BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a throating that is fitted to a building and that drains, in a frontward direction, rainwater flowing down the surface of a siding member.
2. Description of the Related Art
Conventional throatings, which are manufactured through cutting and folding of a metal sheet, have an elongate shape in the horizontal direction, and are disposed, for instance, on foundation sills of buildings, or between siding boards that are disposed above and below, with a view to prevent rainwater, which flows down the outer wall of the building, from intruding into the building.
For instance, Japanese Utility Model Registration No. 3031123 discloses a throating that comprises amount wall part fixed byway of nails or the like, an obliquely protruding wall part bent obliquely downward and frontward from the lower end of the mount wall part, and a protruding end wall part bent downward from the front end of the obliquely protruding wall part. Japanese Utility Model Registration No. 3031123 discloses also the feature of fixing the mount wall part to a foundation sill of the building, using nails, to fix thereby the throating to the foundation sill of the building. As a result, rainwater flowing down the outer face of the outer wall is led so as to drip outward.
Japanese Patent Application Publication No. 2003-96931 discloses a throating provided with a mounting part formed out of a thin plate-like PVC steel sheet bent to a Z cross-sectional shape, and a throating part formed at the lower end of the mounting part . The throating part comprises: an extension part which is disposed at the lower end of the mounting part downward toward the front face top end portion of an exterior material so as to slant from the rear face toward the front face of the exterior material, and which covers the top end face of the exterior material; another extension part which extends downward from the leading end of the aforementioned extension part, along the front face of the exterior material, and which covers the front face top end portion of the exterior material; and a protrusion that protrudes upward, from the leading end of the other extension part, toward the rear face of the exterior material. Japanese Patent Application Publication No. 2003-96931 discloses the features of inserting the mounting part between an upper exterior material and a lower exterior material and fixing the mounting part by driving a fastening member such as a screw thereinto, so that the throating prevents water such as rainwater from intruding into the rear faces of the upper exterior material and the lower exterior material.
Further, Japanese Patent Application Publication No. 2002-121871 discloses a throating that is constituted by a mounting part composed of one sheet of an elongate surface material, and mounted to an outer wall; an inclined face that is bent from the mounting part, and an exposed face that is further bent from the inclined face. The throating is disposed at a lean-to roof connecting section by way of which the outer wall and a lean-to roof are connected, so that the throating waterproofs thereby the lean-to roof connecting section.
Thus, the throating may be built on a foundation sill of a building, or between siding boards disposed above and below the throating, or at a lean-to roof connecting section by way of which an outer wall and a lean-to roof are connected. As a result, the throating drains, in a frontward direction, rainwater flowing down the surface of a siding member.
In all such construction structures, the throating is fixed to a building frame. Also, a moisture-permeable waterproof sheet is disposed between the siding boards and the building frame. The building frame is rendered waterproof as a result. The moisture-permeable waterproof sheet is disposed so as cover part of the surface of the throating that is fixed to the building frame. Ordinarily, the lower end of the moisture-permeable waterproof sheet is affixed to the throating using adhesive tape. In order to prevent flapping of the moisture-permeable waterproof sheet on account of wind, and to prevent intrusion of rainwater from below due to blow-back or the like, the adhesive tape is affixed spanning the entire longitudinal direction of the throating, so as to close the lower end of the moisture-permeable waterproof sheet.
Affixing of the adhesive tape to the throating is therefore a cumbersome operation.
Such being the case, Japanese Patent Application Publication No. 2004-300873 discloses a throating to which an adhesive tape, such as a two-sided adhesive tape, is affixed beforehand, at a front face of a mounting part that constitutes a fixing base of the throating.
The throating of Japanese Patent Application Publication No. 2004-300873 facilitates work since the adhesive tape is affixed beforehand to the front face of the mounting part.
However, as described above, throatings are elongate in the horizontal direction, being ordinarily about 3 m long. The throating is normally fixed to the building frame using nails. It is thus difficult and cumbersome, for a single operator alone, to accomplish the necessary nail driving while keeping the throating level horizontally level. In a case where, after fixing, the fixing position of the throating is to be corrected upon noticing that the throating slants slightly, it becomes necessary to pull the nails out, correct the position of throating, and drive the nails again, all of which is cumbersome.
Moreover, throatings are manufactured through cutting and bending of a metal sheet, and hence may injure personnel or damage other materials with the cut metal sheet during transport and construction.
SUMMARY OF THE INVENTION
The present invention provides a throating that enables temporary affixing and facilitates construction work.
The present invention provides a throating having a rear plate part that is fixed to a building frame, a throating plate part bent obliquely downward and frontward at a lower end of the rear plate part, and a front plate part bent downward from a front end of the throating plate part, wherein the throating has an adhesive layer on each of a front face and a rear face of the rear plate part, and has a release paper on the surface of the adhesive layers. The adhesive layers have the release paper on the surface thereof. Hence, bonding between throatings can be prevented, while preserving the adhesive performance of the adhesive layer during storage and transport. Moreover, since an adhesive layer is provided on the rear face of the rear plate part, the throating can be temporarily of to a building frame by peeling off the release paper. Further, an adhesive layer is provided also on the front face of the rear plate part, and hence a moisture-permeable waterproof sheet can be fixed to the throating by peeling the release paper during the construction work. There are two different configurations in which an adhesive layer is formed also on the top end portion of the rear plate part, and in which an adhesive layer is formed only on the front face and the rear face of the rear plate part. Configurations in which an adhesive layer is also formed on the top end portion of the rear plate part include a configuration in which the adhesive layers on the front face, the rear face and the top end portion of the rear plate part are connected to each other, a configuration in which adhesive layers are provided on the front face and the rear face of the rear plate part, such that the adhesive layers are not connected to an adhesive layer on the top end portion, and a configuration in which an adhesive layer is provided on the front face or the rear face of the rear plate part, such that the adhesive layer is not connected to an adhesive layer on the top end portion. In a case where an adhesive layer is provided only on the front face and the rear face of the rear plate part, the release papers on the front face and the rear face are connected, and cover the top end portion of the rear plate part. As a result, the top end portion of the rear plate part is constantly covered by release paper. This allows preventing the top end portion from damaging other materials, or from injuring personnel, during transport and construction.
Preferably, the release paper has a cutting line extending in the lengthwise direction of the rear plate part.
More preferably, the cutting line is provided at a portion covering the top end portion of the rear plate part, or at a portion where the release paper covers the front face of the rear plate part, or at a portion where the release paper covers the rear face of the rear plate part. As a result, this allows peeling just the release paper that covers the adhesive layer on the rear face of the rear plate part, and hence the throating can be temporarily affixed while the adhesive layer on the front face of the rear plate part remains covered by release paper, resulting in facilitating construction work.
The throating is manufactured through bending, or extrusion, of a metal sheet such as Galvalume steel sheet, Galtite steel sheet, aluminum steel sheet, stainless steel sheet, alloy-plated steel sheet, galvanized sheet, copper sheet, or a resin plate of, for instance, a phenolic resin, an acrylic resin, an epoxy resin or the like. The adhesive layer is formed out of, for instance, an acrylic adhesive agent comprising an acrylate copolymer, an elastomeric adhesive agent comprising natural rubber, or an urethane adhesive agent comprising an urethane resin, but may be formed using ordinary adhesive agents. The adhesive layer may be formed as a two-side adhesive tape having the aforementioned adhesive layers. The release paper is composed of, for instance, half-bleached, high-quality or glassine paper that has formed thereon, on the side of release with an adhesive layer, a filling layer of polyethylene, polyvinyl alcohol or a clay coated material, and further has a release layer made of a silicone resin on the filling layer.
According to the present invention, a throating that enables temporary affixing and facilitates construction work can be provided.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a right side-view diagram of an embodiment of a throating according to the present invention;
FIG. 2 is a cross-sectional diagram illustrating a construction state at a foundation sill of a building formed using the throating illustrated in FIG. 1;
FIG. 3 is a right side-view diagram of another embodiment of a throating according to the present invention;
FIG. 4 is a right side-view diagram of yet another embodiment of a throating according to the present invention;
FIG. 5 is a right side-view diagram of yet another embodiment of a throating according to the present invention;
FIG. 6 is a right side-view diagram of yet another embodiment of a throating according to the present invention;
FIG. 7 is a right side-view diagram of yet another embodiment of a throating according to the present invention;
FIG. 8 is a right side-view diagram of yet another embodiment of a throating according to the present invention;
FIG. 9 is a right side-view diagram of yet another embodiment of a throating according to the present invention;
FIG. 10 is a right side-view diagram of yet another embodiment of a throating according to the present invention;
FIG. 11 is a right side-view diagram of yet another embodiment of a throating according to the present invention; and
FIG. 12 is a right side-view diagram of yet another embodiment of a throating according to the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
The present invention will be explained in detail below with reference to accompanying diagrams.
FIG. 1 is a right side-view diagram of an embodiment of a throating according to the present invention.
In a throating A1 illustrated in FIG. 1, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 1a fixed to a building frame, a throating plate part 1b bent obliquely downward and frontward at a lower end of the rear plate part 1a, and a front plate part 1c bent downward from the front end of the throating plate part 1b. More specifically, the rear plate part 1a is a flat plate part. The throating plate part 1b extends obliquely downward and frontward from the lower end of the rear plate part 1a. The front plate part 1c extends downward from the front end of the throating plate part 1b. On the front face, the top end portion and the rear face of the rear plate part 1a, an adhesive layer 1d, comprising an acrylic adhesive agent, is provided extending in the lengthwise direction, from the front face to the rear face of the rear plate part 1a, and the surface of the adhesive layer 1d is covered by one sheet of a release paper 1e. The release paper 1e has a release layer, comprising a silicone resin, at the contact surface with the adhesive layer 1d. The release paper 1e can thus be peeled off easily, and the adhesive layer 1d has adhesive performance once the release paper 1e has been peeled away. The release paper 1e extends, in the lengthwise direction, from the front face toward the rear face of the rear plate part 1a.
Therefore, the top end portion of the rear plate part 1a is covered by the adhesive layer 1d and the release paper 1e. This allows preventing the top end portion from damaging other materials, or from injuring personnel, during transport.
FIG. 2 is a cross-sectional diagram illustrating a construction state at a foundation sill of a building formed using the throating illustrated in FIG. 1.
In FIG. 2, the throating A1 illustrated in FIG. 1 is fixed, by way of a nail B, at a position such that the rear face of the rear plate part 1a abuts a building frame, the throating plate part 1b and the front plate part 1c stand below an siding board D, and the front plate part 1c stands frontward of the building frame of the building. In this construction structure, the throating A1 is fixed to the building frame of the building through driving of the nail B into the rear plate part 1a of the throating A1. However, thanks to the adhesive layer 1d that is provided on the rear face of the rear plate part 1a of the throating A1, the throating A1 can be temporarily affixed, even before driving of the nail B, by peeling the release paper 1e off and then causing the throating A1 to abut the building frame of the building. Accordingly, the throating boasts good workability, in that the affixing operation can be easily accomplished by a single operator. The nail B can be driven after checking of the fixing position upon temporary affixing.
In this construction structure, the throating A1 is fixed to the building frame of the building, and thereafter a moisture-permeable waterproof sheet C is fixed to the front face of the rear plate part 1a of the throating A1. The throating A1 has the adhesive layer 1d on the front face of the rear plate part 1a, and hence the moisture-permeable waterproof sheet C can be fixed reliably by way of the adhesive layer 1d.
Further, the top end portion of the rear plate part 1a is covered by the adhesive layer 1d, and hence the top end portion can be prevented thereby from injuring personnel during construction work.
Accordingly, the throating A1 illustrated in FIG. 1 has good workability in terms of enabling temporary affixing and facilitating construction work.
FIG. 3 is a right side-view diagram of another embodiment of a throating according to the present invention.
Similarly to the throating A1 illustrated in FIG. 1, in a throating A2 illustrated in FIG. 3, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 2a, a throating plate part 2b and a front plate part 2c. An adhesive layer 2d, comprising an acrylic adhesive agent, is provided from the front face toward the rear face of the rear plate part 2a, and the surface of the adhesive layer 2d is covered by one sheet of a release paper 2e. However, the throating A2 differs from the throating A1 in that the throating A2 has a cutting line in the release paper. In the throating A2 as well, the release paper 2e extends, in the lengthwise direction, from the front face toward the rear face of the rear plate part 2a, but herein a cutting line 2f extends, in the lengthwise direction of the rear plate part 2a, at the portion where the release paper 2e covers the top end portion of the rear plate part 2a. The release paper on the front face of the rear plate part 2a, and the release paper on the rear face of the rear plate part 2a can be peeled off independently, with the cutting line 2f as a boundary.
As a result, the throating A2 illustrated in FIG. 3 can be temporarily affixed, and then fixed to a building frame, while the adhesive layer 2d on the front face of the rear plate part 2a is still covered by the release paper 2e, by peeling off only the release paper 2e that covers the rear face of the rear plate part 2a. Consequently, there can be reliably prevented impairment of the adhesiveness of the adhesive layer 2d on the front face of the rear plate part 2a, due to contamination, during the operations of temporary affixing, and fixing, of the throating A2. Once the throating A2 has been fitted to the foundation sill of the building the release paper 2e on the front face of the rear plate part 2a is peeled off, and a moisture-permeable waterproof sheet is fixed to the adhesive layer 2d on the front face of the rear plate part 2a. As a result, the state of the throating A2 fitted to the foundation sill of the building, as in FIG. 2, is identical to that of the throating A1 illustrated in FIG. 1.
Accordingly, the throating A2 illustrated in FIG. 3 has good workability in terms of enabling temporary affixing and facilitating construction work.
FIG. 4 is a right side-view diagram of another embodiment of a throating according to the present invention.
Similarly to the throating A2 illustrated in FIG. 3, in a throating A3 illustrated in FIG. 4, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 3a, a throating plate part 3b and a front plate part 3c. An adhesive layer 3d, comprising an acrylic adhesive agent, is provided from the front face toward the rear face of the rear plate part 3a, and the surface of the adhesive layer 3d is covered by one sheet of a release paper 3e. However, the throating A3 differs from the throating A2 in the shape of the adhesive layer and in the position of the cutting line of the release paper. In the throating A3, the length of the adhesive layer on the front face of the rear plate part 3a is different from the length of the adhesive layer on the rear face of the rear plate part 3a. Also, the cutting line 3f of the release paper 3e extends, in the lengthwise direction of the rear plate part 3a, at a portion covering the front face of the rear plate part 3a.
However, the throating A3 illustrated in FIG. 4 can be fitted in the same way as the throating A2 illustrated in FIG. 3, and can elicit the same effects as the throating A2.
FIG. 5 is a right side-view diagram of yet another embodiment of a throating according to the present invention.
Similarly to the throating A2 illustrated in FIG. 3, in a throating A4 illustrated in FIG. 5, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 4a, a throating plate part 4b and a front plate part 4c. An adhesive layer 4d, comprising an acrylic adhesive agent, is provided from the front face toward the rear face of the rear plate part 4a, and the surface of the adhesive layer 4d is covered by one sheet of a release paper 4e. However, the throating A4 differs from the throating A2 in the position of a cutting line of the release paper. In the throating A4, a cutting line 4f of the release paper 4e extends, in the lengthwise direction of the rear plate part 4a, at a portion covering the rear face of the rear plate part 4a.
However, the throating A4 illustrated in FIG. 5 can be fitted in the same way as the throating A2 illustrated in FIG. 3, and can elicit the same effects as the throating A2.
FIG. 6 is a right side-view diagram of yet another embodiment of a throating according to the present invention.
Similarly to the throating A1 illustrated in FIG. 1, in a throating A5 illustrated in FIG. 6, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 5a, a throating plate part 5b and a front plate part 5c. An adhesive layer, comprising an acrylic adhesive agent, is provided on the rear face, the top end portion and the front face of the rear plate part 5a. The surface of the adhesive layer is covered by a release paper. In the throating A5, however, the shape of the release paper and the adhesive layer are different from those of the throating A1. In the throating A5, the adhesive layer comprises an adhesive layer 5d1 extending in the lengthwise direction of the rear plate part 5a, on the front face of the rear plate part 5a, and a adhesive layer 5d2 extending in the lengthwise direction of the rear plate part 5a, and provided from the front face toward the rear face of the rear plate part 5a. The adhesive layer 5d1 and the adhesive layer 5d2 are not connected to each other. Accordingly, the release paper as well comprises a release paper 5e1 that covers the surface of the adhesive layer 5d1 and a release paper 5e2 that covers the surface of the adhesive layer 5d2, such that the release paper 5e1 and the release paper 5e2 are not connected to each other. The release paper 5e1 and the release paper 5e2 can thus be peeled off individually.
Nevertheless, the throating A5 illustrated in FIG. 6 can be fitted in the same way as the throating Al illustrated in FIG. 1, and can elicit the same effects as the throating A1. Since the release paper 5e1 and the release paper 5e2 can be peeled off individually, there can be elicited an effect identical to that of the throating A2 illustrated in FIG. 3.
FIG. 7 is aright side-view diagram of yet another embodiment of a throating according to the present invention.
Similarly to the throating A5 illustrated in FIG. 6, in a throating A6 illustrated in FIG. 7, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 6a, a throating plate part 6b and a front plate part 6c. An adhesive layer 6d1, comprising an acrylic adhesive agent and extending in the lengthwise direction of the rear plate part 6a, is provided on the front face of the rear plate part 6a, an adhesive layer 6d2 comprising an acrylic adhesive agent and extending in the lengthwise direction of the rear plate part 6a is provided from the front face toward the rear face of the rear plate part 6a. The surfaces of the adhesive layer 6d1 and the adhesive layer 6d2 are covered by a release paper. The throating A6 differs from the throating A5 in the shape of the release paper and in having a cutting line in the release paper. In the throating A6, the adhesive layer 6d1 and the adhesive layer 6d2 are covered by one sheet of a release paper 6e, and a cutting line 6f extends, in the lengthwise direction of the rear plate part 6a, at a portion where the release paper 6e covers the front face of the rear plate part 6a.
Nevertheless, the throating A6 illustrated in FIG. 7 can be fitted in the same way as the throating A5 illustrated in FIG. 6, and can elicit the same effects as the throating A5.
FIG. 8 is a right side-view diagram of yet another embodiment of a throating according to the present invention.
Similarly to the throating A1 illustrated in FIG. 1, in a throating A7 illustrated in FIG. 8, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 7a, a throating plate part 7b and a front plate part 7c. An adhesive layer, comprising an acrylic adhesive agent, is provided on the rear face, the top end portion and the front face of the rear plate part 7a. The surface of the adhesive layer is covered by a release paper. In the throating A7, however, the shape of the release paper and the adhesive layer are different from those of the throating A1. In the throating A7, the adhesive layer comprises an adhesive layer 7d1 extending in the lengthwise direction of the rear plate part 7a, on the front face of the rear plate part 7a, an adhesive layer 7d2 extending in the lengthwise direction of the rear plate part 7a, and provided from the front face toward the rear face of the rear plate part 7a, and a adhesive layer 7d3 extending in the lengthwise direction of the rear plate part 7a, on the rear face of the rear plate part 7a. The adhesive layer 7d1, the adhesive layer 7d2 and the adhesive layer 7d3 are not connected to each other. Accordingly, a release paper as well comprises a release paper 7e1 that covers the surface of the adhesive layer 7d1, a release paper 7e2 that covers the surface of the adhesive layer 7d2 and a release paper 7e3 that covers the surface of the adhesive layer 7d3. The release paper 7e1, the release paper 7e2 and the release paper 7e3 are not connected to each other. The release paper 7e1, the release paper 7e2 and the release paper 7e3 can thus be peeled off individually.
Nevertheless, the throating A7 illustrated in FIG. 8 can be fitted in the same way as the throating A1 illustrated in FIG. 1, and can elicit the same effects as the throating A1. Since the release papers can be peeled off individually, there can be elicited an effect identical to that of the throating A2 illustrated in FIG. 3.
FIG. 9 is a right side-view diagram of yet another embodiment of a throating according to the present invention.
Similarly to the throating A7 illustrated in FIG. 8, in a throating A8 illustrated in FIG. 9, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 8a, a throating plate part 8b and a front plate part 8c. An adhesive layer 8d1, comprising an acrylic adhesive agent and extending in the lengthwise direction of the rear plate part 8a, is provided on the front face of the rear plate part 8a, an adhesive layer 8d2 comprising an acrylic adhesive agent and extending in the lengthwise direction of the rear plate part 8a is provided from the front face toward the rear face of the rear plate part 8a, and an adhesive layer 8d3 comprising an acrylic adhesive agent and extending in the lengthwise direction of the rear plate part 8a is provided on the rear face of the rear plate part 8a, such that the adhesive layer 8d1, the adhesive layer 8d2 and the adhesive layer 8d3 are not connected to each other. The surfaces of the adhesive layer 8d1, the adhesive layer 8d2 and the adhesive layer 8d3 are covered by a release paper. The throating A8, however, differs from the throating A7 in the form of the release paper and in having a cutting line in the release paper. In the throating A8, the adhesive layer 8d1, the adhesive layer 8d2 and the adhesive layer 8d3 are covered by one sheet of a release paper 8e, and a cutting line 8f extends, in the lengthwise direction of the rear plate part 8a, at a portion where the release paper 8e covers the top end portion of the rear plate part 8a.
Nevertheless, the throating A8 illustrated in FIG. 9 can be fitted in the same way as the throating A7 illustrated in FIG. 8, and can elicit the same effects as the throating A7.
FIG. 10 is aright side-view diagram of yet another embodiment of a throating according to the present invention.
Similarly to the throating A2 illustrated in FIG. 3, in a throating A9 illustrated in FIG. 10, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 9a, a throating plate part 9b and a front plate part 9c. An adhesive layer, comprising an acrylic adhesive agent, is provided on the rear face, the top end portion and the front face of the rear plate part 9a. The surface of the adhesive layer is covered by a release paper. However, the adhesive layer and the position of the cutting line of the release paper in the throating A9 are different from those of the throating A2. In the throating A9, an adhesive layer 9d extending in the lengthwise direction of the rear plate part 9a is provided in the form of a plurality of layers from the front face toward the rear face of the rear plate part 9a, such that the adhesive layers are not connected to each other. However, the entire surface of the adhesive layer 9d is covered by one sheet of a release paper 9e. A cutting line 9f extends, in the lengthwise direction of the rear plate part 9a, at a portion where the release paper 9e covers the front face of the rear plate part 9a.
Nevertheless, the throating A9 illustrated in FIG. 10 can be fitted in the same way as the throating A2 illustrated in FIG. 3, and can elicit the same effects as the throating A2.
FIG. 11 is a right side-view diagram of yet another embodiment of a throating according to the present invention.
Similarly to the throating A2 illustrated in FIG. 3, in a throating A10 illustrated in FIG. 11, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 10a, a throating plate part 10b and a front plate part 10c. An adhesive layer, comprising an acrylic adhesive agent, is provided on the front face and the rear face of the rear plate part 10a, and the surface of the adhesive layer is covered by a release paper. However, the adhesive layer and the position of the cutting line of the release paper in the throating A10 are different from those of the throating A2. In the throating A10, an adhesive layer 10d1, extending in the lengthwise direction of the rear plate part 10a, is provided on the front face of the rear plate part 10a, and an adhesive layer 10d2, extending in the lengthwise direction of the rear plate part 10a, is provided on the rear face of the rear plate part 10a, such that the adhesive layer 10d1 and the adhesive layer 10d2 are not connected to each other. However, the surfaces of the adhesive layer 10d1 and the adhesive layer 10d2 are covered by one sheet of a release paper 10e. A cutting line 10f extends, in the lengthwise direction of the rear plate part 10a, at a portion where the release paper 10e covers the front face of the rear plate part 10a.
Nevertheless, the throating A10 illustrated in FIG. 11 can be fitted in the same way as the throating A2 illustrated in FIG. 3, and can elicit the same effects as the throating A2.
FIG. 12 is a right side-view diagram of yet another embodiment of a throating according to the present invention.
Similarly to the throating A1 illustrated in FIG. 1, in a throating All illustrated in FIG. 12, which is manufactured by folding one Galvalume steel sheet, there are contiguously formed a rear plate part 11a, a throating plate part 11b and a front plate part 11c. An adhesive layer, comprising an acrylic adhesive agent, is provided on the front face and the rear face of the rear plate part 11a, and the surface of the adhesive layer is covered by a release paper. In the throating A11, however, the shape of the release paper and the adhesive layer are different from those of the throating A1. In the throating A11, an adhesive layer 11d1, extending in the lengthwise direction of the rear plate part 11a, is provided on the front face of the rear plate part 11a, and an adhesive layer 11d2, extending in the lengthwise direction of the rear plate part 11a, is provided on the rear face of the rear plate part 11a. The adhesive layer 11d1 and the adhesive layer 11d2 extend, in the width direction, further up than the top end of the rear plate part 11a, such that the rear faces of the adhesive layer 11d1 and of the adhesive layer 11d2 are bonded to each other further up than the top end of the rear plate part 11a. The surface of the adhesive layer 11d1 is covered by a release paper 11e1, and the surface of the adhesive layer 11d2 is covered by a release paper 11e2. The release paper 11e1 and the release paper 11e2 are not connected to each other.
Nevertheless, the throating A11 illustrated in FIG. 12 can be fitted in the same way as the throating A1 illustrated in FIG. 1, and can elicit the same effects as the throating A1. Since the release paper 11e1 and the release paper 11e2 can be peeled off individually, there can be elicited an effect identical to that of the throating A2 illustrated in FIG. 3.
Embodiments of the present invention have been explained above, but the present invention is not limited thereto, and can accommodate various modifications without departing from the scope of the invention as set forth in the appended claims. For instance, the adhesive layer may be an elastomeric adhesive agent, the surface of the adhesive layer may have protrusions, or the adhesive layer may be arrayed in the form of protrusions. Also, the adhesive layer on the front face of the rear plate part may be provided above or below the center of the rear plate part, and nails be driven through the center of the rear plate part.
As explained above, the present invention provides a throating that enables temporary affixing and facilitates construction work.