JP2006104913A - Reinforcement of building such as wooden house and health recovering house construction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a house construction method for performing its protective measure against an organic compound such as generating VOCs, by attaining a sense of unity of a further strong building, by applying resin to a contact plane of wood in a wooden building. <P>SOLUTION: Respective joining parts are integrally joined by applying a synthetic resin (such as an FRP resin) from above to a outer wall backing material (a building inside surface) of a wooden house and the joining part of a column, a girth, a sill, a diagonal brace and a stud, with cloth woven fabric (including glass fiber) as a base. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

本発明は、木造住宅等の建物強度補強と健康回復化を図った建築工法に関する。The present invention relates to a construction method for reinforcing the strength of a building such as a wooden house and restoring health.

従来の建物補強方法は、金物による補強が主であり樹脂による補強方法がありません。又建物から発生する化学物質に対する方法が講じられていないのが現状である。Conventional building reinforcement methods are mainly reinforced with hardware, and there is no resin reinforcement method. In addition, there is currently no method for chemical substances generated from buildings.

従来の補強方法では、木材の収縮等により建物との一体感が弱くなる。又、発生するＶＯＣ類の有機化合物に対し、その防御措置を行なっていない。本発明は、このような問題を解決しようとするものである。In the conventional reinforcing method, the sense of unity with the building is weakened due to contraction of the wood and the like. Also, no defensive measures are taken against the organic compounds of VOCs that are generated. The present invention is intended to solve such problems.

請求項１から６の発明においては、木造建築における木材の接合面に対して、樹脂等を塗布することにより、より強固な建物の一体感を図るものである。According to the first to sixth aspects of the present invention, a stronger sense of unity of the building is achieved by applying resin or the like to the joint surface of wood in a wooden building.

請求項７の発明においては、樹脂及びその他の使用材料から発生するＶＯＣ類の有機化合物に対し、抗酸化工法溶液を塗布することにより、化学物質の分解除去を行ないます。In the invention of claim 7, chemical substances are decomposed and removed by applying an antioxidant method solution to organic compounds of VOCs generated from resins and other materials used.

本発明は、地震国日本において耐震基準の定かでなかった時期又は、本来の施工基準によって施工がなされていない建物に対して、簡便な施工方法により、経済的になおかつ早期に施工できる工法です。又この工法は、新築及び増改築工事における建物補強として有効です。The present invention is a construction method that can be constructed economically and quickly by a simple construction method for a time when earthquake resistance standards were not established in Japan, or for buildings that were not constructed according to the original construction standards. This construction method is also effective for building reinforcement in new construction and expansion work.

本発明は、現在社会問題化しているシックハウス症候群対策として、揮発性有機化合物のホルムアルデヒド等の分解除去を抗酸化工法溶液を使用することによって解決します。The present invention solves the removal of volatile organic compounds such as formaldehyde by using an antioxidant method solution as a measure against sick house syndrome, which has become a social problem.

発明の実施するための最良の形態BEST MODE FOR CARRYING OUT THE INVENTION

以下、本発明の実施の形態を図１〜図７に基づいて説明する。Hereinafter, embodiments of the present invention will be described with reference to FIGS.

図１においては、請求項１の外壁下地材▲８▼と、柱▲３▼、胴差▲４▼、土台▲２▼、筋違▲６▼、間柱▲５▼との接合部に対して、不織布をベースとする合成樹脂▲７▼を塗布し、各接合部の一体化を図る。尚塗布後、請求項７の抗酸化工法溶液を塗布する。In FIG. 1, the outer wall base material (8) according to claim 1 is connected to the column (3), the trunk difference (4), the foundation (2), the strut (6), and the intermediate column (5). Then, a synthetic resin (7) based on a non-woven fabric is applied to integrate the joints. In addition, after application | coating, the antioxidant construction method solution of Claim 7 is apply | coated.

図２は、図１の水平断面詳細図である。2 is a detailed horizontal sectional view of FIG.

図３においては、請求項２における、柱▲３▼、土台▲２▼、基礎コンクリート▲１▼に対して、不織布をベースとする合成樹脂▲７▼を塗布し、各接合部の一体化を図る。尚、塗布後、請求項７の抗酸化工法溶液を塗布する。In FIG. 3, synthetic resin (7) based on nonwoven fabric is applied to pillar (3), foundation (2) and foundation concrete (1) in claim 2 to integrate the joints. Plan. In addition, after application | coating, the antioxidant construction method solution of Claim 7 is apply | coated.

図４においては、請求項３の柱▲３▼と横架材▲４▼との接合面に対して、不織布をベースとする合成樹脂▲７▼を塗布し、各接合部の一体化を図る。尚、塗布後、請求項７の抗酸化工法溶液を塗布する。In FIG. 4, synthetic resin (7) based on a nonwoven fabric is applied to the joint surface between the pillar (3) and the horizontal member (4) of claim 3 so as to integrate the joint portions. . In addition, after application | coating, the antioxidant construction method solution of Claim 7 is apply | coated.

図５においては、請求項４の土台▲２▼及び横架材▲４▼の継手接合面に対して、不織布をベースとする合成樹脂▲７▼を塗布し、各接合部の一体化を図る。尚、塗布後、請求項７の抗酸化工法溶液を塗布する。In FIG. 5, synthetic resin (7) based on nonwoven fabric is applied to the joint joint surfaces of the base (2) and the horizontal member (4) according to claim 4 to integrate the joints. . In addition, after application | coating, the antioxidant construction method solution of Claim 7 is apply | coated.

図６においては、請求項５の内部下地材▲９▼又は、外壁下地材▲８▼と、柱▲３▼、土台▲２▼、横架材▲４▼との接合面に対して、不織布をベースとする合成樹脂▲７▼を塗布し、各接合部の一体化を図る。尚、塗布後、請求項７の抗酸化工法溶液を塗布する。In FIG. 6, the nonwoven fabric is bonded to the joint surface of the inner base material (9) or the outer wall base material (8) according to claim 5 and the pillar (3), the base (2), and the horizontal member (4). A synthetic resin (7) based on is applied to integrate the joints. In addition, after application | coating, the antioxidant construction method solution of Claim 7 is apply | coated.

図７においては、図６の立面詳細図である。FIG. 7 is a detailed elevation view of FIG.

図８においては、請求項６の横架材▲４▼と接合する小屋束▲１０▼との接合面に対して、不織布をベースとする合成樹脂▲７▼を塗布し、各接合部の一体化を図る。尚、塗布後、請求項７の抗酸化工法溶液を塗布する。In FIG. 8, synthetic resin (7) based on a non-woven fabric is applied to the joint surface between the horizontal member (4) of claim 6 and the shed bundle (10) to be joined. Plan In addition, after application | coating, the antioxidant construction method solution of Claim 7 is apply | coated.

立面詳細図  Detailed view of elevation 外壁水平詳細断面図  Exterior wall horizontal detailed sectional view 外壁断面図（基礎・土台・柱の取り合い）  Cross section of outer wall (base / base / pillar) 柱と横架材の詳細図  Detailed view of columns and horizontal members 横架材接合図  Horizontal material joint diagram 外壁水平断面図  External wall horizontal section 外壁下地（内壁下地）立面詳細図  Detail of elevation of outer wall base (inner wall base) 小屋組接合図  Hut assembly diagram

符号の説明Explanation of symbols

▲１▼ 基礎コンクリート
▲２▼ 土台
▲３▼ 柱
▲４▼ 胴差又桁
▲５▼ 間柱
▲６▼ 筋違
▲７▼ 不織布をベースとした合成樹脂
▲８▼ 外壁下地材
▲９▼ 内壁下地材
▲１０▼ 小屋束(1) Foundation concrete (2) Foundation (3) Pillar (4) Torso or girder (5) Spacer (6) Stiffness (7) Synthetic resin based on nonwoven fabric (8) Outer base material (9) Inner base ▲ 10 ▼ Hut bundle

Claims (7)

木造住宅等の外壁下地材（建物内部面）と、柱、胴差、土台、筋違、間柱等の接合部に対し、布織布（ガラス繊維を含む）をベースとし、上より合成樹脂（ＦＲＰ樹脂等）を塗布し、各接合部を接合一体化する。  The base material of the outer wall of a wooden house (inside the building) and the joints of pillars, trunk differences, foundations, struts, studs, etc., are based on cloth woven fabric (including glass fiber) and synthetic resin (from above) FRP resin or the like) is applied, and the joints are joined and integrated. 木造住宅等の柱、土台、基礎コンクリート面に対し、不織布（ガラス繊維を含む）をベースとし、上より合成樹脂（ＦＲＰ樹脂等）を塗布し、各接合面を接合一体化する。  A non-woven fabric (including glass fiber) is used as a base for pillars, foundations, and foundation concrete surfaces of wooden houses, etc., and synthetic resin (FRP resin, etc.) is applied from above, and the joint surfaces are joined and integrated. 木造住宅等の柱と、それに接合する胴差及び梁又は、桁（以下「横架材」という）と、その上部に接合する柱のそれぞれの接合面に対し、不織布（ガラス繊維を含む）をベースとし、上より合成樹脂（ＦＲＰ樹脂等）を塗布し、各接合面を接合一体化する。  Non-woven fabrics (including glass fiber) for the pillars of wooden houses, the body differences and beams to be joined to them, or beams or girders (hereinafter referred to as “horizontal materials”), and the joint surfaces of the pillars to be joined to the top A synthetic resin (FRP resin or the like) is applied from above as a base, and the bonding surfaces are bonded and integrated. 木造住宅等の土台及び横架材の継手接合面に対し、不織布（ガラス繊維を含む）をベースとし、上より合成樹脂（ＦＲＰ樹脂等）を塗布し、各接合面を接合一体化する。  A non-woven fabric (including glass fiber) is used as a base for the joint joint surfaces of a base such as a wooden house and a horizontal member, and a synthetic resin (FRP resin or the like) is applied from above, and the joint surfaces are joined and integrated. 木造住宅等の内部下地材又は外壁下地材と、柱、土台、胴差の接合面に対し、布織布（ガラス繊維を含む）をベースとし、上より全面に合成樹脂（ＦＲＰ樹脂等）を塗布し、各接合面を接合一体化する。この場合、  For base materials such as wooden houses and outer wall base materials and pillars, foundations, and torso joint surfaces, fabric cloth (including glass fiber) is used as a base, and synthetic resin (FRP resin, etc.) is applied to the entire surface from above. Apply and unify each joint surface. in this case, 木造住宅等の横架材に接合するその上部の小屋組の小屋束の接合面に対し、不織布（ガラス繊維を含む）をベースとし、上より合成樹脂（ＦＲＰ樹脂等）を塗布し、各接合面を接合一体化する。  Non-woven fabric (including glass fiber) is used as a base for the joint surface of the shed bundle of the upper hut assembly to be joined to horizontal members such as wooden houses, and synthetic resin (FRP resin, etc.) is applied from above to join each Join the surfaces together. 請求項１から６の、合成樹脂の塗布面に対し、その上から抗酸化工法溶液を全面に塗布する。  The antioxidant method solution is applied to the entire surface of the synthetic resin application surface according to claims 1 to 6 from above.

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