JP2540457B2 - Heat insulation construction method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a concrete driving form used for heat insulating construction during concrete driving such as reinforced concrete (RC) construction and reinforced steel concrete (SRC) construction, and a method of using the same. Regarding

(Prior Art) In recent years, it has been widely and generally practiced to impart heat insulating properties to walls, columns, and beams of concrete buildings in order to save energy. As a construction method for imparting heat insulation,
BACKGROUND ART Reinforced concrete construction and reinforced steel concrete construction using a heat insulating board made of synthetic resin foam having heat insulation and hygroscopicity are known.

(A) In these constructions, from the viewpoint of price or shortening of the construction period, fixing is done by nailing a double-sided paper insulation board or synthetic resin foam board inside the concrete driving form forming the concrete wall surface. Then
A common method is to pour concrete, bond it to a heat insulating board or foam board by concrete and then remove the formwork.

However, with this construction method, the heat insulating board or foam plate to be bonded to the concrete is weak in strength and cannot withstand the lateral pressure at the time of driving concrete into the concrete, so that the concrete formwork has to be provided separately. .
In addition, there is a risk that the board or foam plate will be deformed due to moisture absorption or temperature change from the poured concrete, and if the nailing with the formwork is insufficient, a gap will occur between the formwork, As a result, a "groove" wraps around between the boards, etc., and as a result, the connection between the board or foam board and the formwork is filled with concrete, and the heat bridge,
There was a problem with the heat insulation performance of the building due to the occurrence of cold bridges.

(B) Next, in order to solve the problem of the construction method of (A), instead of the heat insulating board with double-sided paper or the synthetic resin foam plate, a hard surface material that withstands lateral pressure when concrete is poured is attached to the surface of the heat insulating plate. It has been proposed to use a heat insulating board. In this construction, the heat insulation board can withstand the concrete lateral pressure, so it does not require the conventional veneer formwork, which reduces the loss of veneer and the time and effort required to attach the heat insulation plate to the veneer formwork.
Veneer dismantling is not required, which saves labor in the process, and the hard surface material attached to the surface of the heat insulating plate doubles as the interior base, which shortens the construction period for efficient construction. . However, with a concrete driven formwork that uses this heat insulation board, since the hard plate on the surface doubles as the interior base, it is easy to cause misalignment, twisting, falling, etc. at the seam of the heat insulation plate when assembling the formwork, There was a problem that interior materials such as wallpaper could not be applied directly. Therefore, highly accurate construction is required, and it is necessary to consider prevention of flapping between flapping materials against lateral pressure when concrete is poured, and a special construction system and high-strength hard plate are required. Moreover, damage to the hard plate that occurs during construction, repair of separator through holes, etc. requires a lot of work, and it is not possible to select any interior base plate that matches the usage characteristics of the building, so it cannot always be said that the construction is efficient. However, there were problems in workability and cost.

(C) Further, in order to solve the problem of (B), a construction method has been proposed in which a heat insulating board formed by laminating a soft material or the like on both sides of a hard synthetic resin foam is used as a concrete-casting form panel.

(Problems to be solved by this invention) However, in the above-mentioned (C) concrete driving form and the construction method using the same, the front and back surface materials of the heat insulating board to be used are not hard plates but soft surface materials. Therefore, when constructing the walls, columns, and beams of the entire building, there was a problem in the construction of the entrance corner and the exit corner of each of these parts. That is, the heat insulation layer of the core material of the concrete driving form is a hard synthetic resin foam foam, but the front and back materials are asbestos paper, aluminum foil, waterproof craft, glass nonwoven fabric, because it is a multi-layer material such as plastic film, There is a problem that the nail cannot be held like the conventional veneer formwork, because the nail does not have enough holding power.

For example, in the case of the pillars shown in FIG. 5, the outer corner of the outer mold and the inner corner of the wall in the assembly of the projecting corners and the entering corners, the heat insulating boards (28) and (30) are used in advance. , (31) nails (3
2) Install with (33), then fix the intersecting heat insulation boards (28), (30) to assemble the corners, but join the heat insulation boards (28), (30) with the pier (29), ( Although there is no problem when mounting the heat insulating boards (31), (31), when fixing the heat insulating boards (28), (30), the hammer blows when hitting the nails (39), and the nails (32) of the heat insulating board (28) are passed through the pier (29). ) Acting on the surroundings, the soft surface materials on the front and back of the heat insulation layer are damaged, resulting in loose joints, and the heat insulation board (28) and pier (29) are misaligned.
The corners of the insulation boards (28) and (30) may not be in close contact with each other, and in severe cases, the nails (39) may not be able to be hit.

Further, when the beam bottom is supported in the beam assembly shown in FIG. 6, the Daihiki (35) is set on the lower surface of the heat insulating board (34) at the beam bottom, the support (36) is attached to make it stand, and the level is adjusted. Therefore, there is a work to push it up and down with the height adjustment screw. This work involves the beam insulation board (34) and wall insulation board (37), the beam insulation board (34) and the beam insulation board (38). ) Each corner connection strength is as described above, there is no nail holding force, and it is loose due to hammer impact, so there is a gap in the joint, distortion occurs in the beam bottom and beam side, and there is no gap. It will be a stable construction. As a result, when pouring concrete, a "groove" wraps around the corner joints of the heat insulation board and the gap between the heat insulation board and the pier, which causes deformation of the formwork and heat bridges and cold bridges due to heat insulation defects, which results in poor insulation performance. Problems such as lowering, deformation of wall and variation occurred.

(Means for Solving the Problem) The present invention is to provide a heat insulating board in which a soft face material and a hard synthetic resin foam are laminated, and a reinforcing material that can be nailed is arranged vertically and horizontally to make it strong according to the size of the heat insulating board. After placing and hardening the concrete, the concrete frames that are temporarily fixed so that they can be peeled off are placed adjacent to each other, and the adjacent temporary frames are fixed to each other. The heat insulation construction method, characterized in that the temporary frame is peeled off from the heat insulation board, and the temporary frame is shifted and combined with the heat insulation board, and the heat insulation board according to claim 1 is combined. The construction method is provided.

(Function) Adjacent temporary frames are joined to each other because the temporary frame made by combining the reinforcing material with the size of the thermal insulation board is temporarily fixed to the thermal insulation board in which the soft face material and the hard synthetic resin foam are laminated. The materials are joined and fixed to each other. At this time,
If the nailable reinforcement is configured as a temporary frame,
There is no damage to the insulation board due to hammer impact when nailing.

In addition, since the heat insulation board and the temporary frame are temporarily fixed so that they can be peeled off after the concrete is set and hardened, after the concrete is set and hardened, the concrete-bonded heat insulation board is left and only the temporary frame is easily removed. You can

(Embodiment) The present invention will be described based on FIGS. 1 to 4 showing an embodiment.

FIG. 1 is a perspective view of an individual concrete driving form (1), FIG. 2 is a sectional view of a heat insulating board, and FIGS. 3 and 4 are pillars and beams using the concrete driving form (1). It is sectional drawing which shows the wall surface form of a part. The concrete casting formwork (1) consists of a heat insulation board (2) and a temporary frame body (3).
Is temporarily fixed to configure. The heat insulation board (2) has a compression elastic modulus of 40 kg / cm ² (JISA9514) as a laminated structure of heat insulation boards.
A flexible face material (5) having a tensile strength of 10% f / 15mm width or more at 1% elongation is attached to both front and back surfaces of the heat insulating layer (4) made of the above rigid synthetic resin foam, and the whole board is bent. Although it has a moment of 500 kgfcm (JIS A1408, No. 3 test body) or more, it is particularly preferable to adopt a structure of soft face material-hard synthetic resin foam-soft face material as a heat insulating board. And, in the above structure, especially a soft face material (5) to be laminated on both the front and back of the heat insulating layer (4).
From the foam side, it is desirable to have at least a three-layer structure consisting of a reinforcing layer (6), a moisture-proof layer (7) and an adhesive surface layer (8).

In this case, the heat insulating layer (4) made of a hard synthetic resin foam is a plate-like heat insulating layer (4) having a compressive elastic modulus of 40 kgf / cm ² or more, such as hard urethane foam, styrene foam, and phenol foam. , Isocyanurate foam, epoxy foam and the like. The thickness of the heat insulating layer (4) can be variously changed according to the tensile strength of the soft surface material described later. For example, if the tensile strength is 10 kgf / 15 mm width or more at 1% elongation, the heat insulating layer (4) The thickness can be 20 mm or more. In addition, the compression modulus of the foam itself
If it is 70 kgf / cm ² or more, the thickness can be about 15 mm.

As the soft face material (5), the heat insulating layer (4) is used as described above.
Which has at least a three-layer structure consisting of a reinforcing layer (6), a moisture-proof layer (7) and an adhesive surface layer (8) in order from the foam surface, and examples of the reinforcing layer (6) include a water resistant liner, a water resistant craft, Aluminum foil, iron foil, polyester film, glass fiber non-woven fabric, asbestos non-woven fabric,
It can be composed of at least one selected from the group consisting of carbon black paper. The reinforcing layer (6) bears the compressive and tensile stresses on the front and back surfaces that occur when concrete is poured into the heat insulating board used in the present invention, and it also prevents changes in the natural environment such as rain from formwork assembly to concrete driving and direct sunlight. On the other hand, it is for ensuring dimensional stability.

As the moisture-proof layer (7), reinforcement layer (6) and heat-insulating layer (4) are used to prevent the influence of water on concrete injection and changes in the natural environment.
It has a function of preventing dimensional stability, dimensional stability, dewproofness, and heat insulation, and can be composed of at least one selected from polyethylene film and polypropylene film, for example.

In this case, as long as the soft face material (5) adopts at least the constitution of the reinforcing layer (6) -moisture-proof layer (7) from the foam surface, the reinforcing layer (6) exemplified above,
It is also possible to appropriately combine the moisture-proof layer (7) to form a plurality of layer structures.

Further, the adhesive surface layer (8) is not particularly limited, and is, for example, at least one selected from the group consisting of asbestos paper, glass fiber non-woven fabric, polyester fiber non-woven fabric, calcium carbonate and pulp, glass mixed paper (calcium charcoal paper), and the like. Is made up of concrete,
Any adhesive that has excellent adhesion to GL bond, rubber adhesive, and epoxy adhesive may be used.

The adhesive surface layer (8) enables the heat insulating board (2) used in the present invention to be bonded to concrete on the one hand and to be used for the interior material on the other hand.

It is desirable that the soft face material (5) used in the present invention composed of the above layers has a tensile strength as a layer structure of 10 kgf / 15 mm width or more at 1% elongation. When such a soft face material is laminated on both the front and back surfaces of the heat insulating layer to form a heat insulating board used in the present invention, it is desirable that the board has a bending moment of 500 kgfcm or more.

It is desirable to have such a bending strength because when the formwork of the present invention is used as at least one formwork of a concrete driving formwork structure, it must be able to sufficiently withstand the lateral pressure of concrete. is there.

When the formwork of the present invention configured as described above is used as at least one formwork of a concrete-casting formwork panel structure, two concrete-working formwork panels are installed side by side as a normal concrete-casting formwork panel. When fixing the formwork (control panel material) with a temporary reinforcement material, for example, a flap material, to form a concrete driving space between both formwork,
The mold of the present invention is used as it is without using a control panel material as at least one of the molds.

Therefore, as compared with the conventional method, without using any extra control panel material, deformation of the heat insulating board does not occur, the heat insulating board is bonded to the concrete as the concrete hardens, and a good heat insulating wall can be integrally formed. It is possible.

The temporary frame body (3) is composed of a reinforcing material (9) such as a flap material that can be nailed together vertically and horizontally according to the size of the heat insulation board (2), and is fixed with nails or bolts to form a frame body. Configure.

Depending on the installation position, the heat insulating board (2) and the temporary frame (3) may be temporarily fixed together with their peripheries integrated, or may be temporarily fixed by slightly shifting their ends. For example, when it is used on a wall surface (see FIG. 3), a temporary frame of a concrete driving form is temporarily fixed by aligning one side in the vertical direction like the heat insulating board (10) and the temporary frame (11). (11)
Similarly, the adjacent temporary frame bodies (12), which are also temporarily fixed to each other by aligning one side in the vertical direction, are fixed with nails (13) and joined. In addition, when it is used for the entry corner and the exit corner of the pillar, the heat insulating board (10), the temporary frame (11) and the heat insulating board (1
4) and the temporary frame body (15), the temporary frame bodies (11) and (15) are displaced and temporarily fixed, and the temporary frame body (15) and the heat insulation board (16) are inserted between them, and the temporary frame body is inserted. (11) and (15) are nails (1
In 7), the temporary frames (15) and (18) are fixedly joined by the nails (19). This shifting is appropriately performed in consideration of the current state of each construction site and the size of the heat insulation board.

When used as a concrete driving form for beams (4th
(See the figure), the heat insulation board (20) used for the beam bottom is placed on the heat insulation board (21) on the wall surface, and the temporary frame (22) that is temporarily fixed by shifting to the heat insulation board (20) is attached to the wall surface. Fix it to the temporary frame (23) with nails (24). Next, the temporary frame body (25) of the concrete driving formwork used on the side surface of the beam is fixed to the temporary frame body (22) on the bottom surface of the beam with nails (26). (27)
Is a heat insulation board on the side of the beam.

Heat-insulating board (2) adhered to the concrete wall after fixing the adjoining temporary frame (3) of the concrete driving form (1) with nails etc.
Only the temporary frame (3) is removed from the concrete wall by temporarily removing the temporary fixing. Removed temporary frame (3)
Can be used as it is or after being cut to an appropriate length and temporarily fixed to another heat insulating board (2) again on the upper floor or the like of the building.

(Effect of the invention) Therefore, in the present invention, since the adjacent temporary frame members are firmly joined to each other by the nails, the strength of the formwork structure is high, and the assembling construction of the concrete driving formwork having the heat insulation board is performed. It is possible to carry out construction without damaging the heat insulating board against hammer impact, level adjustment, wind, earthquake, impact during concrete driving.

That is, the insulation board will not be damaged in the case of temporary fixing that does not nail the board so much that the board will be scratched, but when fixing the nail, the temporary frames adjacent to each other will not be nailed without nailing the insulation board. As a result, the insulation board will not be damaged during construction.

Also, since the temporary frame itself has the function of a flap,
The unidirectional flapping material can be omitted, and since the flapping material is already unitized, the workability of fastening the flapping is greatly improved.

Furthermore, it is possible to carry out a reliable construction without a "slag" wraparound due to the generation of a gap in the heat insulating board combination part.

Also, since the temporary frame can be easily disassembled after the concrete is set and cured without peeling off the heat insulating board from the concrete wall, the peeled temporary frame can be reused with another heat insulating board at a separate place such as the upper floor of the building. It can be reused as a formwork by temporarily fixing it.

Furthermore, since there is a temporary frame, the heat insulation board does not have to be of a certain size, and divided scraps can be used effectively, and the temporary frame can be easily deformed by cutting and reused. As a result, material loss is reduced.

[Brief description of drawings]

1 to 4 show an embodiment of the present invention. FIG. 1 is a perspective view of a concrete driving form, FIG. 2 is a cross-sectional view of a heat insulating board, and FIG. 3 is a concrete driving form with a pillar portion. 4 is a sectional view used for the beam portion. FIGS. 5 and 6 are conventional examples, FIG. 5 is a cross-sectional view of a column portion, and FIG. 6 is a cross-sectional view of a beam portion. (1) …… Concrete driving form, (2) …… Insulation board, (3) …… Temporary frame, (4) …… Insulation layer, (5) …… Surface material (6) …… Reinforcement layer, (7) …… Moisture-proof layer (8) …… Adhesive surface layer, (9) …… Reinforcement material (10) …… Insulation board, (11) …… Temporary frame (12) …… Temporary frame, (13 ) …… Nail (14) …… Insulation board, (15) …… Temporary frame (16) …… Insulation board, (17) …… Nail (18) …… Temporary frame, (19) …… Nail ( 20) (21) …… Insulation board (22) (23) …… Temporary frame (24) …… Nail, (25) …… Temporary frame (26) …… Nail, (27) …… Insulation board ( 28) …… Insulation board, (29) …… Pieces (30) …… Insulation board, (31) …… Pieces (32) (33) …… Nail, (34) …… Beam bottom insulation board (35) …… Daiki, (36) …… Support (37) …… Wall insulation board (38) …… Beam side insulation Over de (39) ...... nails

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-54-69224 (JP, A) JP-A-49-36124 (JP, A) JP-A-58-150638 (JP, A) Actual development Sho-59- 142318 (JP, U)

Claims (2)

(57) [Claims] Claim: What is claimed is: 1. A temporary frame body comprising a heat insulating board in which a soft face material and a hard synthetic resin foam are laminated, and a reinforcing material capable of being nailed, arranged longitudinally and laterally and firmly combined in accordance with the size of the heat insulating board. After placing the concrete, the concrete driving forms temporarily fixed so that they can be peeled off are placed adjacent to each other, and the adjacent temporary frames are fixed to each other.After the concrete is set and cured, the temporary frame is removed from the heat insulation board. A heat insulating construction method characterized by peeling. 2. The heat insulation construction method according to claim 1, wherein the temporary frame body is combined with the heat insulation board while being shifted.