The present invention relates to a wall-material mounting member and a wall structure.
As mounting members for mounting a wall material to a structural body, those disclosed in Patent Documents 1 to 3 have been conventionally available.
The mounting member disclosed in Patent Document 1 includes a fixing fitting and an engaging fitting. The fixing fitting is disposed below a window frame or the like, and is mounted in advance to a structural body by fixing its main body fixing portion to the structural body. The engaging fitting is mounted in advance to a wall material through engagement between the engagement portion with an end portion of the wall material. The mounting member is configured such that the engaging fitting is mounted, together with the wall material, to the fixing fitting on the structural body side as a result of the engaging fitting engaging with the fixing fitting.
The mounting member disclosed in Patent Document 2 includes a mounting fitting main body and a movable member. The movable member is capable of locking an end portion of a wall material by using its engagement portion. In addition, the movable member is capable of moving relative to the mounting fitting main body within a range in which a fixing male screw moves in an elongated hole of the mounting fitting main body. The mounting member is configured such that the mounting fitting main body and the movable member are mounted to the wall material by fastening the fixing male screw in a state where the end portion of the wall material is locked by the engagement portion of the movable member.
The mounting member disclosed in Patent Document 3 includes a fixation fitting and an engagement fitting. The fixation fitting is disposed below a window frame or the like, and is mounted in advance to a structural body by fixing a fixation portion to the structural body. The engagement fitting is capable of locking an end portion of the wall material. In addition, the engagement fitting is held so as to be able to move relative to the fixation fitting while being shallowly inserted into the fixation fitting. Then, pressing down on the engagement fitting causes the engagement fitting to be deeply inserted into the fixation fitting, thus locking the end portion of the wall material, and causing the engagement fitting to be fixed to the fixation fitting.
Patent Document 1: JP 2007-217972A
Patent Document 2: JP 2010-121387A
Patent Document 3: JP 2010-7446A
In the case of the mounting member disclosed in Patent Document 1, it is difficult to engage the engaging fitting located on the back surface side of the wall material with the fixing fitting on the structural body side when mounting the engaging fitting to the fixing fitting together with the wall material. Consequently, it is likely that it is difficult to reduce the gap between the lower end of a window frame or the like and an end portion of the wall material, resulting in the possibility that the appearance of an installed wall may be impaired.
In the case of the mounting member disclosed in Patent Document 2, the movable member needs to be fixed using a fixing male screw, and installation is likely to be troublesome.
In the case of the mounting member disclosed in Patent Document 3, a gap for pressing down the engagement fitting needs to be secured between the lower end of a window frame or the like and the engagement fitting. Accordingly, reducing this gap makes it difficult to perform an operation, and installation is likely to be troublesome.
That is, with the above-described conventional mounting members, it is difficult to reduce the gap between the lower end of a window frame or the like and an end portion of the wall material, while also facilitating the mounting operation.
The present invention has been made in view of the above-described conventional circumstances, and it is an object of the invention to provide a wall-material mounting member and a wall structure that make it possible to reduce the gap between the lower end of a window frame or the like and an end portion of a wall material, while also facilitating the mounting operation, thus enhancing the appearance quality of an installed wall.
A wall-material mounting member according to a first aspect of the present invention is a wall-material mounting member for mounting a wall material to a structural body, and is characterized by including:
a fixed member including a base portion that can be fixed to the structural body; and
a movable member including a movable main body that is movably supported by the fixed member,
wherein the fixed member includes a guiding portion that movably guides the movable main body in a first direction, and
a pressing portion that presses the movable main body toward the guiding portion,
the movable member includes a protruding piece protruding from the movable main body in a second direction that intersects the first direction, and
a locking piece protruding from the protruding piece in the first direction,
the protruding piece is provided with a first tool engagement portion capable of taking on a force in the first direction, and
the locking piece is provided with a second tool engagement portion capable of taking on a force in the first direction at a position that is displaced relative to the first tool engagement portion in the first direction.
With the wall-material mounting member according to the first aspect, in a state in which the locking piece is yet to lock an end portion of the wall material, the protruding piece of the movable member can be disposed sufficiently close to the lower end of a window frame or the like to such a degree that the protruding piece is substantially in contact with the lower end of the window frame or the like. That is, the mounting member can be disposed in a state in which the gap between the lower end of a window frame or the like and the end portion of the wall material is reduced to be about the length of the locking piece in the first direction.
Then, a tool such as a flathead screwdriver is engaged with the second tool engagement portion, and a force in the first direction is exerted so as to move the movable member in the first direction. As a result, the locking piece starts locking the end portion of the wall material, and a gap is secured between the lower end of the window frame or the like and the protruding piece of the movable member. Through this gap, a tool such as a flathead screwdriver is engaged with the first tool engagement portion, and a force in the first direction is exerted so as to further move the movable member in the first direction. As a result, the locking piece completely locks the end portion of the wall material.
That is, with this mounting member, the locking piece is moved in a plurality of steps. Accordingly, there is no need to secure a gap for inserting a tool or the like between the lower end of the window frame or the like and the protruding piece of the movable member in a state in which the movable member is at its position where the locking piece is yet to lock the end portion of the wall material.
Therefore, with the wall-material mounting member according to the first aspect of the present invention, it is possible to reduce the gap between the lower end of a window frame or the like and an end portion of the wall material, while also facilitating the mounting operation, thus making it possible to enhance the appearance quality of an installed wall.
As a second aspect of the present invention, it is preferable that the first tool engagement portion is formed by a surface of the protruding piece that faces in a direction opposite to the first direction.
In this case, it is easy to provide the protruding piece with the first tool engagement portion.
As a third aspect of the present invention, it is preferable that the second tool engagement portion is a hole extending through the locking piece in the second direction.
In this case, it is easy to provide the locking piece with the second tool engagement portion without it being bulky. In addition, a tool such as a flathead screwdriver can be reliably engaged with the second tool engagement portion. As a result, it is possible to make the mounting member more compact, and further facilitate the mounting operation.
As a fourth aspect of the present invention, it is preferable that the fixed member includes a restricting portion. Preferably, the movable member includes a restricted portion. Also, it is preferable that the restricting portion is configured to abut against the restricted portion of the movable member moving in a direction opposite to the first direction so as to restrict a moving range of the movable member.
In this case, the moving range of the movable member relative to the fixed member can be kept constant by the restricting portion and the restricted portion in a state in which the movable member is at its position where the locking piece is yet to lock the end portion of the wall material. As a result, it is possible to further facilitate the mounting operation, and enhance the appearance quality of a mounted wall.
As a fifth aspect of the present invention, it is preferable that the restricting portion is a recess that is provided in the guiding portion or the pressing portion, and that extends in the first direction. Also, it is preferable that the restricted portion is a protrusion that is provided protruding from the movable main body, and that is located inside the recess.
In this case, it is easy to form the restricting portion and the restricted portion.
As a sixth aspect of the present invention, it is preferable that the guiding portion or the pressing portion includes a linear projection portion extending in the first direction. Preferably, the recess is formed by a groove portion formed along a back surface of the linear projection portion that opposes the movable main body. Also, it is preferable that the protrusion is located inside the groove portion.
In this case, the groove portion on the back surface of the linear projection portion is used as the recess, and, thus, the fixed member can be made more compact. Since the linear projection portion also functions as a rib for reinforcing the guiding portion or the pressing portion, the guiding portion and the pressing portion can suitably guide the movable member. The linear projection portion is used as the support surface, and the wall material can be supported by the support surface abutting against the back surface of the wall material. In this case, when mounting the wall material, the wall material can be guided using the support surface such that the end portion of the wall material approaches the locking piece.
As a seventh aspect of the present invention, it is preferable that the movable main body includes a marker portion that is covered by the fixed member in a state in which the locking piece is at one of a close position at which the locking piece is closest to the fixed member and a spaced position at which the locking piece is spaced farthest apart from the fixed member, and that is exposed from the fixed member in a state in which the locking piece is at the other of the close position and the spaced position.
In this case, the marker portion enables easy visual confirmation of the position of the locking piece. As a result, it is possible to further facilitate the mounting operation.
As an eighth aspect of the present invention, it is preferable that the movable main body includes a first surface facing in the second direction, and a second surface facing in a direction opposite to the second direction. Preferably, the guiding portion includes a guiding surface that comes into surface contact with one of the first surface and the second surface. Preferably, the pressing portion includes a pressing surface that comes into surface contact with the other of the first surface and the second surface. Also, it is preferable that the movable member is sandwiched by the guiding surface and the pressing surface.
In this case, with a configuration in which the movable main body is movably supported by the fixed member through frictional engagement due to surface contact, the mounting member can be simplified. Using frictional engagement, the movable main body can be easily moved by engaging a tool with the first tool engagement portion and the second tool engagement portion. As a result, it is possible to further facilitate the mounting operation.
As a ninth aspect of the present invention, it is preferable that the guiding surface is one surface of a plate-shaped piece extending from the base portion. Also, it is preferable that the pressing surface is one surface of a small piece extending from the base portion, and opposes the guiding portion.
In this case, by bending, or cutting and bending a plate material, the guiding surface and the pressing surface can be made into one piece, and the magnitude of the sliding resistance generated by frictional engagement can also be easily adjusted.
A tenth aspect of the present invention, it is preferable that a pair of the guiding portions are provided at positions sandwiching the base portion. Preferably, the movable main body includes a pair of leg portions respectively disposed in the pair of the guiding portions. Preferably, the protruding piece and the locking piece are provided spanning the pair of the leg portions. Also, it is preferable that, when the movable member is viewed in the second direction, the second tool engagement portion is provided in the locking piece between one of the leg portions and the other leg portion.
In this case, it is possible, with a simple configuration, to keep the movable member from being inclined relative to the guiding portion when moving the movable member, and prevent the movable member from catching on the guiding portion while moving. As a result, it is possible to further facilitate the mounting operation.
A wall structure according to an eleventh aspect of the present invention is a wall structure in which a wall material is mounted to a structural body of a building by using a mounting member, and is characterized in that
the mounting member includes:
a fixed member including a base portion that can be fixed to the structural body; and
a movable member including a movable main body that is movably supported by the fixed member,
the fixed member includes a guiding portion that movably guides the movable main body in a first direction, and
a pressing portion that presses the movable main body toward the guiding portion,
the movable member includes a protruding piece protruding from the movable main body in a second direction that intersects the first direction, and
a locking piece protruding from the protruding piece in the first direction, and capable of locking an end portion of the wall material,
the protruding piece is provided with a first tool engagement portion capable of taking on a force in the first direction, and
the locking piece is provided with a second tool engagement portion capable of taking on a force in the first direction at a position that is displaced relative to the first tool engagement portion in the first direction.
With the wall structure according to the eleventh aspect of the present invention, the operation and the effect achieved by the mounting member according to the first aspect make it possible to reduce the gap between the lower end of a window frame or the like and an end portion of the wall material, while also facilitating the mounting operation. Therefore, it is possible to provide a wall structure with high appearance quality.
With the wall-material mounting member and the wall structure according to the present invention, it is possible to reduce the gap between the lower end of a window frame or the like and an end portion of a wall material, while also facilitating the mounting operation. This makes it possible to enhance the appearance quality of an installed wall.
In the following, Embodiments 1 and 2 of the present invention will be described with reference to the drawings. Note that, in
As shown in
As shown in
As shown in
A front surface 2F of the exterior wall plate 2 is, for example, an exterior surface provided with a design such as a brick pattern. A front horizontal joint portion 21 is formed at a left end portion of the exterior wall plate 2. A rear horizontal joint portion 22 is formed at a right end portion of the exterior wall plate 2. A front vertical joint portion 23 is formed at a lower end portion of the exterior wall plate 2. A rear vertical joint portion 24 is formed at an upper end portion of the exterior wall plate 2. Note that, in
As shown in
The rear horizontal joint portion 22 is formed in the shape of a step from the front surface 2F toward the back surface 2B of the exterior wall plate 2, and extends in the vertical direction, that is, along the right end portion of the exterior wall plate 2. A caulking material 22S is provided on a flat surface of the rear horizontal joint portion 22 that faces in the outdoor direction. The caulking material 22S is provided in a line along the rear horizontal joint portion 22. Note that a caulking material is not essential, and the caulking material 22S may be omitted.
The front vertical joint portion 23 is formed in the shape of a step from the back surface 2B toward the front surface 2F of the exterior wall plate 2, and extends in a horizontal direction, that is, along the lower end portion of the exterior wall plate 2. An engagement recess 23A that is recessed upward in a substantially tapered shape is formed in the front vertical joint portion 23.
The rear vertical joint portion 24 is formed in the shape of a step from the front surface 2F toward the back surface 2B of the exterior wall plate 2, and extends in the horizontal direction, that is, along the upper end portion of the exterior wall plate 2. A caulking material 24S is provided on a flat surface of the rear vertical joint portion 24 that faces in the outdoor direction. The caulking material 24S is provided in a line along the rear vertical joint portion 24. Note that the caulking material is not essential, and the caulking material 24S may be omitted. An engagement protrusion 24A that protrudes upward in a substantially tapered shape, on the upper side of the caulking material 24S, is formed on the rear vertical joint portion 24.
As shown in
Each of the exterior wall plates 2 having such a structure is mounted to the structural body 8 in the following manner, using a starting mounting member 60 shown in
As shown in
As shown in
An abutting portion 77 bulges in the outdoor direction so as to be spaced apart from the fixation portion 75. A supporting portion 71 protrudes in the outdoor direction from a substantially intermediate portion of the abutting portion 77 in the vertical direction, and also extends in the horizontal direction. An upper locking portion 73 protrudes upward from a distal end portion of the supporting portion 71. A lower locking portion 74 protrudes downward from the distal end portion of the supporting portion 71.
The lower locking portion 74 locks to the engagement protrusion 24A of the lower exterior wall plate. The upper locking portion 73 locks to the engagement recess 23A of the upper exterior wall plate. The supporting portion 71 supports a lower end portion of the upper exterior wall plate 2. The abutting portion 77 abuts against the back surfaces 2B of the upper and lower exterior wall plates 2, and secures a ventilation space between the structural body 8 and the back surfaces 2B of the exterior wall plates 2. Thus, the shiplap-portion mounting member 70 supports the vertical shiplap portion of vertically adjacent exterior wall plates 2.
By performing such an operation for the other exterior wall plates 2, the exterior wall plates 2 are supported by the structural body 8 so as to be adjacent to each other in the vertical direction and the horizontal direction, thus covering the outer surface of the structural body 8.
As shown in
Although not shown, in the case of mounting the exterior wall plate 2 in the vicinity of a balcony, eaves, or the like of the structural body 8, a portion of the exterior wall plate 2 that includes the rear vertical joint portion 24 is cut in order to avoid interference with the balcony or the like, and then the exterior wall plate 2 is mounted to the structural body 8. An end portion formed by cutting the exterior wall plate 2 is disposed adjacent to the balcony or the like from below.
Here, each of these end portions formed by cutting the exterior wall plate 2 is referred to as a specific end portion 2P. As will be described below, the mounting member 100 according to Embodiment 1 shown in
In the example shown in
The base member 150 is a shaped member elongated in the horizontal direction, and is used after having been appropriately cut to have a length corresponding to the installation location. The base member 150 includes a substrate portion 155, a support plate portion 154, a coupling portion 151, and a top surface portion 153.
The substrate portion 155 extends in a flat-plate shape. The substrate portion 155 is provided with a plurality of fixing holes 155H through which nails, screws, or the like serving as fastening members are inserted. The number and the interval of the fixing holes 155H can be set as appropriate according to the configuration or the like of the structural body 8.
Portions of the base member 150, excluding the substrate portion 155, namely, the coupling portion 151, the support plate portion 154, and the top surface portion 153 form a substantially cross-sectionally C-shaped portion. More specifically, the coupling portion 151 is connected to the upper edge of the substrate portion 155, extends so as to be bent in the outdoor direction and be spaced apart from the structural body 8, and also extends in the horizontal direction. The coupling portion 151 is provided with a plurality of through holes 151H extending therethrough in the vertical direction. The support plate portion 154 is connected, at its lower edge, to the distal edge of the coupling portion 151, and extends in a flat-plate shape, substantially parallel to the substrate portion 155. The top surface portion 153 is connected to the upper edge of the support plate portion 154, extends so as to approach the structural body 8, in the indoor direction, and also extends in the horizontal direction.
The base member 150 is fixed to the structural body 8 in the following manner. That is, the top surface portion 153 of the base member 150 is abutted against a bottom wall portion 81, which is the downward-facing surface of the sash 80, from below, or a slight gap is secured therebetween. Then, as shown in
In a state in which the substrate portion 155 is fixed to the structural body 8, the support plate portion 154 is spaced apart from the structural body 8 in the outdoor direction. Thus, the space surrounded by the coupling portion 151, the support plate portion 154, and the top surface portion 153 allows ventilation to the outside through the through holes 151H.
As shown in
The fixed member 110 includes a vertically elongated, substantially rectangular base portion 115. The surface of the base portion 115 that faces in the indoor direction is set as a reference surface 115S extending in the vertical direction and the horizontal direction. The base portion 115 is provided with a fixing hole 115H extending therethrough. The base portion 115 can be fixed to the structural body 8 by screwing a fastening member such as a screw 100B or inserting a nail into the support plate portion 154 of the base member 150 via the fixing hole 115H in a state in which the reference surface 115S is brought into contact with the support plate portion 154 of the base member 150. Note that the base portion 115 can also be directly fixed to a column member 9 or the like.
The fixed member 110 includes guiding portions 111L and 111R and pressing portions 113L and 113R.
The left guiding portion 111L is a substantially cross-sectionally C-shaped portion that is connected to the left edge of the base portion 115. The right guiding portion 111R is a substantially cross-sectionally C-shaped portion that is connected to the right edge of the base portion 115. That is, the guiding portions 111L and 111R are a pair of plate-shaped pieces that are provided at positions sandwiching the base portion 115 in the horizontal direction, and that extend from the base portion 115. A substantially rectangular cut-out portion 111C is formed in an area of each of the guiding portions 111L and 111R that is adjacent to the base portion 115.
The left pressing portion 113L is formed by cutting and bending a portion of the guiding portion 111L that corresponds to the cut-out portion 111C, and constitutes a substantially cross-sectionally L-shaped portion extending from the left edge of the base portion 115 so as to be located in the cut-out portion 111C of the left guiding portion 111L. The right pressing portion 113R is formed by cutting and bending the above-described portion of the guiding portion 111R in the same manner, and constitutes a substantially cross-sectionally L-shaped portion extending from the right edge of the base portion 115 so as to be located inside the cut-out portion 111C of the right guiding portion 111R. That is, the pressing portions 113L and 113R are a pair of small pieces that are provided at positions sandwiching the base portion 115 in the horizontal direction, and that extend from the base portion 115 while opposing the guiding portions 111L and 111R.
The surface of each of the guiding portions 111L and 111R that faces in the indoor direction is a guiding surface 111A. The guiding surfaces 111A extend parallel to the reference surface 115S at a position spaced apart from the reference surface 115S in the outdoor direction.
The surface of each of the pressing portions 113L and 113R that faces in the outdoor direction is a pressing surface 113A. The pressing surfaces 113A extend parallel to the reference surface 115S at a position that is spaced apart from the reference surface 115S in the outdoor direction, and that is spaced apart from the corresponding guiding surface 111A in the indoor direction.
Each of the guiding portions 111L and 111R includes a linear projection portion 116. The linear projection portions 116 bulge in the outdoor direction from a surface of the guiding portions 111L and 111R that face in the outdoor direction, and extend in the vertical direction. The lower end of the linear projection portion 116 reaches the upper end of the corresponding cut-out portion 111C. The upper end of the linear projection portion 116 is located below the upper end of the corresponding guiding surface 111A.
A top surface of the linear projection portion 116 that faces in the outdoor direction serves as a support surface 116A. The support surface 116A extends in the vertical direction, parallel to the reference surface 115S.
A recess that is a groove portion extending in the vertical direction and recessed in the outdoor direction is formed in the back surface of the linear projection portion 116 that faces the side opposing the support surface 116A, and the recess serves as a restricting portion 117. In addition to serving as the support surface 116A and the restricting portion 117 in this manner, the linear projection portions 116 also serve as a rib for reinforcing the guiding portion 111L and 111R.
Next, the movable member 120 will be described. The movable member 120 includes a pair of leg portions 125L and 125R. The leg portions 125L and 125R are examples of the movable main body. The leg portions 125L and 125R are each a vertically elongated, substantially rectangular plate-shaped piece, and are spaced apart from each other in the horizontal direction.
Each of the leg portions 125L and 125R includes a first surface 125F and a second surface 125B. The first surface 125F is a surface of the leg portions 125L and 125R that faces in the outdoor direction. The second surface 125B is a surface of the leg portions 125L and 125R that faces in the indoor direction. A restricted portion 127 is provided protruding from a substantially intermediate portion of each of the leg portions 125L and 125R. The restricted portion 127 is a semi-spherical protrusion that bulges from the first surface 125F in the outdoor direction.
The movable member 120 includes a protruding piece 121 and a locking piece 123. The protruding piece 121 and the locking piece 123 are provided spanning the left leg portion 125L and the right leg portion 125R.
More specifically, the protruding piece 121 is a substantially rectangular plate-shaped piece extending in the indoor-outdoor direction and the horizontal direction. A left portion of the rear edge of the protruding piece 121 is connected to the upper end of the left leg portion 125L. A right portion of the rear edge of the protruding piece 121 is connected to the upper end of the right leg portion 125R. That is, the protruding piece 121 protrudes from the upper ends of the pair of leg portions 125L and 125R, in the outdoor direction.
The locking piece 123 is bent and protrudes downward from the distal edge of the protruding piece 121, and extends in the horizontal direction. The locking portion 123 is formed in a downwardly tapered shape as a result of a lower left corner portion and a lower right corner portion thereof having been cut off. Note that the lower edge of the locking portion 123 can also be formed in a downwardly bulging arc shape.
The leg portions 125L and 125R of the movable member 120 are guided by the guiding portions 111L and 111R of the fixed member 110 so as to be able to move in the vertical direction, and are pressed by the pressing portions 113L and 113R of the fixed member 110 toward the guiding portions 111L and 111R.
More specifically, as shown in
As shown in
Thus, each of the pair of leg portions 125L and 125R of the movable member 120 is sandwiched by the corresponding guiding surface 111A and the corresponding pressing surface 113A of the fixed member 110, and, through frictional engagement due to surface contact between these surfaces, the pair of leg portions 125L and 125R are supported by the fixed member 110 so as to be able to move in the vertical direction.
When the leg portions 125L and 125R move in the vertical direction by being guided by the guiding portions 111L and 111R, the restricted portions 127 of the movable member 120 slide in the respective corresponding restricting portions 117 of the fixed member 110. This suppresses inclining and lateral displacement of the movable member 120 relative to the fixed member 110.
As the movable member 120 is indicated by solid lines in
On the other hand, as the movable member 120 is indicated by dashed double-dotted lines in
The locking piece 123 shown in
As the movable member 120 is indicated by solid lines in
As the movable member 120 is indicated by dashed double-dotted lines in
Note that when the locking piece 123 is located between the close position and the spaced position, the locking piece 123 is held at that position through frictional engagement due to surface contact between the guiding surface 111A and the first surface 125F, and surface contact between the pressing surface 113A and the second surface 125B.
As shown in
As shown in
A second tool engagement portion 123H is provided in an intermediate portion of the locking piece 123 in the vertical direction. The second tool engagement portion 123H is a horizontally elongated rectangular hole, and extends through the locking piece 123 in the indoor-outdoor direction. When the movable member 120 is viewed in the indoor-outdoor direction, i.e., viewed from the direction indicated by the arrow Z in
As shown in
As shown in
Operation and Effect
Next, an installation method for supporting a specific end portion 2P of the exterior wall plate 2 using a mounting member 100 having such a configuration will be described.
First, the exterior wall plate 2 is cut to have dimensions suited to the bottom wall portion 81 of the sash 80 described above. Consequently, a portion of the exterior wall plate 2 that includes the rear vertical joint portion 24 is cut off, and a specific end portion 2P is formed.
Then, as shown in
Next, as shown in
Next, once the front vertical joint portion 23 formed at the lower end portion of the exterior wall plate 2 is supported using the starting mounting member 60 shown in
In this state, the locking portion 123 of the movable member 120 is at a position that opposes the groove portion 2S of the specific end portion 2P from above. The lower end of the locking portion 123 is spaced upward from the specific end portion 2P by about 1 to 3 mm. The distance by which the lower end of the locking portion 123 is spaced apart from the specific end portion 2P is merely an example, and the value of the distance may be smaller than the aforementioned value, and may be close to substantially 0 mm, as long as the back surface 2B of the specific end portion 2P of the exterior wall plate 2 can be abutted against the support surface 116A.
Next, the tool T1 such as a flathead screwdriver is inserted into the second tool engagement portion 123H, which is a rectangular hole, so as to press the lower edge of the rectangular hole downward. Consequently, the second tool engagement portion 123H takes on the downward force F1, and thus the locking portion 123 of the movable member 120 is moved downward. The second tool engagement portion 123H is provided at the center of the locking piece 123, and the pair of leg portions 125L and 125R are disposed on opposite sides of the second tool engagement portion 123H. Accordingly, the downward force F1 is transmitted uniformly to the leg portions 125L and 125R, and thus the movable member 120 can be moved smoothly. As a result, the lower end side of the locking portion 123 enters the groove portion 2S of the specific end portion 2P of the exterior wall plate 2 within a range where the second tool engagement portion 123H is exposed from the specific end portion 2P of the exterior wall plate 2.
Next, as shown in
As shown in
Thus, the mounting member 100 can successfully support the specific end portion 2P of the exterior wall plate 2 in a state in which the specific end portion 2P is disposed adjacent to the window frame 8W from below.
Thereafter, a backup member 89 made of a foamed resin or the like is inserted into the gap between the bottom wall portion 81 of the sash 80 and the specific end portion 2P of the exterior wall plate 2, and the gap is further filled with a sealing material 88. As described above, by using the mounting member 100, it is possible to reduce the distance between the specific end portion 2P of the exterior wall plate 2 and the window frame 8W. This enhances the appearance quality of an installed wall. Note that a concealment portion 82 extending further downward than the bottom wall portion 81 is usually formed on the distal end side of the sash 80. When a length L82 from the bottom wall portion 81 to the lower end of the concealment portion 82 is set to be longer than a gap S1 between the bottom wall portion 81 of the sash 80 and the specific end portion 2P of the exterior wall plate 2, the sealing material 88 is concealed by the concealment portion 82, and thus the aesthetic appearance of the area surrounding the sash 80 and the specific end portion 2P of the exterior wall plate 2 is further enhanced.
As described above, the mounting member 100 includes the first tool engagement portion 121U and the second tool engagement portion 123H, and thus moves the locking piece 123 in a plurality of steps. Accordingly, as shown in
Therefore, with the mounting member 100 of the exterior wall plate 2 and the wall structure according to Embodiment 1, it is possible to reduce the gap S1 between the lower end of the window frame 8W or the like such as the bottom wall portion 81 of the sash 80, and the specific end portion 2P of the exterior wall plate 2, while also facilitating the mounting operation. Thus, it is possible to enhance the appearance quality of an installed wall.
As shown in
Furthermore, with the mounting member 100, the second tool engagement portion 123H is a hole extending through the locking piece 123 in the indoor-outdoor direction, as shown in
With the mounting member 100, as the movable member 120 is indicated by dashed double-dotted lines in
Furthermore, with the mounting member 100, as shown in
With the mounting member 100, as shown in
Furthermore, with the mounting member 100, as shown in
With the mounting member 100, each of the pair of leg portions 125L and 125R is sandwiched by the corresponding guiding surface 111A and the corresponding pressing surface 113A of the fixed member 110, and, through frictional engagement due to surface contact between these surfaces, the pair of leg portions 125L and 125R are supported by the fixed member 110 so as to be movable in the vertical direction. With this configuration, it is possible to simplify the mounting member 100. Through frictional engagement, it is possible to easily move the pair of leg portions 125L and 125R by engaging the tool T1 with the first tool engagement portion 121U and the second tool engagement portion 123H. As a result, it is possible to further facilitate the mounting operation.
Furthermore, with the mounting member 100, as shown in
With the mounting member 100, the pair of leg portions 125L and 125R serving as the movable main body are disposed on the pair of guiding portions 111L and 111R, respectively. Then, as shown in
As shown in
The restricting portions 217 are the lower ends of the guiding portions 111L and 111R. The restricted portions 227 are small pieces that are bent from the respective lower ends of the leg portions 125L and 125R, and that protrude with a short length in the outdoor direction. The distal end of each of the restricted portions 227 is at a position displaced relative to the support surface 116A in the indoor direction, and is configured to not come into contact with the back surface 2B of the exterior wall plate 2 that is to be supported.
In a state in which the locking piece 123 is at the close position, each restricting portion 217 and the corresponding restricted portion 227 are spaced farthest apart from each other. Although not shown, in a state in which the movable member 120 is at the spaced position at which the locking piece 123 is spaced farthest apart from the fixed member 110, each restricting portion 217 of the fixed member 110 abuts against the corresponding restricted portion 227 of the movable member 120.
Also with the mounting member 200 of Embodiment 2 having such a configuration, it is possible to reduce the gap S1 between the lower end of the window frame 8W or the like, specifically, the bottom wall portion 81 of the sash 80, and the specific end portion 2P of the exterior wall plate 2, while also facilitating the mounting operation, as in the case of the mounting member 100 of Embodiment 1.
With the mounting member 200, it is possible to insert the tool T1 into the lower second tool engagement portion 123H so as to move the locking piece 123 downward, then, insert the tool T1 into the upper second tool engagement portion 123H so as to move the locking piece 123 downward, and finally abut the tool T1 against the first tool engagement portion 121U so as to move the locking piece 123 downward. As a result, it is possible to further reduce the gap S1 between the lower end of the window frame 8W or the like, specifically, the bottom wall portion 81 of the sash 80, and the specific end portion 2P of the exterior wall plate 2.
Although the present invention has been described above by way of Embodiments 1 and 2, the present invention is by no means limited to Embodiments 1 and 2 described above. Needless to say, modifications may be made as appropriate without departing from the scope and spirit of the invention.
For example, the first tool engagement portion need not be the upper surface of the protruding piece 121, and it is also possible to separately provide a hole, a groove, a projection, or the like in the protruding piece. The second tool engagement portion need not be a hole, and may be a groove or a projection, for example. It is also possible to provide a plurality of first tool engagement portions and second tool engagement portions.
The guiding portion and the pressing portion are not limited to a configuration in which the movable member is held through frictional engagement. It is also possible to adopt a configuration in which a projection is provided on the movable member, a hole is formed at a predetermined position of the guiding portion, and the guiding portion and the pressing portion hold the movable member at a position at which the projection enters the hole.
The marker portion may be covered by the fixed member in a state in which the locking piece is at the close position, and may be exposed from the fixed member in a state in which the locking piece is at the spaced position.
In the above-described embodiments, the guiding portion and the pressing portion are formed of a single plate material, and are configured in one piece. However, the fixed member may be formed of two plate materials including a first plate material and a second plate material. That is, it is possible to adopt a configuration in which the first plate material forms the base portion and the guiding portion, the second plate material forms the pressing portion by being joined to the first plate material in a state in which it opposes the guiding portion, and the movable main body of the movable member is sandwiched by the guiding portion of the first plate material and the pressing portion of the second plate material.
In Embodiment 1, in addition to functioning as the restricting portion 117 and the support surface 116A, each linear projection portion 116 also functions as a rib for reinforcing the guiding portion 111L or 111R. However, these functions may be achieved using separate members. For example, ribs for reinforcing the guiding portions 111L and 111R may be provided separately. Alternatively, as in the case of Embodiment 2, the surfaces of the guiding portions 111L and 111R that face in the outdoor direction may be directly used as support surfaces that support the back surface 2B of the exterior wall plate 2, without forming the support surfaces 116A as the linear projection portions.
8 Structural body
2 Wall material (exterior wall plate)
100 Mounting member
115 Base portion
110 Fixed member
125L, 125R Movable main body (pair of leg portions)
120 Movable member
111L, 111R Guiding portion
113L, 113R Pressing portion
121 Protruding piece
123 Locking piece
F1 Force in first direction
121U First tool engagement portion
123H Second tool engagement portion
117, 217 Restricting portion
127, 227 Restricted portion
R1 Moving range of movable member
116 Linear projection portion
129 Marker portion
125F First surface of movable main body
125B Second surface of movable main body
111A Guiding surface
113A Pressing surface
2P End portion of wall material (specific end portion)
Number | Date | Country | Kind |
---|---|---|---|
2017-044666 | Mar 2017 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2018/008767 | 3/7/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2018/164183 | 9/13/2018 | WO | A |
Number | Name | Date | Kind |
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4899508 | Biebuyck | Feb 1990 | A |
5634305 | Erlanger | Jun 1997 | A |
7665253 | Thompson | Feb 2010 | B1 |
8973330 | Egri, II | Mar 2015 | B2 |
9416529 | Jeske | Aug 2016 | B1 |
20030188497 | Price | Oct 2003 | A1 |
20070261347 | Launs | Nov 2007 | A1 |
Number | Date | Country |
---|---|---|
0329060 | Aug 1989 | EP |
0659954 | Jun 1995 | EP |
2 352 255 | Jan 2001 | GB |
2384501 | Jul 2003 | GB |
64-14834 | Jan 1989 | JP |
2-115444 | Apr 1990 | JP |
4-92934 | Aug 1992 | JP |
4-49311 | Nov 1992 | JP |
5-10013 | Jan 1993 | JP |
6-27706 | Jul 1994 | JP |
2000-96804 | Apr 2000 | JP |
2000-336894 | Dec 2000 | JP |
2003-166325 | Jun 2003 | JP |
2003-239495 | Aug 2003 | JP |
2005-60954 | Mar 2005 | JP |
2005-336782 | Dec 2005 | JP |
2006-45900 | Feb 2006 | JP |
2007-217972 | Aug 2007 | JP |
2008-31717 | Feb 2008 | JP |
2008-163699 | Jul 2008 | JP |
2010-7446 | Jan 2010 | JP |
2010-121387 | Jun 2010 | JP |
2010-222791 | Oct 2010 | JP |
2012-62635 | Mar 2012 | JP |
2013-119720 | Jun 2013 | JP |
2015-108239 | Jun 2015 | JP |
2016-98615 | May 2016 | JP |
WO 2004046487 | Jun 2004 | WO |
Entry |
---|
International Search Report (PCT/ISA/210) issued in PCT/JP2018/008767, dated May 29, 2018. |
Extended European Search Report, dated Sep. 11. 2020, for European Application No. 18763554.5. |
Number | Date | Country | |
---|---|---|---|
20200018075 A1 | Jan 2020 | US |