JP7485330B2 - Russ Complex - Google Patents

Description

The present invention relates to a lath composite body equipped with a sheet-like waterproofing material and a reinforcement beam.

Patent Publication No. 4975498 shows a composite lath comprising a lath 11, a first strength rib 12 arranged in parallel on one surface 11a of the lath 11, a second strength rib 13 arranged in parallel on the other surface 11b of the lath 11 in a direction generally perpendicular to the first strength rib 12, a backing paper 14 inserted between the second strength rib 13 and the lath 11, and a waterproof paper 15 attached to the backing paper 14 by adhesive via the second strength rib 13, the backing paper 14 being in the shape of a strip extending generally parallel to the first strength rib 12.

The same publication states the following about this composite lath invention: "By simply applying adhesive to the backing paper and pasting it with the waterproof paper, the two can be easily integrated into one piece, creating a so-called waterproof lath material. This makes it possible to further simplify the work process. At the same time, the first and second reinforcing bars attached to the lath can be easily fixed without the waterproof paper acting as a barrier, improving work efficiency and ultimately reducing manufacturing costs."

However, to manufacture this composite lath, in addition to the waterproof paper 15, backing paper 14 and adhesive are required, and the backing paper 14 must be inserted between the second reinforcing rib 13 and the lath 11, and the waterproof paper 15 must be attached to the backing paper 14 with adhesive via the second reinforcing rib 13.

On the other hand, the lath complex shown in Patent Publication No. 6285985 has a surface frame F, lath material L, sheet-like waterproofing material W, and backing frame B stacked in that order from front to back, with the surface frame F and backing frame B intersecting, sandwiching the sheet-like waterproofing material W and lath material L, and being attached to the front side of the lath material L and the back side of the sheet-like waterproofing material W, respectively.

In the case of this lath composite, it is not necessary to bond the sheet-like waterproofing material W with adhesive, but at specified locations, which are all or part of the multiple locations where the front bone F and the back bone B intersect, the lath material L and the sheet-like waterproofing material W are formed with circular cutout holes LC and WC that overlap each other, and the front bone F is provided with a front bone protrusion portion Fa, and the back bone B is provided with a back bone protrusion portion Ba. Furthermore, the front bone protrusion portion Fa penetrates the circular cutout holes LC and WC to the back side of the lath material L and the sheet-like waterproofing material W, intersecting with the back bone protrusion portion Ba, and the two are joined by welding.

Patent No. 4975498 Patent No. 6285985

The present invention aims to provide a lath composite with sheet-like waterproofing material and reinforcement ribs that can be obtained more efficiently, and a method for manufacturing the same.

The ras complex of the present invention can be expressed, for example, as follows:

(1) A lath composite in which a plurality of surface reinforcement ribs, lath material, a sheet-like waterproofing material, and a plurality of back reinforcement ribs are layered in this order from the front side to the back side,
The front and back reinforcement ribs sandwich the lath material and the sheet-like waterproofing material, and cross each other while being attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively;
The sheet-like waterproofing material has one or more connection holes at least at each predetermined position where each of the backing ribs is located,
Each of the backing ribs is joined to one or both of the back side of the lath material and the front ribs through the joining hole portion in the sheet-like waterproofing material,
Each of the front and rear bones is joined to one or both of the front and rear bones of the lath material,
A lath complex, characterized in that the sheet-like waterproofing material is held between the lath material and the backing ribs.

Multiple surface ribs, lath material, sheet-like waterproofing material, and multiple backing ribs are stacked in this order from the front side to the back side, and the surface ribs and backing ribs intersect while being attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, with the lath material and sheet-like waterproofing material in between.

Each backing rib is joined to one or both of the back side of the lath material and the front rib through a joining hole in the sheet-like waterproofing material, and each front rib is joined to one or both of the front side of the lath material and the backing rib, so that the sheet-like waterproofing material is held between the lath material and the backing rib.

(2) The lath composite according to (1) above, in which the surface reinforcement ribs are joined to one or both of the surface side of the lath material and the back reinforcement ribs at the positions of the joining holes in the sheet-like waterproofing material.

(3) The sheet-like waterproofing material is a lath composite as described in (1) or (2) above, which has connection holes at predetermined locations corresponding to all or part of the multiple locations where the front and back reinforcement ribs intersect.

(4) A lath complex according to any one of (1) to (3) above, in which each of the front and back bones is joined to a lath material or joined to a front or back bone that is joined to a lath material.

(5) The lath composite body according to any one of (1) to (4) above, in which the surface bone, lath material, and back bone are made of metal, and the surface bone and lath material are joined, the back bone and lath material are joined, and the surface bone and back bone are joined by welding.

(6) A method for producing a lath composite in which a plurality of surface reinforcement ribs, lath material, a sheet-like waterproofing material, and a plurality of back reinforcement ribs are stacked in this order from the front side to the back side, and the surface reinforcement ribs and the back reinforcement ribs are intersected while being attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, with the lath material and the sheet-like waterproofing material sandwiched therebetween,
A sheet-like waterproofing material having a connection hole portion at each of predetermined locations corresponding to all or a portion of the multiple locations where at least the front force bone and the back force bone intersect is laid on the multiple back force bones so that each of the back force bones is positioned at the predetermined location.
The lath material is placed on the sheet-like waterproofing material,
The surface reinforcement ribs are placed on the lath material so as to be positioned at the predetermined positions of the sheet-like waterproofing material,
A method for manufacturing a lath complex, characterized in that each of the back force ribs is joined to one or both of the back side of the lath material and the front force ribs through the joining hole portions in the sheet-like waterproofing material, and each of the front force ribs is joined to one or both of the front side of the lath material and the back force ribs at the positions of the joining holes, thereby holding the sheet-like waterproofing material between the lath material and the back force ribs.

(7) A method for producing a lath composite in which a plurality of surface reinforcement ribs, lath material, a sheet-like waterproofing material, and a plurality of back reinforcement ribs are stacked in this order from the front side to the back side, and the surface reinforcement ribs and the back reinforcement ribs are intersected while being attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, with the lath material and the sheet-like waterproofing material sandwiched therebetween,
The lath material is placed on the plurality of surface bones,
A sheet-like waterproofing material having a hole for connection at each of predetermined locations corresponding to all or a part of the plurality of locations where at least the surface ribs and the back ribs intersect is laid on the back side of the lath material so that each of the surface ribs is positioned at the predetermined location.
The backing ribs are stacked so as to be positioned at the predetermined positions on the sheet-like waterproofing material,
A method for manufacturing a lath complex, characterized in that each of the back force ribs is joined to one or both of the back side of the lath material and the front force ribs through the joining hole portions in the sheet-like waterproofing material, and each of the front force ribs is joined to one or both of the front side of the lath material and the back force ribs at the positions of the joining holes, thereby holding the sheet-like waterproofing material between the lath material and the back force ribs.

(8) A method for manufacturing a lath composite in which a plurality of surface reinforcement ribs, lath material, a sheet-like waterproofing material, and a plurality of back reinforcement ribs are stacked in this order from the front side to the back side, and the surface reinforcement ribs and the back reinforcement ribs are intersected while being attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, with the lath material and the sheet-like waterproofing material sandwiched therebetween,
The lath material is placed on the plurality of surface bones, and the surface bone is joined to the surface side of the lath material.
A sheet-like waterproofing material having one or more connection holes at least at each predetermined position where the backing ribs are to be positioned is laid on the back side of the lath material to which the front ribs are joined, and the backing ribs are laid on the predetermined positions of the sheet-like waterproofing material;
A method for manufacturing a lath composite is characterized in that the sheet-like waterproofing material is held between the lath material and the backing ribs by joining the backing ribs to one or both of the back side of the lath material and the front ribs through joining holes in a sheet-like waterproofing material superimposed on the back side of the lath material.

(9) A method for manufacturing a lath complex described in any one of (6) to (8) above, in which the surface bone, lath material and back bone are made of metal, and the joining of the surface bone to the lath material, the joining of the back bone to the lath material, and the joining of the surface bone to the back bone are all by welding.

In the lath composite of the present invention, each backing rib is joined to one or both of the back side of the lath material and the front rib through the joining hole in the sheet-like waterproofing material, and each front rib is joined to one or both of the front side of the lath material and the backing rib, and the sheet-like waterproofing material is held between the lath material and the backing rib.

The manufacturing method of the present invention can efficiently produce the lath complex of the present invention.

FIG. 2 is a schematic front view of a lath complex. FIG. FIG. 2 is a front view of the sheet-shaped waterproof material. FIG. 2 is a schematic enlarged plan view of a main portion of a lath complex. FIG. 2 is a schematic enlarged side view of a main portion of a lath complex.

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

(1) Figures 1 to 5 each show a lath composite as an example of an embodiment of the present invention.

This lath complex A is made up of six surface frames F, lath material L, sheet-like waterproofing material W, and five backing frames B, stacked in that order from front to back, with the surface frames F and backing frames B sandwiching the lath material L and sheet-like waterproofing material W between them, and crossing each other while being attached to the front side of the lath material L and the back side of the sheet-like waterproofing material W, respectively; for example, it is used by being fixed to a wooden panel as a base material.

(2) Lath material L is a flat, elongated rectangular lath with a diamond-shaped mesh used as a base for mortar coating.

(3) The sheet-like waterproofing material W is made of a vertically long rectangular tarpaulin paper, and is arranged behind the mortar coating in a mortar-coated wall to prevent moisture from penetrating through the mortar coating. The lath material L and the sheet-like waterproofing material W are overlapped vertically and horizontally with an offset amount equivalent to the overlap, in preparation for the case where the lath complex A is arranged adjacent to one another.

(4) The axis of the surface frame F is horizontal, and six of them are arranged parallel to each other at equal intervals in the vertical direction on the surface of the lath material L.

On the other hand, the axis of the backing ribs B is vertical, and five of them are arranged at equal intervals in the horizontal direction parallel to each other on the back side of the lath material L with the sheet-like waterproof material W sandwiched between them.

The front and back bones F and B are made of the same steel wire material that is stronger and more rigid than the wire material that makes up the flat lath, which is the lath material L, and are linear overall, parallel to the surface made up of the lath material L. The intersection angle between the front and back bones F and B is 90 degrees.

(5) The sheet-like waterproofing material W has circular connection holes WH of the same size formed at all 30 predetermined locations (predetermined locations evenly distributed in two dimensions) where the front ribs F and back ribs B intersect. Therefore, there are six connection holes WH at each of the five predetermined positions in the vertical direction where the back ribs B are located.

(6) At the position of each connection hole WH (predetermined location) (at a position corresponding to the inside of the connection hole WH), the intersecting backing bone B and fronting bone F are spot welded through the connection hole WH in the sheet-like waterproofing material W and the mesh of the lath material L. When a linear material constituting the lath material L is located between the intersecting backing bone B and fronting bone F, the backing bone B is joined to the back side of the linear material constituting the lath material L by spot welding, and the fronting bone F is joined to the front side of the linear material. This holds the sheet-like waterproofing material W between the lath material L and the backing bone B.

In addition, for example, intermediate positions between the five connecting holes WH of each of the surface bones F (or each of the back bones B) or portions within each connecting hole WH that do not intersect with the back bones B (or surface bones F) can be joined to the linear material that constitutes the lath material L by spot welding.

[2] Further explanation of the embodiments of the present invention, including embodiments other than those described above.

The lath composite of the present invention is made up of multiple surface ribs, lath material, sheet-like waterproofing material, and multiple backing ribs stacked in this order from the front side to the back side, with the surface ribs and backing ribs intersecting and attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, with the lath material and the sheet-like waterproofing material in between.

(1) The lath material can be preferably one that can be fixed to a substrate such as a wooden panel and used as a base for mortar or other coating materials.

Examples of lath materials include, but are not limited to, flat lath, metal lath, wire lath, expanded metal, welded wire mesh, diamond-shaped wire mesh, and hexagonal wire mesh.

(2) The sheet-like waterproofing material is arranged on the back side of a coating body formed by applying a coating material such as mortar to a mortar-coated wall, etc., to prevent moisture penetration from the coating body, and is overlapped over almost the entire back side of the lath material. Note that in case lath complexes are arranged adjacent to each other, the lath material and the sheet-like waterproofing material can be shifted in a specified direction by an amount equivalent to the overlap.

(2-1) The sheet-like waterproofing material has at least one or preferably two or more connection holes at each of the predetermined positions where the backing ribs are located.

For example, if m (positive integer, for example 5) horizontal front bones are arranged parallel to each other at equal intervals in the vertical direction, and n (positive integer, for example 4) vertical back bones are arranged parallel to each other at equal intervals in the horizontal direction and intersect at m x n (20) points, it is possible to have connection holes at all of the m x n intersections, or to have connection holes only at selected intersections among the m x n (preferably points distributed as evenly as possible, for example intersections that are equally spaced vertically and horizontally). It is also possible to have connection holes at m points that intersect with the front bone and at points that do not intersect among the n specified positions in the vertical direction where the n back bones are located, or to have connection holes only at points that do not intersect with the front bone among the n specified positions in the vertical direction where the back bones are located. Furthermore, it is also possible to have connection holes at the points where the front bones are located and do not intersect with the back bone.

(2-2) The sheet-like waterproofing material may also have connection holes at all or part of the multiple locations where the front and back reinforcement ribs intersect (for example, four or more predetermined locations, preferably four or more predetermined locations two-dimensionally [for example, vertically and horizontally] distributed [distributed as evenly as possible] on the lath material).

For example, if five horizontal front bones arranged parallel to each other at equal intervals in the vertical direction and four vertical back bones arranged parallel to each other at equal intervals in the horizontal direction intersect at right angles at 20 points, all 20 intersection points can be designated as the specified points, or only selected intersection points among the 20 (preferably points distributed as evenly as possible, for example intersection points that are equally spaced both vertically and horizontally) can be designated as the specified points. Furthermore, connection holes can also be provided at points other than the intersection points where the back bones are located or where the front bones are located.

(2-3) The joining hole may be, for example, circular, elliptical, rectangular, or other polygonal, but is not limited to these.

(2-4) Examples of sheet-type waterproof materials include, but are not limited to, breathable waterproof paper, asphalt felt, tarpaulin paper, and other waterproof sheets.

(3) The front and back strength bones may be made of wire material having higher rigidity and strength than the wire material constituting the lath material, such as, but not limited to, steel wire material.

The shape of the front and back reinforcement ribs can be linear, but is not limited to this. For example, they can have a protrusion that protrudes from the side opposite the lath material (e.g., at a location other than the connection hole of the sheet-like waterproofing material).

It is desirable that multiple (preferably three or more) of the lateral bones and lateral bones are arranged at intervals (preferably multiple lateral bones and lateral bones are arranged at equal intervals).

The front and back ribs are attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, and cross each other, sandwiching the lath material and the sheet-like waterproofing material. The crossing angle between the front and back ribs is preferably 90 degrees, but is not necessarily limited to 90 degrees.

The front and back stiffening bones can be attached to the lath material parallel to the surface formed by the lath material.

(4) The joining of the front and back reinforcement bones and lath material may be carried out as follows:

(4-1) Each backing rib is joined to either the back side of the lath material or the front rib through the joining holes in the sheet-like waterproofing material (for example, joined only to the back side of the linear material constituting the lath material or only to the front rib through the meshes of the lath material), or joined to both (for example, the backing rib is joined to the back side of the linear material constituting the lath material, and the front rib is joined to the front side of the linear material).

Each surface bone is joined to either the front side of the lath material or the back bone (for example, joined only to the front side of the linear material constituting the lath material or only to the back bone through the mesh and connection holes of the lath material), or joined to both (for example, the surface bone is joined to the front side of the linear material constituting the lath material, and the back bone is joined to the back side of the linear material through the connection holes). When the surface bone is joined only to the front side of the linear material constituting the lath material, for example, it may be joined before the sheet-like waterproofing material is layered on the lath material, or it may be joined after the sheet-like waterproofing material is layered on the lath material. In either case, the surface bone may be joined only to the front side of the linear material constituting the lath material at the position of the connection holes in the sheet-like waterproofing material or at other positions.

In this way, the front and back bones and lath material are joined through the meshes of the lath material at the positions where the front and back bones intersect, or the front or back bones are joined to the linear material that forms the meshes of the lath material, so that the sheet-like waterproofing material is held between the lath material and the back bone, forming a lath complex.

The sheet-like waterproofing material and lath material or surface or backing ribs can also be joined at required locations by adhesive means such as hot melt adhesive or other means.

(4-2) In order to fix the front and back bones to the lath material and to increase the strength and rigidity of the front and back bones and the lath material as a whole, each front and back bone may be joined to the lath material or joined to a front or back bone joined to the lath material.

Preferably, at least all of the back bones and lath materials or all of the front bones and lath materials can be joined, for example, at intervals on each bone (preferably at equal intervals), or at each intersection with other bones, or at each intermediate position between adjacent intersections. Alternatively, all of the bones and lath materials can be joined, for example, at intervals on each bone (preferably at equal intervals), or at each intersection with other bones, or at each intermediate position between adjacent intersections.

(4-3) When the surface frame, lath material, and backing frame are made of metal, the joining of the surface frame to the lath material, the joining of the backing frame to the lath material, and the joining of the surface frame to the backing frame can all be done by welding (e.g., spot welding). When joining by welding when the sheet-like waterproofing material is layered, the joining can be done at the position of the joining holes.

The joining of the front ribs, lath material and back ribs can also be done by means other than welding.

(5) Examples of methods for manufacturing a lath composite in which multiple surface reinforcement ribs, lath material, sheet-like waterproofing material, and multiple back reinforcement ribs are stacked in this order from front to back, with the surface reinforcement ribs and back reinforcement ribs sandwiched between the lath material and sheet-like waterproofing material and attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, include, but are not limited to, the following methods:

(5-1) A sheet-like waterproofing material having connection holes at predetermined locations corresponding to all or part of the multiple locations where at least the surface ribs and the surface ribs intersect is laid on a plurality of back ribs so that each back rib is positioned at the predetermined locations, a lath material is laid on the sheet-like waterproofing material, and each surface rib is laid on the lath material so that it is positioned at the predetermined location on the sheet-like waterproofing material, or
Or,
A lath material is laid on the plurality of surface ribs, and a sheet-like waterproofing material having connection holes at predetermined locations corresponding to at least all or part of the plurality of locations where the surface ribs and the back ribs intersect is laid on the back side of the lath material so that each surface rib is positioned at the predetermined location, and each back rib is laid so as to be positioned at a predetermined location on the sheet-like waterproofing material;
Moreover,
Each back force rib is joined to either or both of the back side of the lath material and the front force rib through the joining hole portion in the sheet-like waterproofing material, and each front force rib is joined to either or both of the front side of the lath material and the back force rib at the position of the joining hole portion, thereby holding the sheet-like waterproofing material between the lath material and the back force rib.

(5-2) Lath material is stacked on multiple surface reinforcement bones, and the surface reinforcement bones are joined to the surface of the lath material.
A sheet-like waterproofing material having one or more connection holes at least at each predetermined position where the backing ribs are to be positioned is laid on the back side of the lath material to which the front ribs are joined, and the backing ribs are laid on the predetermined positions of the sheet-like waterproofing material;
The back ribs are joined to one or both of the back side of the lath material and the front ribs through joining holes in the sheet-like waterproofing material superimposed on the back side of the lath material, thereby holding the sheet-like waterproofing material between the lath material and the back ribs.

A Lath composite B Back strength frame F Surface strength frame L Lath material W Sheet-type waterproof material WH Joint hole

Claims (10)

A lath composite body in which a plurality of surface reinforcement ribs, a lath material, a sheet-like waterproofing material, and a plurality of back reinforcement ribs are stacked in this order from the front side to the back side,
The front and back reinforcement ribs sandwich the lath material and the sheet-like waterproofing material, and cross each other while being attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively;
The sheet-like waterproofing material has one or more connection holes at each of the predetermined positions where the plurality of backing ribs are located,
Each of the back ribs is parallel to the surface of the lath material at the position of the connection hole along the lath material, and is connected to one or both of the back side of the lath material and the front ribs through the connection hole in the sheet-like waterproofing material;
Each of the front bones is joined to one or both of the front side of the lath material and the back bone in a state parallel to the surface formed by the lath material and along the lath material ,
A lath complex, characterized in that the sheet-like waterproofing material is held between the lath material and the backing ribs. The lath composite of claim 1, wherein the surface ribs are joined to one or both of the surface side of the lath material and the back ribs at the positions of the joining holes in the sheet-like waterproofing material. The lath composite according to claim 1 or 2, wherein the sheet-like waterproofing material has connection holes at predetermined locations corresponding to all or part of the multiple locations where the front and back reinforcement ribs intersect. The lath complex according to any one of claims 1 to 3, wherein each of the front and back bones is joined to the lath material or joined to a front or back bone that is joined to the lath material. The lath complex according to any one of claims 1 to 4, wherein the surface bone, lath material, and back bone are made of metal, and the surface bone and lath material are joined, the back bone and lath material are joined, and the surface bone and back bone are joined by welding. A method for producing a lath composite body in which a plurality of surface reinforcement ribs, lath material, a sheet-like waterproofing material, and a plurality of back reinforcement ribs are stacked in this order from the front side to the back side, and the surface reinforcement ribs and the back reinforcement ribs are attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, with the lath material and the sheet-like waterproofing material sandwiched therebetween,
A sheet-like waterproofing material having a connection hole portion at each of predetermined locations corresponding to all or a portion of the multiple locations where at least the front force bone and the back force bone intersect is laid on the multiple back force bones so that each of the back force bones is positioned at the predetermined location.
The lath material is placed on the sheet-like waterproofing material,
The surface reinforcement ribs are placed on the lath material so as to be positioned at the predetermined positions of the sheet-like waterproofing material,
A method for manufacturing a lath complex, characterized in that each of the back force bones is joined to one or both of the back side of the lath material and the front force bone through the joining hole in the sheet-like waterproofing material so that it is parallel to the surface formed by the lath material at the position of the joining hole, while each of the front force bones is joined to one or both of the front side of the lath material and the back force bone at the position of the joining hole, while it is parallel to the surface formed by the lath material, thereby holding the sheet-like waterproofing material between the lath material and the back force bone. A method for producing a lath composite body in which a plurality of surface reinforcement ribs, lath material, a sheet-like waterproofing material, and a plurality of back reinforcement ribs are stacked in this order from the front side to the back side, and the surface reinforcement ribs and the back reinforcement ribs are attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, with the lath material and the sheet-like waterproofing material sandwiched therebetween,
The lath material is placed on the plurality of surface bones,
A sheet-like waterproofing material having a hole for connection at each of predetermined locations corresponding to all or a part of the plurality of locations where at least the surface ribs and the back ribs intersect is laid on the back side of the lath material so that each of the surface ribs is positioned at the predetermined location.
Stack the backing bones so that they are positioned at the predetermined locations on the sheet-like waterproofing material,
A method for manufacturing a lath complex, characterized in that each of the back force bones is joined to one or both of the back side of the lath material and the front force bone through the joining hole in the sheet-like waterproofing material so that it is parallel to the surface formed by the lath material at the position of the joining hole, while each of the front force bones is joined to one or both of the front side of the lath material and the back force bone at the position of the joining hole, while it is parallel to the surface formed by the lath material, thereby holding the sheet-like waterproofing material between the lath material and the back force bone. A method for producing a lath composite body in which a plurality of surface reinforcement ribs, lath material, a sheet-like waterproofing material, and a plurality of back reinforcement ribs are stacked in this order from the front side to the back side, and the surface reinforcement ribs and the back reinforcement ribs are attached to the front side of the lath material and the back side of the sheet-like waterproofing material, respectively, with the lath material and the sheet-like waterproofing material sandwiched therebetween,
With the lath material overlapped on the plurality of surface bones, the surface bone is joined to the surface of the lath material in a state parallel to the surface constituted by the lath material and along the lath material;
A sheet-like waterproofing material having one or more connection holes at least at each predetermined position where the backing ribs are to be positioned is laid on the back side of the lath material to which the front ribs are joined, and the backing ribs are laid on the predetermined positions of the sheet-like waterproofing material;
A method for manufacturing a lath complex, characterized in that the sheet-like waterproofing material is held between the lath material and the backing ribs by joining the backing ribs to one or both of the back side of the lath material and the front ribs through the joining holes in a sheet-like waterproofing material superimposed on the back side of the lath material, so that the backing ribs are aligned with the lath material and parallel to the surface formed by the lath material at the position of the joining holes. A method for manufacturing a lath complex as described in any one of claims 6 to 8, wherein the surface force bone, lath material and back force bone are made of metal, and the joining of the surface force bone and the lath material, the joining of the back force bone and the lath material, and the joining of the surface force bone and the back force bone are all by welding . A lath complex as described in any one of claims 1 to 5, wherein the shape of the front and back strength bones is straight or has a protrusion that protrudes on the side opposite the lath material at a location other than the connection hole .

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