to be performed properly. is increased, providing an effect of reducing odor.

For example, in the case of the paper incineration ash, the chemical composition is shown in Table 1 below.

Chemical composition of paper incineration ash Test Items SiO ₂ Al ₂ O ₃ CaO SO ₃ Apparent specific gravity (g/cm2)
0.58 result(%) 31.4 16.5 34.5 0.8

Most of the incineration ash generates hydrogen chloride when reacting with water, so gaseous foaming occurs without mixing a separate foaming agent.

One or two or more types of the incinerator may be used depending on the type, but in the case of an incinerator that reacts with water to generate irregular and excessive foaming, non-foaming incineration ashes, non-foaming dust or neutralizing agents are used by mixing it is preferable

The incineration ash has a lot of influence on specific gravity, strength, sound insulation, etc. depending on the ratio of use. When the incinerator is used at less than 40.0 wt% of the total weight of the inorganic material mixture, the specific gravity is high, and the workability is lowered, and the workability is higher than 90.0 wt% Therefore, it is preferable to maintain a blending ratio of 40.0 to 90.0 wt% with respect to the total weight of the inorganic material mixture, since strength and sound insulation performance are reduced when used.

The cement or quenched slag powder can be used alone or in combination. At this time, when it is used at less than 2.0 wt%, its hydraulic property becomes weak and it is difficult to maintain the minimum strength of the filler, and when it is used in excess of 20.0 wt%, it is uneconomical and Since there is a disadvantage in that the weight is heavy, it is preferable to maintain a blending ratio of 2.0 to 20.0 wt% with respect to the total weight of the inorganic material mixture.

The coal ash is generated as a by-product in a thermal power plant, and the chemical main component is SiO ₂ , Al ₂ O ₃ In addition, CaO, MgO, Fe ₂ O ₃ and unburned carbon powder are contained, and the coal ash mixed and used in the present invention is It can be used as a flooring material with FLY ASH and dry specific gravity of 1.2 or less.

Among the pozzolan materials, the coal ash is generated when pulverized coal is burned in a thermal power plant. At this time, the coal ash collected in the dust collector after combustion and the floor ash cooled by water falling on the bottom of the boiler after combustion have a specific gravity of 1.2 or less.

When the amount of the non-foaming dust containing coal ash is less than 2.0 wt%, the fluidity and activation of the pozzolan reaction are weak, and when used in excess of 40.0 wt%, the sound insulation and strength are lowered and economic feasibility is lowered. It is preferable to maintain a blending ratio of 2.0 to 40.0 wt% with respect to the total weight of the material mixture.

Through the important properties of foamable lightweight foam concrete presented above, it has effects of lightness, thermal conductivity, workability and economy, and has the advantage of particularly excellent sound insulation.

Light-weight foamed concrete using only conventional cement is easy to transport and has good workability, but it has disadvantages such as insufficient sound insulation effect, severe cracking, and long curing time because the cells are composed of closed cells. .

The physical properties of the lightweight foam concrete according to the present invention prepared as described above and the conventional product are compared as follows.

Comparison of properties between lightweight aerated concrete according to the present invention and conventional aerated concrete products Item Light-weight foam concrete of the present invention Conventional aerated concrete Density (kg/m3) 500-800 400-450 Compressive strength (kg/㎠) 10-12 8-9 Thermal conductivity (Kcal/mh℃ 0.18~0.20` 0.25~0.30` curing time 6-8 24-36 Based on sound insulation performance (500 Hz) 35-45 dB 65-70

As shown in Table 2, it can be seen that the lightweight aerated concrete according to the present invention has a higher density than conventional aerated concrete, and the sound insulation performance is greatly improved due to continuous pores and watertightness.

The table shown in Table 3 below shows that the lightweight aerated concrete according to the present invention was poured into a 180 mm slab to a thickness of 70 mm and as a result of the test, the noise reduction ability was very good. Through this, it can be confirmed that the lightweight foam concrete according to the present invention can be used as a sound insulation material between floors in the future.

Freq. 180 na slab 180 integration method cheek bang tapping Ball (9/30) Bang (9/30) tapping 80 59.3 65.4 49.3 52.6 63 44.5 100 59.5 60.3 46.9 55.3 60.8 42.5 125 63.3 60.6 55.3 62.8 65.2 53.5 160 63.3 60.6 55.3 62.8 65.2 53.5 200 62.8 58.2 59.3 57.9 59.5 54.2 250 59.3 55.7 60.3 54.7 59.7 55.7 315 55 52.2 60.3 54 54.6 57.4 400 51 44 58.5 51.5 48.3 57.8 500 46.4 43.9 59 46.1 48 59.3 630 43.1 40.8 60.8 43.3 40.9 61.9 800 41.7 40.4 62 45 40.9 65.9 1000 39.5 39.7 62.3 43.3 39.1 66.9 1250 38.2 39.9 63 43.7 39.1 67.9 1600 38.3 41.3 62.7 40.1 38.2 65.5 2000 38.4 39.2 62.1 34.2 35.3 61.4 2500 35.5 33.6 60.3 29 33.3 55.4 3150 - - 57.7 - - 43.7 4000 - - 54.4 - - 43.7 5000 - - 49.8 - - 39.1 Inverse-A 53 53 67 51 55 -

The manufacturing process for the prefabricated lightweight panel having excellent sound insulation performance using the waste incinerator according to the present invention as described above is summarized as follows.

Both sides are composed of a waterproof finishing material 11, and are installed between the waterproof finishing materials 11, and are coupled to both ends to form a hollow on a tetrahedron including a connection member 12 that is integral with the waterproof finishing material 11 manufacturing a unit panel 10;

In a state in which a plurality of the unit panels 10 are arranged so that the waterproof finishing material 11 and the waterproof finishing material 11 of the unit panel 10 are in contact with each other, the unit panel 10 is subjected to bending treatment to produce an integrated lightweight panel assembly 20 step and

After attaching the cushioning sheet 30 to the lower portion of the light-weight panel assembly 20, a flat-type pallet 40 is installed under the cushioning sheet, and the light-weight panel assembly 20 is formed on the flat-type pallet 40 fixing to the

After the flat pallet 40 is seated on the ondol-type curing frame 200, the lightweight foam concrete 50 containing the incinerator waste is injected into the prefabricated lightweight panel assembly 20 and then cured. .

The prefabricated lightweight panel with excellent sound insulation performance using incinerator waste according to the present invention can be easily constructed in all seasons without specific construction equipment, and can be widely applied due to the advantages of lightweight panels such as product precision, sound insulation performance, and shortened construction period and excellent economic feasibility. It has excellent effects on manpower reduction, production increase, and efficient use of factories.

Incineration ash, the main material used for lightweight foam concrete injected into prefabricated lightweight panels, is innumerable from household waste to paper, wood, and resin. Since the confrontation with waste reduction is inevitable, social and economic values can be realized through technology development for the recycling of incinerated ash, so it has great industrial applicability.

10: unit panel
20: lightweight panel assembly
30: cushioning sheet
40: flat pallet
50: lightweight foam concrete

Claims (7)

Both sides are composed of a waterproof finishing material 11, and are installed between the waterproof finishing materials 11, and are coupled to both ends to form a hollow on a tetrahedron including a connection member 12 that is integral with the waterproof finishing material 11 manufacturing the unit panel 10;
In a state in which a plurality of the unit panels 10 are arranged so that the waterproof finishing material 11 and the waterproof finishing material 11 of the unit panel 10 are in contact with each other, the unit panel 10 is subjected to bending treatment to manufacture an integrated lightweight panel assembly 20 step and
After attaching the cushioning sheet 30 to the lower portion of the light-weight panel assembly 20, a flat-type pallet 40 is installed under the cushioning sheet, and the light-weight panel assembly 20 is formed on the flat-type pallet 40 fixing to the
After the flat pallet 40 is seated on the ondol-type curing frame 200, the lightweight foam concrete 50 containing the incinerator waste is injected into the prefabricated lightweight panel assembly 20 and then cured.
A hollow on a tetrahedron including a connection member 12 having both sides installed between the waterproof finishing material 11 and the waterproof finishing material 11, coupled to both ends of the waterproof finishing material 11 and forming an integral body with the waterproof finishing material unit panel 10 forming a;
A lightweight panel assembly 20 in which the waterproof finishing material 11 and the waterproof finishing material 11 of the unit panel 10 are integrated by bending in a state in which a plurality of the unit panels 10 are arranged so that their surfaces are in contact with each other;
a buffer sheet 30 installed under the lightweight panel assembly;
A flat-panel pallet 40 installed on the lower portion of the cushioning sheet;
In the prefabricated lightweight panel having excellent sound insulation performance by using incinerator waste filled in the interior of the lightweight panel assembly 20, and comprising lightweight foam concrete 50 including incinerator waste,
In the unit panel 10, one or more pipes 101 are embedded in a hollow interior,
In order to prevent the lightweight foam concrete from overflowing over the panel when filling the lightweight foam concrete, a lightweight foam concrete inlet groove 101a is formed at the upper end of the pipe 101 so that the lightweight foam concrete filled in excess is the lightweight foam concrete Prefabricated lightweight panel with excellent sound insulation performance using incinerator waste, characterized in that it is introduced into the pipe 101 through the inlet groove 101a to prevent overflow over the panel.
delete delete The method according to claim 1,
The buffer sheet 30 is a foamed polyethylene resin mat with a thickness of 1 to 10 mm,
Prefabricated lightweight panel with excellent sound insulation performance using incinerator waste, characterized in that the lightweight panel assembly 20 and the double-sided tape or adhesive are used to form an integrated body.
delete The method according to claim 1,
The connecting member 12 includes a first connecting member 121 and a second connecting member 122 forming an uneven structure,
Including a bent portion bent in a hemispherical, triangular, or rectangular structure in the direction opposite to each other at the same position on one side of the first connecting member 121 and the second connecting member 122,
By combining the lightweight panel assembly 20 and the lightweight panel assembly 20, the first connection member 121 forming the coupling with the second connection member 122 abuts against each other and is circular by the bent portion 102, Prefabricated lightweight panel with excellent sound insulation performance using incinerator waste, characterized in that it forms a rhombus, square-shaped pipe for electric wire (103).
delete

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