JP2020063593A - Fiber mesh body, opening reinforcement structure, and opening reinforcement method - Google Patents

Abstract

To provide a fiber mesh body capable of effectively reinforcing a part formed by a wet material around an opening while effectively preventing expansion and contraction of the part formed by the wet material due to the heat and occurrence of cracks due to a deformation or the like of an opening peripheral part, an opening reinforcement structure, and an opening reinforcement method.SOLUTION: In a construction, when a surface forming a periphery of an opening is formed by mortar R, an inside corner C is formed of two sides S being orthogonal to each other. Fiber filaments Y form a mesh body M in an orthogonal shape. A fiber mesh body M, in which the filaments Y in any direction forming an orthogonal shape are inclined by 45 degrees with respect to any of the two sides S forming the inside corner C, is embedded parallel to a surface formed by mortar R with an inside corner C along a right-angled corner around the opening.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a fiber mesh body for embedding in a mortar or other wet material to reinforce a portion formed by the wet material, an opening reinforcing structure, and an opening reinforcing method.

  In Japanese Patent Laid-Open No. 11-210101, when building a wooden building, a steel building, or the like, external ventilation for preventing dew condensation in the outer wall and improving heat insulation / airtightness is performed by a wet method such as mortar coating. As a wet external ventilation method for buildings that improves the durability of the building and the mortar layer, prevents cracking and peeling of the mortar layer, and at the same time realizes enhanced mortar protection performance and improved cosmetic properties. Provide a ventilation layer on the outer wall of the building, attach waterproof paper and iron net or iron net with waterproof paper to allow outside ventilation, apply light weight cement mortar, and coat the entire surface of the wall or inside, or of the wall Wet outside of the building to be finished after pressing and embedding a net material (fiber net) that reduces dry cement mortar drying shrinkage, reinforces tensile strength, and prevents cracks on some surfaces or inside. Care method is disclosed.

  Further, the publication describes that the occurrence of cracks can be prevented by performing a treatment such as diagonally tensioning a reinforcing net material in the vicinity of openings such as window frames where cracks are particularly likely to occur. Has been done.

  However, further effective reinforcement is desired in the vicinity of openings such as window frames.

JP-A-11-210101

  INDUSTRIAL APPLICABILITY The present invention can effectively reinforce the portion formed by the wet material around the opening, and expands or contracts due to heat of the portion formed by the wet material, or deforms the peripheral portion of the opening. It is an object of the present invention to provide a fiber mesh body, an opening reinforcing structure, and an opening reinforcing construction method capable of effectively preventing the occurrence of cracks and the like.

  The fiber mesh body, the opening reinforcing structure and the opening reinforcing method of the present invention can be expressed as follows.

(1) For embedding in a portion formed of mortar or other wet materials, a mesh body made of a fiber filament or a fiber filament as a main material,
It has an inner corner portion consisting of two sides that are orthogonal to each other,
The whole or at least a portion including the corner portion, the fiber filaments are orthogonal to each other to form a mesh body,
A fibrous mesh body characterized in that the filaments in any direction forming the orthogonal shape are inclined by 45 degrees with respect to any of the two sides forming the inside corner portion.

  In the structure, when the periphery of the opening having a right-angled corner on the outer peripheral side is formed of a wet material, a fiber mesh body made of a fiber filament or a fiber filament as a main material, It is possible to embed in a portion formed of a wet material so that the inner corner-shaped portion composed of two sides that are orthogonal to each other is along the right-angled corner portion around the opening.

  The fibrous filaments made of fibers in the whole or at least a portion including the indented portion are orthogonal to each other to form a mesh body, and the filaments in any direction forming the orthogonal shape are the indented corners. Since it is inclined by 45 degrees with respect to any of the two sides that form the part, the orthogonal shape of the portion surrounding the right-angled corner around the opening in the fiber mesh body embedded as described above. Each of the filaments forming the is inclined at an angle of 45 degrees with respect to the two sides forming a right angled corner.

  As a result, the portion of the opening formed by the wet material is effectively reinforced, and the portion formed of the wet material expands and contracts due to heat, and cracks due to deformation of the peripheral portion of the opening and the like. Is effectively prevented.

  (2) The fiber mesh body according to the above (1), which is for embedding in parallel to a surface formed by the wet material when the surface is formed by the wet material.

  (3) The fiber mesh body according to the above (1) or (2), which has the above-mentioned corner portion in one place.

  (4) The fiber mesh body according to any one of (1) to (3) above, wherein the fibers forming the filamentous body are alkali resistant glass fibers.

  (5) When the periphery of the opening in the construct is formed of mortar or another wet material, the fiber mesh body according to any one of (1) to (4) above, An opening reinforcing structure embedded in a portion formed of the wet material along a right-angled corner around the opening.

  (6) The opening reinforcing structure according to (5), wherein when the surface is formed of the wet material, the fiber mesh body is embedded in parallel to the surface formed of the wet material.

  (7) When the periphery of the opening in the structure is formed of mortar or other wet material, the fiber mesh body according to any one of (1) to (4) above, An opening reinforcing method for embedding in a portion formed of the wet material along a right-angled corner around the opening.

  (8) The opening reinforcing method according to (7), wherein when the surface is formed of the wet material, the fiber mesh body is embedded in parallel to the surface formed of the wet material.

  According to the present invention, it is possible to effectively reinforce the portion formed by the wet material around the opening, and the expansion and contraction by the heat of the portion formed by the wet material and the deformation of the peripheral portion of the opening. It is possible to effectively prevent the occurrence of cracks due to the above.

It is a typical front view of a main part of a wall having a window. It is a typical front view of a fiber mesh body.

  [1] An embodiment of the present invention will be described with reference to the drawings.

  Each of the drawings relates to the fiber mesh body, the opening reinforcing structure, and the opening reinforcing method of the present invention.

  (1) In this fiber mesh body M, a large number of alkali-resistant glass fiber bundles, which are filaments Y made of fibers, are orthogonal to each other, and intersections of the filaments Y are covered with an alkali-resistant binder to form a mesh body M. Is configured.

  (2) The fibrous mesh body M has an entry corner portion C formed by cutting out a quadrant from a circle at one location. The inner corner portion C is composed of two sides S that are orthogonal to each other.

  (3) The filaments Y are orthogonal to each other over the entire fibrous mesh body M, and the filaments Y in any of the orthogonal directions are on any of the two sides S forming the inset corner portion C. Is also inclined at 45 degrees.

  (4) This fibrous mesh body M contains the mesh body M when the surface constituting the periphery of the window W (opening) in the wall L of the building is formed of mortar R (wet material). The corner portion C can be used by embedding it in parallel with the surface formed by the mortar R so that the corner portion C extends along the right-angled corner portion N around the window portion W.

  In the fibrous mesh body M embedded in this way, the thread-like bodies Y which are orthogonal to the portion surrounding the right-angled corner portion N around the window portion W each have two sides forming the right-angled corner portion N. The portion is inclined 45 degrees with respect to S, and the portion formed by the mortar around the window W is effectively reinforced, and the occurrence of cracks and the like is effectively prevented.

  [2] Embodiments of the present invention will be further described including forms other than the above.

  (1) The fiber mesh body of the present invention is for embedding in a portion formed of a wet material.

  The embedding position of the fiber mesh body of the present invention can be an effective position for preventing occurrence of cracks and the like due to expansion and contraction of the portion formed of the wet material due to heat and deformation of the peripheral portion of the opening.

  (1-1) Examples of wet materials include mortar, plasters, plaster, concrete and the like. At least mortar, plasters, stucco, etc. can be referred to as coating materials.

  (1-2) When the surface is formed of a wet material, the fiber mesh body of the present invention can be embedded in parallel to the surface.

  In the present invention, the surface formed of the wet material is generally a wall surface, but it may be another free surface.

  When embedding in parallel to the surface formed by the wet material, the thickness of the wet material from that surface to the fiber mesh body is changed by expansion and contraction of the portion formed by the wet material due to heat and deformation of the peripheral portion of the opening. It is desirable that the degree is effective to prevent the occurrence of cracks due to the above. Such a thickness depends on the physical properties of the wet material, but may be, for example, 2 to 30 mm, preferably 5 to 20 mm.

  (1-3) The fiber mesh body of the present invention comprises a fiber thread or a fiber thread as a main material, and the fiber thread is formed in an orthogonal shape. It constitutes a mesh body.

  The fibrous mesh body can have, for example, a square, a circle, another polygonal shape, or a closed curved shape with a part of which is cut away at one corner (or a plurality of corners). The distance from the innermost position of the indented corner to the outer periphery of the fiber mesh body is constant or close to a constant value, as in the case of having an indented corner in one place cut out from a circle. Those are preferable in terms of reinforcement efficiency.

  (1-4) As the fiber mesh body, a fibrous filamentous body (which is coated with a synthetic resin such as PVC or other coating material or binder [eg, alkali-resistant material] if necessary) is formed into a mesh shape. Examples of such products include those formed in a net-like form or at least the intersections of filaments coated with a synthetic resin such as PVC or other coating material or binder [for example, alkali-resistant]. it can.

  Examples of the fibrous filaments include fibers, yarns, and fiber bundles.

  As the fiber that constitutes the fibrous filamentous material, one having necessary physical properties such as durability and strength can be used. Regarding the strength, for example, tensile strength per width of 50 mm in the longitudinal direction and the transverse direction of the fiber mesh body is 1200 N / 50 mm or more. Specific examples of fibers include inorganic fibers such as glass fibers, carbon fibers and various mineral fibers; organic fibers such as acrylic fibers, vinylon fibers, nylon fibers, polyester fibers, polypropylene fibers and aramid fibers. Suitable for wet materials exhibiting strong alkalinity such as mortar are alkali resistant fibers, and suitable examples include alkali resistant glass fibers (for example, those containing an amount of zirconia necessary for alkali resistance). it can.

  (1-5) The fibrous mesh body of the present invention has an inner corner portion having two sides that are orthogonal to each other.

  For example, it is possible to have an in-cornered portion formed by cutting out a quadrant (or other quadrant or another shape portion) from a circle at one location. In addition, for example, it is possible to have an in-cornered portion obtained by cutting out an isosceles triangle (or another triangle, a square, or another square) from a square or another square in one place.

  The corner portion (vertical corner portion) of the inner corner portion may be a right angled shape, a concavely curved shape (for example, an arc shape), a chamfered shape, or the like.

  The fibrous mesh body of the present invention can have the above-mentioned corner portion in one place, but the present invention is not necessarily limited to this.

  In the case where the fiber mesh body of the present invention is formed of the wet material around the openings such as windows, doors, doors, doors, ventilation holes or ventilation holes in a structure (building or other structure). In addition, the inside corner portion can be embedded in the portion formed of the wet material so as to be along the right-angled corner portion around the opening. When the surface is formed by the wet material, the fiber mesh body of the present invention can be embedded in parallel to the surface.

  The entry corners of the fibrous mesh body are along the right-angled corners around the opening, for example, that the two sides forming the entry corner are orthogonal to each other, and It means that they are aligned with two right-angled sides forming a right-angled corner or that they are close to each other in a substantially parallel shape.

  (1-6) The fibrous filaments in the whole or at least the portion including the indented portion are orthogonal to each other to form a mesh body.

  The filaments in any direction that are orthogonal to each other are inclined by 45 degrees with respect to any of the two sides that form the inside corner portion.

  The 45-degree inclined shape can be inclined at an angle of, for example, 40 to 50 degrees in addition to the inclination of 45 degrees, and can also be made at an angle of 41 to 49 degrees. An angle of 42 to 48 degrees is preferable, 43 to 47 degrees is more preferable, and an angle of 44 to 46 degrees is more preferable.

  (2) In the opening reinforcing structure of the present invention, the periphery of the openings such as windows, doors, doors, doors, ventilation or ventilation holes in the structure (building or other structure) is formed by the wet material. When formed, the fibrous mesh body of the present invention is formed by embedding in the portion formed by the wet material so that the inside corner portion is along a right-angled corner portion around the opening portion. Is.

  When the surface is formed of the wet material, the opening reinforcing structure may be one in which the fiber mesh body is embedded in parallel to the surface formed of the wet material.

  (3) In the opening reinforcement method of the present invention, the periphery of the openings such as windows, doors, doors, doors, and ventilation or ventilation holes in a structure (building or other structure) is formed by the wet material. When formed, the fibrous mesh body of the present invention is embedded in a portion formed of the wet material so that the inside corner portion is along a right-angled corner portion around the opening.

  In this opening reinforcing method, when the surface is formed of the wet material, the fiber mesh body may be embedded in parallel to the surface formed of the wet material.

C Entry Corner L Wall M Fiber Mesh N Corner R Mortar S Side W Window Y Thread

Claims (8)

For embedding in a portion formed by mortar or other wet material, a mesh body made of a fiber filament or a fiber filament as a main material,
It has an inner corner portion consisting of two sides that are orthogonal to each other,
The whole or at least a portion including the corner portion, the fiber filaments are orthogonal to each other to form a mesh body,
A fibrous mesh body characterized in that the filaments in any direction forming the orthogonal shape are inclined by 45 degrees with respect to any of the two sides forming the inside corner portion.   The fiber mesh body according to claim 1, which is for embedding in parallel to a surface formed of the wet material when the surface is formed of the wet material.   The fiber mesh body according to claim 1 or 2, wherein the inner corner portion is provided at one place.   The fiber mesh body according to any one of claims 1 to 3, wherein the fibers constituting the filamentous body are alkali resistant glass fibers.   The fiber mesh body according to any one of claims 1 to 4, wherein when the periphery of the opening in the structure is made of mortar or another wet material, the corner portion has a periphery around the opening. An opening reinforcement structure embedded in a portion formed of the wet material so as to extend along a right-angled corner of the.   The opening reinforcing structure according to claim 5, wherein when the surface is formed by the wet material, the fiber mesh body is embedded in parallel with the surface formed by the wet material.   The fiber mesh body according to any one of claims 1 to 4, wherein when the periphery of the opening in the structure is made of mortar or another wet material, the corner portion has a periphery around the opening. A method for reinforcing an opening which is embedded in a portion formed of the wet material so as to extend along a right-angled corner of the.   The opening reinforcing method according to claim 7, wherein when the surface is formed of the wet material, the fiber mesh body is embedded in parallel to the surface formed of the wet material.

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