JPH045331A - Method for constructing foundation - Google Patents

Abstract

PURPOSE:To easily construct an accurate foundation by driving a self-leveling material through a non-water permeation layer in the bottom surface of a groove and fixedly arranging a precast concrete foundation block, having fixed height, on a horizontal hardened surface of the self-leveling material. CONSTITUTION:A flat surface is formed by applying rubble stones 6 to a foundation constructing groove 5, and a non-water permeation layer 7 is formed by coating a side surface to height of a degree, which covers driving depth of a self-leveling material, with a polyvinyl chloride sheet. A horizontal hardened surface 8 is formed by driving the self-leveling material further on the layer 7. An L-shaped or reverse T-shaped precast concrete foundation block, provided with a welding joint in a connection surface, is arranged on the hardened surface 8 and fixed by welding the respective joint. In this way, a foundation, with an upper end level of a riseup part accurately arranged, can be constructed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a novel method for constructing foundations using precast concrete foundation blocks.

Specifically, it is a method that allows a foundation to be constructed with high precision using precast concrete foundation blocks manufactured at a constant height.

[Prior art and problems to be solved by the invention] A method for constructing a foundation by arranging precast concrete foundation blocks at the bottom of a trench for foundation construction and fixing them is a method in which the concrete for foundation construction is hardened on site. It is attracting attention as an effective method for shortening the construction period because it can substantially save time.

The structure of such precast concrete foundation blocks is generally an inverted T-shaped or L-shaped cross section consisting of a bottom plate and a rising part, but in the arrangement of the precast concrete foundation blocks, The problem is that the level of the upper surface of the rising part is uniform. As a method for aligning the upper surface of the rising part mentioned above, for example, ■ Create the bottom plate part and the rising part of the precast concrete foundation block separately, first fix the bottom plate part to the bottom of the foundation construction groove, and then fix the rising part to that part. Proposed methods include attaching to the bottom plate while aligning the top surface level, and arranging precast concrete foundation blocks after forming a flat layer of sand and dry-mixed concrete on the bottom of the foundation construction trench.

However, method (2) above requires a great deal of effort to adjust the level of the upper surface of the rising portion.

With the above method (■), it is difficult to accurately align the top surface level of the rising part, so after fixing the foundation, a method such as placing another layer of mortar on the top surface of the rising part and aligning the top surface level was generally used. .

[Means for Solving the Problems] As a result of repeated research to solve the above problems, the present inventors installed a self-leveling material on the bottom of the foundation construction trench via a water-impermeable layer. After forming a horizontal surface and curing the self-leveling material, on the formed horizontal hardened surface,
The inventors have discovered that by arranging and fixing a plurality of precast concrete foundation blocks each having a certain height, it is possible to align the upper surfaces of the rising parts of the foundations very accurately, and have completed the present invention.

In the present invention, a self-leveling material is placed on the bottom of a foundation construction trench through a water-impermeable layer, and after the self-leveling material is hardened, a bottom plate and a rising part are placed on the hardened surface. , is a foundation construction method characterized by arranging and fixing a plurality of precast concrete foundation blocks having a constant height.

The structure of the trench for foundation construction to which the method of the present invention is applied is not particularly limited; It is preferred that the bottom surface be made generally flat.

An important feature of the present invention is to form a water-impermeable layer on the bottom surface of the foundation construction groove before pouring the self-leveling material. That is, 1. The present inventors attempted to form the bottom surface of the foundation construction groove by utilizing the horizontal surface forming property of the self-leveling material, but when the self-leveling material was cast directly into the foundation construction trench, A phenomenon occurs in which water contained in the self-leveling material leaks irregularly from the bottom or side surfaces of the groove. Therefore, the hardening effect surface of the self-leveling material does not form an accurate horizontal surface, and there is a problem in that a partial height difference occurs on the bottom surface of the groove.

In order to solve this problem, the present invention casts the self-leveling material on the bottom surface of the foundation construction trench through a water-impermeable layer, thereby preventing partial leaching of water from the surface where the self-leveling material is cast. It is possible to prevent this and form an extremely horizontal hardened surface. Therefore, on the hardened surface,
By arranging and fixing precast concrete base blocks having a certain height, it is possible to easily construct a foundation in which the upper ends of the rising parts are precisely level.

In the present invention, for the water-impermeable layer, any known material can be used without particular limitation as long as it can form a layer that is substantially impermeable to water. An example of a material that is preferably used is a water-impermeable sheet that can form a water-impermeable layer by laying it on the bottom of the foundation construction trench.

in particular.

A flexible sheet made of synthetic resin such as polypropylene, polyethylene, polyvinyl chloride, polyamide, etc. is most preferably used.

The water-impermeable layer may be formed on the bottom surface of the foundation construction trench, but it should be continuous with the bottom surface and extend to the side surfaces at a height that covers the depth of pouring of the self-leveling material. This is preferable because it can completely prevent moisture from seeping out in the self-leveling material and form a horizontal surface with higher precision.

In the present invention, the self-leveling material is made by blending cement with admixtures such as a high performance water reducing agent, water retaining agent, setting regulator, shrinkage reducing agent, etc., and aggregates such as fine aggregate as necessary. A slurry of a known composition can be used without particular limitation. In particular, the self-leveling material preferably used in the present invention has a flow value of 200 to 240 according to the self-leveling material test method specified by the Housing and Urban Development Corporation.
It belongs to am.

In the present invention, a self-leveling material is poured into a foundation construction groove to a predetermined depth, and after the self-leveling material has hardened, a precast concrete foundation block having a certain height is placed on the horizontal hardened surface that is formed. The foundation is constructed by arranging and fixing multiple .

The above precast concrete foundation blocks are.

Any known structure may be used without particular limitation as long as it consists of a bottom plate and a rising part and has a certain height. In other words, if the height of the block is not constant, because a horizontal bottom surface is formed in the foundation construction groove by casting the self-leveling material, the difference in height is equal to the difference in level of the top surface of the rising part. Therefore, the purpose of the present invention cannot be achieved.

Precast concrete foundation blocks having such a certain height can be obtained through integrated production in a factory.

In the present invention, examples of typical structures of precast concrete foundation blocks suitably used include the structures shown in FIGS. 1 and 3112. That is, the precast concrete base Ill shown in Figure 111
is an inverted T-shape consisting of a bottom plate 2 and a rising part 3,
The precast concrete base Ill shown in @21N is
A structure with a cross-sectional shape such as an L-shape consisting of a bottom plate 2 and a rising portion 3 is common. In addition, in order to effectively fix the precast concrete foundation blocks after arranging them in the foundation construction groove, when the blocks are assembled,
Preferably, coupling means 4 are provided on the coupling surface.

As such a coupling means, any known means such as bolts, nuts, and welding joints may be employed.

In this case, each block can be quickly fixed by the above-mentioned coupling means after the blocks are arranged in the foundation construction groove with their coupling surfaces facing each other. Of course.

Precast concrete foundation blocks without such connection means can also be used in the present invention. In this case, each block may be fixed by the above-mentioned connecting means after being arranged in the foundation construction groove.

[Effects] As can be understood from the above explanation, according to the present invention, a self-leveling material is placed in a foundation construction groove through a water-impermeable layer, and a fixed level is applied to the horizontal hardened surface. Because the foundation is constructed by arranging and fixing precast concrete foundation blocks with a height of Therefore, after construction, there is almost no need to adjust the height of the top surface of the foundation, and the construction period can be significantly shortened compared to conventional methods.

The foundation construction method of the present invention can be particularly suitably applied to construction of foundations for wooden houses, prefabricated houses, and the like.

[Examples] In order to explain the present invention more specifically, Examples are shown below.
The present invention is not limited to these examples.

Example A foundation was constructed in the steps shown in a to d of FIG. Figure IF5 shows a typical embodiment of the present invention in the order of steps, using schematic diagrams of the base-construction groove viewed from the cross-sectional direction.

(a) Chestnut stone 6 was applied to the foundation construction groove 5 to form a generally flat surface.

(b) Water-impermeable layer 7 covering the bottom surface of the base** construction groove and the side surfaces continuous with the bottom surface up to a height that covers the casting depth of the self-leveling material with a polyvinyl chloride sheet. was formed.

(C) A self-leveling material (trade name: Flow Leveler, 6!I Yamasoda Co., Ltd. II) was placed on the water-impermeable layer 7. By hardening this self-leveling material, a horizontal hardened surface 8 was formed.

(d) An inverted T-shaped precast concrete foundation block (bottom plate width 340 mm, height 1050 am, length ik 1820m5) were arranged and the blocks were fixed by welding their respective joints.

The foundation constructed by the above method had a maximum level difference of 2 square meters on its upper surface, and was extremely accurate.

[Brief explanation of drawings]

Figures luml and 1112 are perspective views showing typical structures of precast concrete foundation blocks used in the present invention, and Figure Wi3 is a schematic diagram specifically showing the procedure of the method of the present invention. In addition, in the figure, the upper part shows the precast concrete foundation, 2 shows the bottom plate, 3 shows the rising part, 4 shows the connecting means, 5 shows the foundation construction groove, 6 shows the chestnut stone, 7 shows the water-impermeable layer, and 8 shows the hardened surface. .

Claims (1)

[Claims] (1) A self-leveling material is placed on the bottom of the foundation construction groove via a water-impermeable layer, and after the self-leveling material has hardened, a bottom plate and a rising part are placed on the formed hardened surface, A method for constructing a foundation characterized by arranging and fixing a plurality of precast concrete foundation blocks having a certain height.