JPH0247897A - Radio wave absorbing wall body - Google Patents

Abstract

PURPOSE:To surely mount a finishing material on the wall surface of a building for almost completely preventing separation by inserting a radio wave absorbing material into a hollow part of a finishing material while providing an ant groove eating into the wall surface of a concrete body 1 on the rear side of the finishing material. CONSTITUTION:A ceramic tile 1 of a finishing material is formed by an extrusion molding method or the like while a hollow part 2 is formed in the central part. An radio wave absorbing material 3 of a ferrite tile or the like is inserted into the central part 2 and the radio wave absorbing material 3 is formed a round smaller than the hollow part 2 so that thermal expansion may be possible. Further, an elastic substance such as soft rubber or the like is interposed in the gap between the electric wave absorption material 3 and the hollow part 2 so that the radio, wave absorbing material 3 may not move inside the hollow part. Furthermore, a plurality of ant grooves 5,... are formed on the rear side of the ceramic tile 1 so as not to be easily separated from the wall surface 6.

Description

[Detailed description of the invention] [Industrial application field] This invention relates to a radio wave absorbing wall.

[Conventional technology]

In areas where high-rise buildings are lined up, radio wave absorbing materials 3 are often attached to the walls of buildings in order to avoid radio wave interference caused by the buildings.

Conventionally, ferrite tiles have been mainly used as the radio wave absorbing material 3, and the commonly practiced method is to attach the ferrite tiles to the wall of the building with an adhesive, and then cover the top with a finishing material such as ceramic tiles or stone. (See Figure 4).

[Problem to be solved by the invention]

However, according to this type of construction method, the adhesion between the concrete frame and the ferrite tiles and the adhesion between the finishing material and the ferrite tiles are generally poor, so even if they are bonded at the beginning of construction, the adhesion ability decreases over time. There was a risk that the ferrite tiles and finishing materials would peel off.

In addition, finishing materials have been bound one by one to the reinforcing bars of the concrete structure using binding wires, but this method is generally cumbersome to perform.

This invention was proposed in order to solve the above-mentioned conventional problems, and it is possible to reliably attach ferrite tiles and finishing materials to the walls of buildings, and to almost completely prevent their peeling. The purpose of the present invention is to provide a radio wave absorbing wall body that can be easily constructed.

[Means to solve the problem]

This invention relates to a radio wave absorbing wall body, in which a hollow part is provided in a finishing material, a radio wave absorbing material is inserted into this hollow part, and a concrete wall is placed on the back side of the finishing material. The above object is achieved by providing a structure in which dovetail grooves are provided that cut into one wall surface.

〔Example〕

The present invention will be explained below based on an illustrated embodiment. In FIG. 1, number 1 is a ceramic tile serving as a finishing material, which is formed by an extrusion method or the like, and has a hollow hole throughout the center. Section 2 is formed.

A radio wave absorbing material 3 such as a ferrite tile is inserted into the hollow portion 2 .

The radio wave absorbing material 3 is formed to be one size smaller than the hollow portion 2 so as to be able to thermally expand.

Further, an elastic body 4 such as soft rubber is interposed in the gap between the radio wave absorbing material 3 and the hollow part 2 to prevent the radio wave absorbing material 3 from moving within the hollow part 2.

Further, on the back side of the ceramic tile 1, there are a plurality of dovetail grooves 5.・
. . . is formed so that it does not easily peel off from the wall surface 6, which will be described later.

FIGS. 2 and 3 show other embodiments of the present invention, in which FIG. 2 shows the hollow portion 2 of the ceramic tile 1.
, 2 is formed into a plurality of parts, and a radio wave absorbing material 3, such as a ferrite tile, is inserted into each hollow part 2.2.

Forming the ceramic tile in this manner allows the ceramic tile to be made larger.

Further, FIG. 3 shows a ceramic tile 1 formed into a substantially lip groove section, and upper and lower lip pieces 1a of the lip groove section.
, la and the back surface of the radio wave absorbing material 3 are shown in a dovetail-shaped opening, and the other configuration is the same as the ceramic tile shown in FIG.

If the ceramic tile is formed in this way, not only the ceramic tile can be manufactured easily, but also the radio wave absorbing material 3 can be attached relatively easily.

Ceramic tiles 1°... formed in this way are made of radio wave absorbing material 3. ...with concrete frame wall 6
It is attached to.

A joint mortar 7 is filled between the ceramic tiles 1.1.

In such cases, ceramic tiles 1. Since dovetail grooves 5 that bite into the wall surface 6 of the concrete a body are formed on the back side of the ceramic tiles 1, ..., the ceramic tiles 1, ... are firmly attached to the wall surface 6, and there is no fear of them peeling off.

〔Effect of the invention〕

Since the present invention has the above configuration, it has the following effects.

Since the installation is done by providing a hollow part in the finishing material such as ceramic tile and inserting the radio wave absorbing material into this hollow part, there is no fear that the radio wave absorbing material will peel off from the ceramic tile.

In addition, the back side of the ceramic tile has multiple dovetail grooves that cut into the wall of the concrete structure.
There is no need to worry about the ceramic tiles peeling off compared to the concrete tiles.

Therefore, with this radio wave absorbing wall, radio wave interference can be completely avoided.

[Brief explanation of the drawing]

1, 2, and 3 show examples of the present invention, in which FIG. 1 is a longitudinal sectional view of a radio wave absorbing wall, FIGS. 2 and 3 are sectional views of a ceramic tile, FIG. 4 is a longitudinal sectional view of a conventional radio wave absorbing wall. 1... Ceramic tile, 2... Hollow part, 3... Radio wave absorbing material, 4... Elastic body, 5... Dovetail groove , 6... Wall surface, 7...
Joint mortar. Figure Figure

Claims (1)

[Claims] A hollow part is provided in the finishing material, a radio wave absorbing material is inserted into this hollow part, and a dovetail groove is provided on the back side of the finishing material so as to bite into the wall surface of the concrete frame. A wall that absorbs radio waves.