KR940008307B1 - Concrete flooring base and construction method thereof - Google Patents

Abstract

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Description

Concrete flooring base and construction method

1 is a cross-sectional view showing an embodiment of the present invention.

2 is a cross-sectional view showing another embodiment of the installation of the concrete flooring base according to the present invention.

3 is a cross-sectional view showing a part of the concrete flooring base according to the present invention.

* Explanation of symbols for main parts of the drawings

11: foundation 13: foundation wall

15 steel rod 21 tubular body

23, 31: insulation member 25: concrete flooring base

27: Net Sheet 33: Pipe

35 recycling member 37 floor surface member

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flooring base of a building such as a wooden building and a construction method thereof, and more particularly, to a concrete flooring base and a construction method thereof.

Recently, a floor heating method has been adopted in which hot water pipes are distributed below the floor surface to heat the building from the floor surface. In this case, concrete is poured over the entire floor surface to form the concrete flooring base, and a number of heating elements such as hot water pipes and electric heaters are placed on the flooring base or in the flooring base.

Typically, the concrete flooring base is formed in the following way. First, the periphery and main parts of the building are excavated. Then, concrete is poured to form a foundation, and after the concrete is cured, a temporary frame is erected on its surface, and concrete is poured into this frame, thereby forming a foundation wall. After the temporary frame is removed, the landfill operation is carried out and concrete is poured to form the surface after banking and tamping the part surrounded by the foundation wall.

However, the process of banking and tamping with this construction method is very difficult and tends to increase construction cost. In particular, when repairing an existing wood structure to form a concrete flooring base, the soil used for banking must be transported through the house, which pollutes the interior. Spare devices to prevent such fouling are very cumbersome and are a big problem.

In addition, although the load of the structure itself is supported by the foundation, the load by the heavy article installed on the floor is transmitted directly to the concrete flooring base. Therefore, sedimentation occurs in a weak banking part, which is a problem. As a countermeasure, the concrete flooring base is connected to the foundation wall so that the weight of the flooring is supported by the foundation. However, due to this type of structure, heat is released from the concrete flooring base through the foundation walls and lost to the outside. This reduction in insulation is also a problem. This problem is particularly acute when using floor heating.

It is therefore a first object of the present invention to provide a concrete flooring base suitable as a floor for floor heating because the above-mentioned conventional drawbacks are eliminated, have excellent strength and are easy to provide an insulating structure.

A second object of the present invention is to provide a floor construction method for the concrete flooring base.

The first object of the present invention is (a) an underground concrete foundation supporting a foundation wall supporting a building, (b) a plurality of tubular bodies spaced apart from each other in a portion enclosed by the foundation wall, and (c A concrete flooring base comprising a concrete flooring base part integrally cast on the outer periphery of the tubular bodies.

The second object of the present invention is to pour concrete over the excavated outer circumference and the main part of the building to form a foundation for supporting the load of the building; Forming a foundation wall on the foundation; A plurality of tubular bodies 21 are arranged in parallel in the portion enclosed by the base wall, preferably on the entire surface of the portion and positioned so as to be slightly spaced apart from adjacent tubular bodies; A concrete flooring base construction method comprising the steps of pouring concrete around the outer periphery of the tubular body to form a concrete flooring base.

These and other objects and features and advantages of the present invention will become more apparent from the following description of the preferred embodiments taken in conjunction with the accompanying drawings.

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

1 is a schematic cross-sectional view of one embodiment of the present invention. As shown in the figure, the concrete flooring base according to the present invention is spaced apart from each other in a part surrounded by an underground concrete foundation 11 supporting the foundation wall 13 supporting the building and the foundation wall 13. A plurality of tubular bodies 21 arranged and concrete flooring base portions 25 integrally cast with the outer peripheries of the tubular bodies 21 are provided.

When constructing the concrete flooring base according to the invention, the outer periphery and the main parts of the building are first excavated and then poured concrete to form a number of foundations 11. A plurality of temporary frames (not shown) are built on the base 11 and temporary frames to form a plurality of base walls 13 pre-installed with a plurality of reinforcing steel rods 15 for reinforcement. Concrete is poured into it. After the concrete in the base wall is cured, the temporary frames are removed and the soil is embedded in the excavated portion around the base wall. Next, a plurality of cylindrical tubular bodies 21 are installed. These tubular bodies 21 are arranged in parallel on the entire surface of the part enclosed by the base wall so that each tubular body 21 is slightly separated from the adjacent tubular body 21. These tubular bodies can be arranged with a space between them as required. At this time, a number of small blocks (not shown) are provided, which block the tubular bodies 21 by a distance from the ground surface GL so that the poured concrete can penetrate the bottom of the tubular body 21. They are positioned above the ground surface GL for lifting. In the case of using the conventional method, this part is banked following the above procedure, but in the case of the method of the present invention, this step is unnecessary.

Next, an insulating member 23 is provided inside the base wall 13, and concrete is poured around the tubular bodies 21 to form the concrete flooring base 25. Following this step, a certain type of flooring is formed on the concrete base 25. 1 shows the case where floor heating is used. After the insulating member 31 is disposed, a plurality of hot water pipes 33 for floor heating are distributed on the insulating member 31, and a mat or the like is covered by the floor surface member 37 on the pipe 33. The regeneration member 35 is placed. Floor joists and the like are not shown in the drawings to simplify the description. Concrete can be easily poured into the space under the floor using pipes, thus reducing construction costs. In particular, even if the existing wooden building is being repaired to form a concrete floor base, the floor boards can be removed, the tubular bodies can be arranged in the space below the floor, and the concrete can be poured over the tubular bodies through pipes. Make it simple In addition, the tubular bodies 21 arranged side by side can cover almost the entire surface of the space under the floor, so that the flooring base can be constructed using only a small amount of concrete. The use of large diameter tubular bodies reduces the allowable range of space required for strength. The diameter of the tubular body 21, of course, depends on the space under the floor to be filled, but in practice is in the range of approximately 20 cm to 50 cm. The tubular bodies may not be cylindrical. For example, rectangular cross sections are acceptable.

The use of the tubular bodies 21 allows the flooring base to be formed of a small amount of concrete, and its shape can be satisfactorily maintained until the concrete hardens. The tubular bodies need not have the same strength as the structural members. Thus, paper tubes may be used if cost considerations.

As shown in FIG. 2, the bonding strength of the concrete is increased by burying the net sheet 27 made of a metal net or the like on the top and bottom of the concrete flooring base 25, or on one side or the other. This increases the overall strength, making it possible to reduce the thickness of the concrete at that part.

As shown in FIG. 3, the concrete flooring base 25 has an I-shaped structure when viewed in cross section. The entire concrete flooring base 25 can be thought of as a continuous I-shaped structure that provides high strength. Also, no banky is required under the concrete flooring base 25, so that a ground surface of the same height is provided. As a result, the concrete flooring base 25 itself is very robust so that there is no need to worry about sedimentation. Therefore, the floor constructed by the method of the present invention can be used not only for ordinary houses and shops, but also suitable for floors such as factories and gymnasiums that must withstand heavy loads. There is no need to fix the concrete flooring base 25 to the foundation wall 13 because there is no need to worry about sedimentation. Accordingly, the flooring can be completely insulated from the outside by installing the insulating member 23 over the entire height of the base wall 13 as shown in FIG. Thus, the floor constructed by the method of the present invention is well suited for floor heating since heat cannot escape from the structure through the concrete flooring base 25 and the base wall 13 and moisture is also prevented from coming in from the outside.

In the case of the method of the present invention, the tubular bodies are arranged parallel to the part enclosed by the base wall of the structure so that concrete can be poured around the outer periphery of these tubular bodies to provide excellent workability, thus making complex work such as banking, tamping, etc. An unnecessary, very small amount of concrete can form a strong and solid flooring base. Since tubular bodies do not require great strength, even paper tubes can be used that do not increase the cost of use.

In addition, problems such as sedimentation associated with the conventional method are eliminated, so that the installation of the insulating structure is possible, thereby obtaining an excellent insulating effect.

Claims (5)

An underground concrete foundation 11 supporting the foundation wall 13 supporting the building, a plurality of tubular bodies 21 spaced apart from each other in a portion surrounded by the foundation wall 13, and the tubular body A concrete flooring base comprising a portion of the concrete flooring base (25) molded integrally with the outer peripheries of the (21). Concrete flooring base according to claim 1, characterized in that the tubular bodies (21) are arranged in parallel in a portion surrounded by the foundation wall (13). Concrete flooring base according to claim 1, characterized in that the tubular bodies (21) are arranged in parallel over the entire surface of the part surrounded by the foundation wall (13). Pouring concrete over the excavated outer circumference and main part of the building to form a foundation 11 supporting the load of the building; Forming a foundation wall (13) on the foundation (11); A plurality of tubular bodies 21 are placed in a portion enclosed by the base wall 13 so as to be spaced slightly apart from adjacent tubular bodies 21; Concrete flooring, characterized in that it comprises the steps of pouring concrete around the outer periphery of the tubular body (21) to form a concrete flooring base (25). 5. Method according to claim 4, characterized in that the tubular bodies (21) are arranged in parallel over the entire surface of the part surrounded by the base wall (13).

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