KR101454309B1 - Lightweight panel for nondearing inside wall - Google Patents

Abstract

The present invention relates to a non-resistant inner wall lightweight wall used for dividing an inner space of a building in a multi-family house, a residential complex building, and a business building, and is characterized in that a mallet material inserted with a heat insulating material and a reinforcing steel material is integrated, Resistant inner wall lightweight wall.
Since the present invention as described above can integrate a vertical stiffener (stud) complicatedly installed in the field with an internal filler, that is, as a stud integrated type, it is possible to simplify the construction and thereby reduce the number of functional manpower and raw material costs, minimize the generation of on- There is an effect that can be greatly reduced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a lightweight panel for nondearing inside walls,

The present invention relates to a non-resistant inner wall lightweight wall used for dividing an inner space of a building mainly in apartment buildings, residential and commercial buildings and business buildings, and more specifically, a mortar material having insulation and reinforcing steel material inserted therein is integrated to lighten the weight and simplify construction Resistant inner wall light weight wall that can be used for a non-resistant inner wall.

Conventional non-load-bearing walls often use built-up wall elements that can be used for field construction to partition the interior depending on the purpose of use, such as offices, hotels, apartments, condominiums, etc., .

In the case of a wall plate member used for such an interior partition, in the case of a wall plate member used for an inner partition, a lining material of papers formed in a honeycomb form is generally built in, and a gypsum board and a cement body a partition member to which a body is attached is often used because it is weak in moisture due to its material properties and is not durable and is merely used for an inner compartment such as an office.

When manufacturing such a conventional built-in panel, the built-in panel, which is manufactured by using asbestos and a chemical additive in a state of being soaked in water, is sensitive to the weather change, and when the construction time passes, , The strength of the manufactured panel is lowered, the harmful substances are released to the human body, and the additional panel finishing work is required after the construction of the built-in panel. Therefore, the construction time is long and the used built- And the conventional built-in panel, which is produced in a manner other than the above, is heavy in its own weight, so that the load of the building is increased, and thus a lot of construction cost is required.

Therefore, recently, a wallboard member or an artificial lightweight aggregate, cement, sand, water, and other inorganic additives having a foamed polystyrene lightweight concrete mixture in the middle portion and a cement board attached to the outer side thereof, Extruded lightweight concrete panels manufactured by the process are widely used.

In addition, there is a demand for a method of simplifying a construction method by integrating a vertical reinforcing material (a stud) complicatedly installed in the site and an inner filling material, that is, a stud integrated type.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a heat insulating material which is formed in a plate shape, a mortar material which is formed in a bar shape and inserted inward from a rear part of the heat insulating material, It is possible to simplify the construction by integrating the insulating material and the mortar material including the reinforcing steel material inserted into the mortar material and the finishing material adhered to both sides of the heat insulating material and to make the wall more rigid supporting structure through the structural material of the reinforcing steel material and the mortar material Resistant inner wall light-weighted wall.

According to an aspect of the present invention, there is provided a non-proof inner wall light weight wall (10) comprising: a heat insulating material (20) formed in a plate shape; (30) formed in a bar shape and inserted into the heat insulating material (20) at a rear portion of the heat insulating material (20) to support the heat insulating material (20); A reinforcement metal 40 inserted into the molten metal 30 to prevent the molten metal 30 from being damaged; And a finishing material (50) attached to both surfaces of the heat insulating material (20), wherein the reinforcing steel material (40) is formed of a wire mesh in the form of a bending iron plate, and the reinforcing bars inserted in the mortar material Of fiberglass or iron core.

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In addition, the reinforcing steel material 40 may be formed in a horizontal cross-section in the shape of a c-shape, a-shape, T-shape, elliptical shape or elliptical shape.

Since the present invention as described above can integrate a vertical stiffener (a stud) complicatedly installed in the field with an internal filler, that is, the stud integrator, it is possible to simplify the construction and thereby reduce the number of functional manpower and materials, minimize the generation of on- There is an effect that can be greatly reduced.

In addition, the mortar material can be lightly formed by the lightweight bubble mortar of porosity, which can reduce the load applied to the building itself during construction. By inserting reinforcement steel into the mortar material, it is possible to form a more stable support structure have.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description of the invention, It should not be construed as limited.
1 is a perspective view of a non-resistant inner wall light wall as an embodiment of the present invention.
2 is a plan view showing a state in which a plurality of non-proof inner wall light weight walls are connected according to an embodiment of the present invention.
3 is a horizontal cross-sectional view illustrating reinforcing steel material of a non-proof inner wall light wall in various shapes according to another embodiment.

It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention in any way, and the singular forms "a," "an," and "the" include plural referents unless the context clearly dictates otherwise. There are a plurality of embodiments of the present invention, and redundant explanations are omitted in the description.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

FIG. 1 is a perspective view of a non-proof inner wall light wall according to an embodiment of the present invention, FIG. 2 is a plan view of a plurality of non-proof inner wall light wall walls according to an embodiment of the present invention, And is a horizontal cross-sectional view showing the reinforcement steel of non-proof inner wall light weight wall in various shapes.

Referring to FIG. 1, in an embodiment of the present invention, the non-proof inner wall light wall 10 includes a heat insulating material 20 formed in a plate shape; A molten material 30 formed in a bar shape and inserted into the inside of the heat insulating material 20 at the rear portion of the heat insulating material 20 to support the heat insulating material 20; A reinforcement metal 40 inserted into the molten metal 30 to prevent the molten metal 30 from being damaged; And a finishing material 50 adhered to both surfaces of the heat insulating material 20.

Conventionally, when manufacturing a built-in panel, especially, it is manufactured by using asbestos and chemical additives in a state of being soaked in water. Such a built-in panel is sensitive to a change of weather, It takes a lot of construction time due to the fact that the appearance is not good, the strength of the manufactured panel is lowered, the material is harmful to the human body, and additional finishing work is required after the construction of the built-in panel.

However, since the non-proof inner wall light wall 10 according to one embodiment of the present invention as described above can integrate the vertical reinforcing material (stud), which is complicatedly installed in the field, with the inner filling material, that is, It is possible to reduce the manpower and raw material cost, minimize the generation of on-site waste, and greatly reduce the construction cost.

As shown in Figs. 1 and 2, the heat insulating material 20 can be formed in a rectangular parallelepiped shape, that is, a plate shape. That is, the heat insulating material 20 is preferably a plate-like material such as a material which maintains a certain shape and is less deformed.

As the heat insulating material 20, a porous material having a bubble wall structure containing a large amount of stagnant air having a low thermal conductivity as a material with a low thermal conductivity in order to reduce heat loss is generally used, but a fibrous material may also be used. Insulation materials are largely divided into organic insulation materials such as styrofoam and urethane foam, and inorganic insulation materials such as glass wool, mineral wool and gypsum.

Styrofoam, which is widely used as a heat insulating material (20), is a representative name of a heat insulating plate. Expanded polystyrene (chemical name) is called expanded polystyrene. It is heated and hardened by adding a foaming agent such as pentane or butane to polystyrene resin. It is made by polymerizing styrene monomer (SM).

Styrofoam is composed of a styrene polymer or copolymer containing a blowing agent and is supplied in the form of small beads or conical pellets of about 0.2 mm to 3.0 mm in length depending on the type.

Further, the styrofoam used as the heat insulating material 20 has the following characteristics.

It is very suitable for building material, refrigeration, and refrigerator (insulation, insulation) because it has very low thermal conductivity and is effective in blocking external or internal heat, cold and warming. It has excellent elasticity, less damage and less damage, and is used as a packing buffer (impact resistance) because of its excellent safety transport effect. It can be cut as desired with knife, saw, heating wire, etc. It is easy to attach and fix with adhesive or nail, so construction and workability are very good (workability, workability). It has excellent self-extinguishing ability, so it does not get burned easily and it relieves the worry of fire. Flame retardant (flame retardant) is used for general construction. It is formed as an independent closed bubble, which has a very small amount of water to be absorbed even when it is put into water for a long period of time as well as through the passage of moisture. This is effective for chemicals and packaging materials (water resistance, water resistance) It absorbs the noise from the outside and absorbs the noise inside. It is widely used for the walls and ceilings of the walls of the house, factory, office, music room, etc. (soundproof sound absorption).

1 and 2, the mortar 30 is formed in the shape of a bar having a rectangular parallelepiped shape. The molten material 30 is entirely inserted into the inner surface of the heat insulating material 20 from the rear surface of the heat insulating material 20, So as to fix the finishing material 50 in a more stable manner.

In other words, a rectangular parallelepiped reinforcing groove is formed in the rear portion of the heat insulating material 30 to a certain depth, and a reinforcing metal 40 and a lightweight foamed mortar in a liquid form are inserted into the reinforcing groove to cure the reinforcing steel 40 may be formed.

As shown in the figure, the reinforcing steel material 40 is inserted into the mortar 30 to prevent the mortar 30 from being damaged, i.e., cracked or collapsed.

In addition, the mortar 30, into which the reinforcing metal 40 is inserted, is inserted into a space secured in a certain direction in a part of the heat insulating material 20, thereby to improve the strength of the structural material of the non-resistant inner wall light wall 10 according to the embodiment of the present invention As shown in Fig. That is, the molten metal material 30 having the reinforcing steel material 40 inserted therein can help the non-proof inner wall light wall 10 including the heat insulating material 20 to secure a more stable supporting structure.

The mortar 30 may be formed of a material such as lightweight foamed mortar. That is, the mortar 30 can be lightly formed of a large number of porous, lightweight bubble mortar, which can reduce the load on the building itself during construction.

Lightweight foam mortar is a material that mixes several additives with cement as a main ingredient and mixes foam material that looks like a shaving foam in a highly fluid liquid slurry. This particular shape allows bubbles and mortar to be subjected to tensile stress characteristics typical of very low thermal conductivity, dynamic energy absorbency, high heat resistance and compression (not to be broken at once by compression impact, It has a constant resistance constantly) and it is very suitable for use as a mortar material.

Some representative characteristics of the lightweight foam mortar used for the mortar material 30 of the non-proof inner wall light wall 10 according to an embodiment of the present invention,

Lightweight bubble mortar can be manufactured in a wide range of formulations depending on the application and specific gravity, thus allowing the consumer to selectively use the desired thermal conductivity, and is excellent in insulation and prevention of condensation.

In addition, lightweight bubble mortar is a fine bubble structure with a density of 300 ~ 1200kg / M3, which is 1/4 ~ 1/5 of the weight of general concrete products. It is possible to make structures or bases that are fast even on weak ground and do not cause settlement phenomenon, and can reduce the load supporting under the construction layer. It is also lighter than water and does not absorb water well, so it can maintain low density.

In addition, the lightweight foam mallet is excellent in sound absorption and blocking properties, and its sound absorption property is about 51 times that of ordinary concrete due to the formation of numerous bubbles of porous material. It is widely used for walls and ceilings of factories, offices, do.

Lightweight bubble mortar can be produced in a wide range of formulations according to the application and specific gravity, thus allowing consumers to selectively use the desired strength. It has a high strength and hardness, which makes it a solid foundation for pavement (concrete, asphalt, And serves as a slab to distribute the load.

In addition, the lightweight bubble mortar can adjust the amount of bubble liquid and slurry in a fixed amount, and can operate the equipment automatically and continuously, so that the workability is excellent and the construction cost is reduced accordingly. In addition, since the foamed concrete is constructed directly on the site, it is not necessary to transfer the material and it can be constructed with the minimum number of people.

1 to 3, the reinforcing steel material 40 according to an embodiment of the present invention may be formed of a bent iron plate or a wire mesh.

As shown in FIG. 3, the reinforcing steel material 40 may be formed in various bent shapes, and the thickness thereof is preferably 0.5 to 1.5 mm, but is not limited thereto. In addition, the reinforcing steel material 40 may be formed of a wire mesh.

A wire mesh refers to a grid-like sheet formed by cold-rolling or drawn high-strength steel wire and arranging vertical and horizontal lines at right angles and joining the intersections by electric resistance welding. For wire mesh wire, smooth wire and deformed wire are used, and according to the used wire, it is divided into a smooth wire fabric and a deformed wire fabric. The circular welded wire mesh is adhered to the concrete by reliable mechanical fixation at each wire crossing point. In addition to the welded intersection points, the deforming performance of the wire also plays an important role in the adhesion and settlement of the concrete. I will exert.

This wire mesh is a foundation that receives the load of a building and can be applied to ceilings and slabs, various walls or columns, and is generally used for reinforcing concrete.

By using wire mesh, yield strength and tensile strength are high, so it is easy to reduce the requirements and light weight, minimize the loss of squeegee caused by the laying work, reduce material and simplify laying work and bond time (40% of reinforcing steel), it is possible to reduce labor costs and shorten the work time because novice users are unnecessary. In addition, the stress distribution of the members is uniform for pre-assembly, is effective for controlling the uniformity, and can be used in a wide range of applications such as PC panel meshes.

However, since the reinforcing steel material 40 may have a small bending strength required only by the wire mesh, it is preferably formed of a bent iron plate.

In addition, the reinforcing steel material 40 can be formed so as to catch reinforcing bars inserted in the mortar 30 by fiberglass in the form of a plane, or to bind more strongly to increase the tensile force. In addition, another iron core may be used to hold the reinforcing bars to be inserted into the reinforcing steel bar 40, and an e-type iron core may be used to increase the binding force.

Referring to FIG. 3, the reinforcing steel material 40 may be formed in a horizontal cross section or a planar shape, such as a, a, t, ellipse, or ellipse.

1 and 2, the reinforcing steel member 40 has a curved shape, Or V-shape. However, as shown in FIG. 3, the reinforcing steel body 40 may be formed in various embodiments. Particularly, FIG. 3 (a) shows the most representative form formed by the reinforcement metal 40.

That is, the reinforcing steel material 40 has a shape of "c" shaped as shown in FIG. 3 (a) rotated 90 degrees clockwise, "a type" shown in FIG. 3 (b) And may be formed of any one of a "T-shape", a "T-shape" of FIG. 3 (d), or an ellipse such as FIG. 3 (e).

When the reinforcing steel material 40 having various shapes as described above is inserted into the mortar material 30, the mortar material 30 having a higher strength can be obtained by firmly fixing or attaching the mortar material 30 to the reinforcing steel material 40. [ Can be formed.

As the finishing material 50, a commonly used gypsum board or the like may be used.

The gypsum board refers to a mixture of sawdust, fiber, pearlite, etc., with a lime stone as the main raw material, and in some cases, a foaming agent is added, kneaded with water and poured between two sheets to be hardened in a plate shape. Flat boards are used for walls and ceilings, and fire boards are used for lath boards. In addition, the sound-absorbing board is acoustically absorbable, and a decorative gypsum board having a surface printed or plated with plastic is used for the built-in wall.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: non-proof internal wall light wall 20: insulation
30: Mortar material 40: Reinforcing steel
50: Finishing material

Claims (3)

In a non-proof inner wall light wall,
A heat insulating material 20 formed in a plate shape;
A molten material 30 formed in a bar shape and inserted into the inside of the heat insulating material 20 at the rear portion of the heat insulating material 20 to support the heat insulating material 20;
A reinforcement metal 40 inserted into the molten metal 30 to prevent the molten metal 30 from being damaged; And
And a finishing material (50) attached to both sides of the heat insulating material (20)
Characterized in that the reinforcement steel (40) is formed of a wire mesh in the shape of a bent iron plate, and the reinforcing bars to be inserted into the molten metal material are held by fiberglass or iron core in a plane to increase the binding force. Walls. delete The method according to claim 1,
Wherein the reinforcement steel (40) is formed in a horizontal cross-section in the shape of a c-shape, a-shape, T-shape, ㅁ-shape or ellipse.

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