JP2000314198A - Sheathing board type formwork with insulation member or finish board adhered to metal lath having separator hole with apex of v-type rib made flat - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide many progress, shorten process and reduce cost compared with the conventional method in the area related to concrete formwork made of sheathing boards for building a house. SOLUTION: The apex of a V-rib is made flat in advance, a hole for a separator for assembly is made there, thereby making the assembly easier. Various types are available; such as a double construction with an insulation 2 adhered to a flat portion as a metal lath type formwork (Patent Application No. 11-48726); or triple construction with finishing board 3; or lath net of double construction with a finishing board directly adhered by omitting insulation at a lath rib portion made flat; and these finish members and insulation members made to a formwork in one united body.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a net forming method for walls and floors.

[0002]

2. Description of the Related Art Conventionally, a formwork for driving concrete of a building body is built with plywood or metal foam, and concrete is driven into the form, and the form is removed from the form. Insulation material is sprayed by air pressure, and the wall base material is attached on it,
Further, an asbestos board or a gypsum board is stuck thereon, and finishing work is performed with a finishing cloth or a sprayed finishing material. At present, this construction method is still the majority. The surface facing the outside is heat-insulated, but the same applies only to the inside, except that this step is omitted.

[0003]

When considering the problem that this process takes too much, firstly, after the concrete is cast, the form is not removed from the mold until the concrete strength reaches a safety standard, and is left to cure. Then, if the inspection passes after the strength test, the form material is released and cleared, and then a urethane or epoxy-based heat insulating material is sprayed (when facing the outside), the base material is assembled, and a board or the like is attached. The present invention is an abbreviation of this conventional technique, and is based on a prior application filed on January 20, 1999 (Japanese Patent Application No. Hei 11-48726, a lath wire mesh in which the vertices of a V-type rib are flattened and a separation hole is formed). The flattened iron plate (Fig. 1-1)

The styrohome or styrofoam of claim 1 is attached (FIG. 1-9),

2. A three-layer structure (FIG. 2) to which non-combustible gypsum board, flexible board or other finishing building material is attached, or

3. An asbestos board or a building material for finishing is directly attached to a flat iron plate portion (FIG. 1) of a lath wire mesh having a V-shaped rib having a flattened vertex and a separation hole (FIG. 3).
By attaching the finishing material (including the three-layer structure) to the flat iron plate part of the lath wire mesh with an adhesive etc. It becomes a weir board formwork integrated with finishing material that is replaced with a conventional concrete form by the separator agreement, form tie installation, tightening of horizontal pipes, etc.It is characterized by pouring concrete between weir boards incorporating rebar And

[0004]

In order to achieve the above-mentioned object, a styrohome or styrofoam (two-layer structure) is stuck on a lath wire mesh having a flattened V-rib according to the present invention and a perforated hole or a gypsum board. Alternatively, in the case of a three-layer structure in which an asbestos board is pasted, the above-mentioned finishing material is press-bonded or bonded by applying heat to a flat portion of a patent application (Japanese Patent Application No. Hei 11-48726) which has already been applied for in a factory. The main body and the finishing material (two-layer structure or three-layer structure) are made into an integrated weir plate form by bonding using an agent.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention relates to a lath net dam form having the above-described structure. A dam form formed in advance at this factory is carried into a construction site, and as shown in FIG. It is characterized by being built and assembled. Weir plate formwork Place another lath weir plate formwork so that the part lath surface directly in contact with concrete faces the inside, place concrete in between, and when the strength comes out, stop the weir plate The pipes and the like are detached and removed, the foam tie (registered trademark) is removed, the separation by screwing is removed, and the separation hole of the screw separation after the mold is released is filled with a finishing material, mortar, an adhesive, or the like to complete the construction. In this assembling work, in the conventional plywood formwork, due to the balance of the strength due to the concrete pressure, the place where the plywood was inflated had the concrete finish intact and took time and effort such as grinding. In order to prevent this, a rigid pipe was attached within 25 to 30 cm, and a horizontal pipe was horizontally tightened at intervals of about 30 to 60 cm. In the present invention, since the lath is designed to have a rigid groove type, the pipes need only be tightened laterally. In addition, because it has a double or triple structure containing a hardener, it has high rigidity and finish, etc., high vertical and horizontal accuracy,
Once you have decided properly, you can reduce the amount of rework and greatly reduce the cost of rework.

An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, reference numeral 1 denotes a Japanese patent application for which a patent application is pending.
1-48726 is a lath metal net having a V-shaped rib with a flat top and a perforated hole, and 2 is a petrochemical styrohome or styrene foam serving as a heat insulating material. 3 is an asbestos board or a gypsum board or each finishing material as a wall finishing material base. FIG. 2 is a cross-sectional view of FIG. In the present patent application, this three-layer structure and the two-layer structure shown in FIG. 3 are applied. FIG. 4 is a perspective sectional view of FIG.
FIG. 5 is an assembly view of the product of the present invention described in the preceding section.

[0007]

According to the present invention, a great deal of progress, process shortening, and cost reduction are made as compared with the prior art.
The effect will be described below. Firstly, in the conventional process, plywood veneer frames are built in, the concrete is cast out, and then the mold is removed (one process) because of the built-in laminar built-in weir plate formwork. No need for rigid pipes when tightening pipes (1 step), adjustment of base after removal of plywood veneer (adjustment of base after grinding if there is uneven part) (2 steps), curing of epoxy or urethane petrochemical products with thermal insulation For both detaching and attaching (2 steps), wood or light gauge etc. (1 step), pasting of gypsum board or asbestos board or waterproof veneer for cloth or spray finishing material (1 step) and so far Nine steps can be omitted by using the product of the present invention. Also,
The complete elimination of industrial waste such as offcuts and garbage generated during the execution of these nine processes, the elimination of labor costs related to the conventional construction method that fulfills the nine processes, and the time required for these even with simple calculations, including curing, demolding, etc. It takes one or two months and the situation is extremely uneconomical. Furthermore, as seen in the recent post-bubble non-performing loan disputes, etc., each constructor or company or individual making the capital investment will be able to achieve greater effects with high technology and low investment amount due to significant cost reduction. Reform and revolution are essential, and the effect of the technological innovation of the present invention is immense. In addition, due to the drastic reduction of industrial waste, not only cost reduction but also environmental friendliness, dioxin generated when plywood veneer is burned can be greatly suppressed, and it can greatly contribute to the protection of the natural environment by deforestation. Enormous profits can be returned to society.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of the present invention before joining.

FIG. 2 is a sectional view of the triple structure of the present invention.

FIG. 3 is a sectional view of a double structure of the present invention.

FIG. 4 is a perspective sectional view of the triple structure of the present invention.

FIG. 5 is a perspective view showing an assembling embodiment of the present invention.

[Explanation of symbols]

 1. 1. A lath plate with the top of the V-shaped rib flattened Insulation material 3. Finishing material board 4. Reinforcing bars 5. Pipe 6. Home Thailand 7. Sepa hole 8. Lath net part 9. Bonding surface

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) E04B 2/86 611L

Claims (3)

[Claims] 1. A lath wire mesh in which the top (bottom) of a V-shaped rib is flattened to form a separation hole (Japanese Patent Application No. Hei 11-4872).
Styro home or Styrofoam is stuck on the flat part of 9), and a weir plate form lath wire mesh member integrated with a formwork finishing material for wall material and floor (FIG. 3) 2. A styrohome or styrofoam is stuck to a flat portion of a lath wire mesh (Japanese Patent Application No. Hei 11-48726) in which a V-rib is flattened and a separation hole is formed, and a noncombustible gypsum board or a flexible board is further stuck thereon. With a board or other finishing material attached (Figure 2) 3. A flat portion of a lath wire mesh (Japanese Patent Application No. Hei 11-48726) in which the apex of a V-shaped rib is flattened and a separation hole is formed, without using a heat insulating material such as a styrohome or styrofoam. Flexible board or finishing material attached (Fig. 3)