JPH04198546A - Construction method for walls with ceramic plates - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method of constructing a wall using ceramic plates.

(Prior art) Conventionally, in the construction of a wall, a formworker first assembles the formwork, then a reinforcing bar worker places reinforcement within the formwork, and then pours cast-in-place concrete into the formwork. On the ridge where the concrete has hardened,
Tiles and ceramic plates were installed as exterior materials on the outside of the walls.

However, in recent years, precast concrete plates have been used due to the shortage of specialized and skilled workers such as formwork workers and reinforcing steel workers, as well as the desire to shorten the construction period and improve construction efficiency and economy. As a result, walls began to be built horizontally.

Boards for this flexible layer 1 to concrete 1 are formed in advance at a factory, and then erected between columns and beams on site.
Cast-in-place concrete is poured on the two sides to form the walls, and large ceramic plates as exterior materials are also attached in advance.

(Problems to be Solved by the Invention) However, the pre-formed concrete plate to which a large ceramic plate is attached in advance is not used as a ceramic exterior material after being constructed as a wall due to drying shrinkage of the concrete plate. There was a problem with the boards cracking and falling off.

The present invention has been made in view of the following two problems, and the first is that when constructing a wall body equipped with ceramic plates, due to drying shrinkage of the concrete 1, the exterior To provide a construction method for a wall body in which a ceramic plate as a material does not crack and peel off.

In order to achieve the above-mentioned problems, the method for constructing a wall body equipped with ceramic plates according to the present invention is to lay ceramic plates on the bottom of a formwork with the back side facing up. After laying a cushioning material on the back side of the ceramic plate and adhering ceramic anchor bodies at appropriate intervals, lath reinforcing bars are arranged in a lattice pattern, concrete is poured, and the ceramic plate is pasted. Form a concrete plate from the attached flexure layer 1, erect the plate into the precast concrete 1 with the ceramic plate on the outside to form an outer formwork, and place the cast-in-place concrete 1 in the formwork. The purpose is to create a structure characterized by the construction by pouring.

(Function) Therefore, in the method of constructing a wall surface using ceramic plates as described above, warping can be minimized by drying shrinkage of the flexible layer 1 - concrete 1 - plate or by using the lattice-like lath ribs. , a cushioning material is interposed between the precast concrete plate and the ceramic plate, and the ceramic plate is attached to the precast concrete plate with an anchor body.
The ceramic plate will not crack and peel off.

(Example) Hereinafter, an example of the present invention will be described in detail based on the drawings.

1 to 2 are cross-sectional views showing a method of constructing a wall surface equipped with a ceramic plate of the present invention.

[Formation of precast concrete board] First of all,
A ceramic plate 1 is laid on the bottom surface of the form m so that it faces the back side or the top side. Then, the anchor body 2 is bonded to an appropriate position on the back surface of the ceramic plate 1.

The ceramic plate 1 has an appropriate thickness, and an anchor body 2 is attached to the back surface with an alumina-based or epoxy-based adhesive.

This anchor body 2 is made of ceramic like the ceramic plate 1, and the lower surface is formed into a cylindrical shape with a larger diameter than the two surfaces.
They are stored in the positions shown in ■ and ■ in Figure 3.

Incidentally, the shape of the anchor body 2 is not shown in (1) and (2) in FIG. 4, but it can also be formed into a dovetail shape, a trapezoid, or other shapes.

Next, a cushioning material 3 such as a comb asphalt sheet is laid on the entire back surface of the ceramic plate 1.

The cushioning material 3 uses comb asphalt sheet, synthetic comb, etc. to strongly adhere the ceramic plate 1 to the concrete plate 4, absorb the difference in shrinkage rate between the concrete plate 4 and the ceramic plate 1, and This prevents the ceramic plate from cracking due to shrinkage of the plate 4.

After the cushioning material 3 is laid, the vertical and horizontal reinforcements of the wall are arranged, and the truss reinforcing bars 5 are arranged in a grid pattern.

This truss reinforcing bar 5 is formed into a triangular prism shape by connecting one top bar 5a placed at each vertex of an isosceles triangle and two bottom bars 5b with a wave-shaped lattice bar 5C. 5a is buried in a state where it protrudes from the surface of the concrete plate 4, that is, in an inverted V shape.

After arranging the truss reinforcing bars 5 in this manner, fresh concrete n is poured into the formwork m to form the concrete plate 4.

When the fresh concrete n is removed from the mold after hardening, a ceramic plate 1 is pasted on one side of the concrete plate 4 with a buffer material 3 interposed therebetween, and a lattice-shaped 1
~A flexible steel 1-concrete plate A with two protruding parts of the lath reinforcing bars 5 is formed.

[Installation of precast concrete plates] After forming the flexible layer 1 to concrete plate A as described above, the flexible layer 1 to concrete plate 1 to plate A are assembled into ceramic plate 1.
With the truss reinforcing bars 5 on the outside and the truss reinforcing bars 5 on the inside, they are built between the girders N of the building frame to form the outer formwork M of the formwork.

In this construction, the precast concrete plates 1 to 8 are fixed between the girders N by connecting a fixture a provided in advance on the upper part of the precast concrete plate A to the steel frame N1 of the girder N.

[Placement of Concrete] Next, a fresh concrete opening is placed in the formwork formed by placing the concrete plate A on the brace A-yasu 1 and cured, thereby providing the ceramic plate 1 as an exterior material. It is possible to build a wall horizontally.

(Effects of the Invention) The present invention has the following effects by having the following configuration.

■ Lay a ceramic plate on the bottom of the formwork with the back side facing up, lay a cushioning material on the back of the ceramic plate, and glue ceramic anchor bodies at appropriate intervals, then place truss reinforcing bars in a lattice pattern. Arranging reinforcement and pouring concrete to form a precast concrete plate to which a ceramic plate is attached, and erecting the concrete plate into the precast 1 with the ceramic plate on the outside to serve as an outer formwork in the formwork, Cast-in-place concrete within the formwork
By constructing by pouring into 1, it is possible to minimize the drying shrinkage of the board on lattice-like lath reinforcing bars or flexible steel 1 and concrete 1, and also to attach ceramic boards through a buffer. As a result, the cushioning material absorbs the difference in shrinkage rate between the ceramic plate and the concrete plate, thereby preventing the ceramic plate from cracking and falling off.

■ The lattice-shaped truss reinforcing bars can prevent vertical and horizontal warping of precast concrete plates.

[Brief explanation of the drawing]

■ to ■ in Figure 1 are cross-sectional views showing the construction method of a wall body equipped with ceramic plates of the present invention, Figure 2 is a rear view of precast concrete and ■ is a rear view of the ceramic plate, and ■ and ■ in Figure 4 are anchors. It is a perspective view of a body. In the figure, A. Precast concrete plate 1: Ceramic plate 2: Anchor body 3. Cushioning material 5: l~Shirasu reinforcement M: Outer formwork m. Formwork n concrete 1. Patent applicant: Toda Construction Co., Ltd.

Claims (1)

[Claims] A ceramic plate is laid on the bottom of the formwork with the back side facing up, a cushioning material is laid on the back of the ceramic plate, and ceramic anchor bodies are glued at appropriate intervals, after which truss reinforcing bars are arranged in a lattice pattern. A precast concrete plate is formed by pouring concrete along with striations to which a ceramic plate is attached, and the precast concrete plate is erected so that the ceramic plate is on the outside to serve as an outer formwork in the formwork, and the formwork is A construction method for walls equipped with ceramic plates, characterized by pouring cast-in-place concrete inside.