KR200276575Y1 - Composite panel for building - Google Patents

Abstract

The present invention maximizes building performance by placing lightweight foam concrete on the outside of foamed resin material to a certain thickness to enhance insulation, fireproof, and sound insulation effects, and also to reduce on-site weight, thereby facilitating on-site assembly processes and constructing high-rise buildings. The present invention relates to a composite composite panel that can achieve the effect of stability, material reduction, shortening of air, etc. The present invention forms a rectangular frame by joining a vertical member and a horizontal member with screws, bolts, etc. Concrete is laid so as to protrude at a predetermined interval with respect to both sides in the building composite panel for installing the exterior material or finishing material on each side, characterized in that the lightweight foamed concrete is poured out of the foamed resin material with a predetermined volume have.

Description

Composite panel for building

The present invention relates to a composite composite panel for building, and more particularly to a composite composite panel for maximizing the insulation, fire resistance, sound insulation effect while minimizing the weight by placing lightweight foam concrete on the outside of the foamed resin material.

The construction method of steel house which is generally used can be classified into stick method and panel method. In this method, stick method is to install upper and lower runners in the field first, and then assemble the screws by inserting studs at predetermined intervals in the installed runner members. Panel is a method of constructing the panel, the panel method can be said to be a method of constructing the panel in the field or factory after the studs are sandwiched between the upper and lower runner members to make a framework for construction.

These methods are completed by inserting insulation between the studs and studs and attaching gypsum boards or finishes to the surfaces after the framework is completed. It has to be fixed in accordance with the standard of the gypsum board and the joint processing of gypsum board can be a problem, and also the problem of deterioration of work efficiency and inaccurate processing due to cutting and construction of the member on site. As a result, labor costs increase due to the increase of material cost and work load due to the loss of material, etc., the total cost of construction increases and the period of construction takes longer.

In addition, in the case of the structure using the existing lightweight steel structure, after assembling the light steel frame during the construction of the insulation and soundproofing material for insulation and soundproofing, and filling the insulation or soundproofing material between the stud and the stud member, the filling is uncertain and soundproof And insulation problems may occur, and because the space between studs may not be tight, the sound of vibration may be generated when the wall is knocked, and these methods may be sufficient for the lateral force of the rock surface to be constructed with insulation and sound insulation. Since the rigidity cannot be guaranteed, problems such as breakage of the panel may occur. Therefore, it can be seen that additional reinforcement for breakage is required where there is a lot of human movement or impact.

In order to overcome these problems, a panel method has recently been attempted to produce lightweight framed concrete using a panel molding machine after a frame is manufactured in a factory or a site using the aforementioned panel method.

1 to 2 are a perspective view and a cross-sectional view showing the structure of a composite panel for building made by a conventional panel method by connecting the vertical member 200 and the horizontal member 300 by welding, screwing, etc. After the frame 400 was formed, the lightweight foamed concrete 500 was poured inside the rectangular frame 400 formed to protrude at a predetermined interval λ in the drawing, and then the exterior material 600 or the finishing material was installed on both sides.

Conventional building composite panel 100 formed as described above is easy to manufacture with a unity using only lightweight foam concrete 500, but when the construction of the building is heavy in weight due to the weight of the cured lightweight foam concrete to work in the assembly work There is a problem that the castle is mainly used for low-level structure of 2-3 floors can not be built high buildings.

The present invention was devised in view of the above problems, and its purpose is to pour lightweight foam concrete outside the foamed resin material to maximize the insulation, fire resistance, sound insulation effect, and minimize self weight, thereby facilitating assembly work. By adding a function as a light weight non-bearing wall through the control of the to provide the improved residential performance, such as weight reduction, insulation, fire resistance, sound insulation compared to the previous wall. Therefore, the present invention, unlike the prior art, has the importance of simultaneously providing the function of the load bearing and non-bearing walls.

1 is a perspective view showing the structure of a composite composite panel made by a conventional stud panel method.

Figure 2 is a cross-sectional view showing the structure of a conventional building composite panel.

Figure 3a is a side view of the building composite panel to which the technology of the present invention is applied

Figure 3b is a front view of the building composite panel to which the technique of the present invention is applied.

※ Explanation of code for main part of drawing ※

2: vertical member 3: horizontal member

4: square frame 5: lightweight foam concrete

6: exterior material 7: foamed resin

The purpose of the present invention is to form a rectangular frame by welding the vertical member and the horizontal member by welding, screws and bolts, and filling the foam resin material with a predetermined thickness therein, and then forming the lightweight foam concrete with a predetermined thickness in both directions. Characterized by pouring.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a cross-sectional view of a building composite panel to which the technology of the present invention is applied, whereby the building composite panel 1 of the present invention is formed by joining a vertical member 2 and a horizontal member 3 by welding or the like. Form the frame 4 of the light foamed concrete (5) is installed on the inside so as to protrude a predetermined interval to the outside of the rectangular frame (4) and the exterior material 6 is installed on its side. At this time, the foamed resin material 7 has a predetermined volume and is embedded in the inside of the lightweight foam concrete 5 so as to maximize the heat insulation, fire resistance, and sound insulation effects.

On the other hand, it is also possible to use foamed concrete in which the lightweight foamed concrete is formed by mixing the foam liquid in the material constituting the polyconcrete or the polyconcrete mixed with the foamed resin material. This is because there is an effect of reducing the weight when using the pole concrete and foamed concrete.

Cause the building costs for a way to get the thermal insulation, fire resistance, sound insulation effect, but a method for installing the insulation, refractory material, Materials for Enclosures additionally which becomes enlarged, the volume (weight) reduction to the one space of the structure This causes an increase in the air and lengthens the air during construction. In addition, there is a method of increasing the thickness of lightweight foamed concrete, which increases surface density and stiffness at the same time, but can increase the impact sound reduction effect to some extent, but almost the same result.

For example, when the thickness of lightweight foam concrete (5) is increased by 10%, it is possible to reduce the sound insulation function by about 2-3dB, but in reality, increasing the thickness makes the assembly work difficult due to the increase in weight due to its own weight when constructing the structure. Since there is a problem of pressure increase, it is impossible to expect the effects of air shortening, quality assurance, and cost reduction, which are the goals of building construction. Therefore, in order to improve these problems, it is possible to facilitate the assembly work by maximizing the insulation, fire resistance, sound insulation effect and minimizing the self-weight, and also light weight foaming inside the lightweight foam concrete to have structural advantages when constructing high building The resin material 7 is buried and the foamed resin material is applied differently according to its use (bearing strength or non-bearing wall).

In addition, the present invention can be applied to the strength and non-bearing wall of the building by adjusting its thickness. The scope of application is shown in Table 1 below.

Coverage division Usage Scale Remarks Bearing wall Residential 1st to 4th floor General house, townhouse, multi-family house, military barracks, studio Neighborhood Living Facilities 1st to 4th floor Commercial building, examination room, reading room, government office, etc. Non-bearing wall office High rise Non structural wall Apartment High rise Non structural wall

As above table, it is designed to be applied to almost all buildings.

The present invention having such a structure can facilitate the assembly work by maximizing the insulation, fire resistance, sound insulation and minimizing the self-weight by placing lightweight foam concrete on the outside of the foamed resin material. It is a useful design that has the effect of saving material, etc.

Claims (3)

Building composites where vertical and horizontal members are joined by welding, screws, bolts, etc. to form a rectangular frame, and light-bubble concrete is protruded at predetermined intervals in both directions, and an exterior material or finishing material is installed on each side. In the panel, Building composite panel, characterized in that the lightweight foamed concrete is poured out of the foamed resin material having a predetermined volume. The method of claim 1, wherein the composite construction panel, wherein the light-weight aerated concrete, characterized in that the concrete pole. The building composite panel according to claim 1, wherein the lightweight foam concrete is foamed foam concrete.