JPH0623475B2 - Exterior wall structure of building - Google Patents

Description

Detailed Description of the Invention [Industrial applications]

The present invention relates to an outer wall structure of a building. However, in this specification, the outer wall is to be interpreted in a particularly broad sense,
It is used not only for the walls of buildings but also for the outdoors and floors.

2. Description of the Related Art A conventional building is waterproofed by a member stretched over its surface on the outdoor side. The outer surface of the wall is covered with gazebo or mortar, and the roof is covered with tiles for waterproofing. If the waterproofness of the look board etc. is lost, rainwater penetrates through the wall. The look board is directly exposed to rainwater and sun rays,
Be placed in harsh conditions. It is extremely difficult to make a look board placed under severe external conditions waterproof for a long period of time. In recent years, an outer wall material commonly referred to as “sizing” (registered trademark) in which a heat insulating material is sandwiched between double metal plates has been used in place of a wooden pallet board. Depending on the place of use, this outer wall material has better weather resistance than a wooden pallet.
However, when the metal plate is used in an environment where it is easily corroded, for example, in a place where salt wind blows, the metal plate corrodes in a very short period of time and loses waterproofness. In the conventional outer wall structure, the outer wall material stretched to the most outdoor side is waterproofed to prevent rainwater from entering, so if the outer wall material is deformed or corroded and loses waterproofness, the wall becomes waterproof. Lost and rainwater enters the room. Therefore, in order to maintain the waterproofness of the outer wall material, there is a drawback that maintenance is time-consuming and costly, such as re-covering or re-coating the surface paint at regular intervals. Further, the outer wall material stretched over the wall is to realize waterproofness and aesthetics, and is not a structural material having strength. Therefore, relatively thin ones are used. Further, as the outer wall material, a plate material having a relatively narrow width is used in order to make the appearance look beautiful. There is a drawback in that it takes time and effort to stretch a narrow and thin plate material without rainwater entering. In addition, the roof is covered with tiles and waterproofed. Rainwater does not penetrate into the room as long as the roof tiles can prevent rainwater from entering. However, since the roof tile is roofed with some gaps, it is extremely difficult to prevent the rainwater from being blown in when the wind is strong. Rainwater that is blown up upward with strong wind
Intrude into the back through the roof tile gap. Asphalt felt is stretched under the roof tiles to prevent rainwater from passing through the roof tiles. In this asphalt felt, the connecting portions are overlapped and nailed to the base plate, so there is a nail hole and it is not possible to make a completely waterproof structure. Further, asphalt felt is not permanent because it is exposed to the sun through the roof tiles and exposed to wind and rain, and it deteriorates and loses its waterproofness. For this reason, the conventional roof has a drawback of leaking rain if the roof tile is not waterproof. Also, roofed roof tiles cannot be left in place forever. The roof tiles have the drawback that they gradually shift their positions as the days go by. This is because the nails that fix the roof tiles corrode, and the red soil that holds the roof tiles is washed away. Furthermore, roof tiles have the drawback of cracking when a large local load is applied. Moreover, it may be blown away by a natural phenomenon such as a typhoon or a tornado. If the roof tile is cracked or thrown away, rainwater will enter the room. Therefore, it is necessary to maintain the roof tiles at regular intervals like the outer wall material. Further, if rainwater permeates through the roof tiles, it will cause rain leakage immediately. Therefore, in order to prevent rain leaks, it is necessary to constantly observe the condition of the roof tiles and repair them. By the way, when rainwater permeates through the roof wall, the rainwater has a serious adverse effect on the interior of the building. This is because the rainwater stains stain the interiors such as walls and ceilings. Therefore, once rainwater invades, repairing the interiors as well as repairing the walls and roof requires a great deal of expense.

[Object of the Invention]

The present invention was developed for the purpose of solving these drawbacks of the related art, and an important object of the present invention is to provide an outer wall structure of a building that can maintain excellent waterproofness for a long period of time. Is. Further, another important object of the present invention is that the outer wall material, roof tiles, etc. that can be installed outdoors are not necessarily required to be completely waterproof, and construction of these is simple and the maintenance of the outer wall of the building is simple. It is in providing structure. Furthermore, an important object of the present invention is to provide an outer wall structure of a building in which waterproofing of a board for realizing a waterproof structure can be easily and reliably performed.

[Means for solving conventional problems]

The outer wall structure of the building of the present invention which achieves the above object has the following constitution. (A) A rod-shaped base material 1 fixed to the body of the building at regular intervals, and a board 2 fixed to the outdoor side of the base material 1.
A surface plate 3 for covering the board 2 on the outdoor side, and a connecting plate 4 for positioning and connecting the board 2. (B) The board 2 is a plate material having water resistance and no water permeability so as to have a waterproof structure. (C) A plurality of boards 2 are adjacent to each other and stretched without a gap. (D) The board 2 is provided with a caulking groove 5 along an adjacent surface that is in contact with the adjacent boards 2 without a gap so that the adjacent boards 2 can be surely waterproofed. (E) The caulking groove 5 has a shape in which one of the surfaces of the board 2 is opened in a state where the adjacent surface of the board 2 is in contact with a plane orthogonal to the surface of the board 2. (F) A narrow slit 6 is provided along the caulking groove 5 on the adjacent surface of the board 2 so that the adjacent boards 2 can be connected to the same plane. (G) The connecting plate 4 is a hard plate material. (H) The connecting plate 4 is fitted in the slit 6. (I) The thickness of the connecting plate 4 is made almost equal to the width of the slit 6. (J) A caulking agent 7 is filled in the coking groove 5 of the board 2 stretched through the connecting plate 4 without any gap.

In the outer wall structure of the building of the present invention, the board 2 fixed to the base material 1 is shown in FIG. 1 showing a preferred embodiment thereof.
The surface plate 3 is stretched on the outdoor side. The board 2 is provided with a caulking groove 5 on the adjacent surface. Caulking groove 5
A slit 6 is provided along the line. This slit 6
The connecting plate 4 is fitted into the board 2 to connect the board 2. The outer wall structure of the building of this structure is waterproofed by the board 2 connected in a unique form instead of the conventional outer wall material. The board 2 is covered with a surface plate 3 and hidden inside the outer wall unlike the conventional outer wall material stretched outdoors. The board 2 stretched inside is not directly exposed to rainwater or sunlight, and can realize excellent waterproofness for a long period of time. The board 2 protected by the face plate 3 does not lose its excellent waterproofness for a long time inside the outer wall. Further, since the outer wall structure of the building of the present invention is waterproofed by the internal board, even if rainwater penetrates through the surface plate, rainwater does not permeate through the wall or roof. For this reason,
Outer wall materials, roof tiles, etc. are not always required to be completely waterproof,
There is a feature that these constructions can be remarkably simplified. Also,
Since the outer wall material and roof tile do not penetrate into the room even if rainwater permeates through them, maintenance of these can be significantly simplified. Furthermore, in addition to this, even if the surface plate causes rain leakage, rainwater does not stain the interior of the room,
It also realizes a feature that can significantly reduce the repair cost of the entire building. Furthermore, a remarkable feature of the present invention is that the clearance between the boards can be easily and easily waterproofed and reliably treated. This feature is realized by the unique shape of the adjacent surfaces of the board. That is, the board is provided with a slit along the adjacent surface, and the connecting plate is fitted into the slit to connect the adjacent boards. The connecting plate is a hard plate material, which can be fitted into the slit of the board to identify the fixing position of the board. Therefore, the adjacent boards can be fixed in the same plane easily and easily by neatly aligning them by fitting the connecting plates into the slits. Furthermore, the slit and the connecting plate fitted therein are
The penetration distance of rainwater can be extended to effectively prevent its intrusion. As shown by the arrow in FIG. 2, rainwater passes between the connecting plate 4 and the slit 6 and permeates into the room. The rainwater that travels along this path passes through a path that reciprocates through the portions that are spread to both sides by the slit 6 and permeates into the indoor side. In other words, the slit 6 into which the connecting plate 4 is fitted forms a long path through which rainwater reciprocates downward, and thus the rainwater permeation path can be lengthened. Further, if the slit 6 into which the connecting plate 4 is fitted is connected to the caulking groove 5, the caulking agent 7 filled in the caulking groove 5 also penetrates between the slit 6 and the connecting plate 4,
It has a feature that the slit 6 and the connecting plate 4 can be adhered to each other without a gap. The board 2 connected in this state very effectively blocks intrusion of rainwater.

[Preferred embodiment]

Embodiments of the present invention will be described below with reference to the drawings. However, the examples shown below are examples of the outer wall structure for embodying the technical idea of the present invention, and the outer wall structure of the present invention has the following materials, shapes, structures and arrangements of components. Not specific to structure. The outer wall structure of the present invention is
Various changes may be made within the scope of the claims. Further, in this specification, for easier understanding of the claims, the numbers corresponding to the members shown in the embodiments are added to the members shown in the claims. However, the members described in the claims are not limited to the members shown in the embodiments. The outer wall structure of the building of the present invention can be used as a wall structure and a roof structure. The outer wall structure of the building shown in FIG. 1 is a wall structure. The outer wall structure of this building has a rod-shaped base material 1 fixed to the body of the building at regular intervals, a board 2 fixed to the outdoor side of the base material 1, and an outdoor side of the board 2. And a surface plate 3. In the case of a wall structure, columns are used as the base material 1. FIG. 1 shows a wall of a building constructed by the two-by-four method. In this structure, as shown in FIG. 1, columns are used as the base material 1. The pillars are fixed to the body at intervals of, for example, about 900 mm or a half of them, which is 450 mm. The pillar that is the base material 1 is provided at the boundary of the board 2, that is, at the end of the board 2. The base material 1 is fixed to the body of the building. The board 2 is fixed to the base material 1. In the case of the two-by-four method,
The pillar that is the base material 1 is fixed to the board 2 before being fixed to the body. The pillar, which is the base material 1 to which the board 2 is fixed, is fixed to the frame of the building. Therefore, even if the base material 1 which is a pillar and the board 2 are fixed to the body in the same state, the order of fixing the pillar and the board 2 is different from the normal construction method.
In the normal construction method, after fixing the pillar to the frame, the board 2 is attached to the pillar.
To fix. The base material 1 is determined to have a thickness capable of fixing the board 2.
The base material 1 shown in FIG. 1 is, for example, 50 to 200 mm square, preferably 75 to 150 mm square. The present invention does not specify the wall base material 1 as a wooden column. As the base material 1, all rod-shaped materials that can fix the board 2 such as lightweight steel frame can be used. The board 2 can be made of any plate material that is water resistant and not water permeable. This plate material is plywood, or a product formed by closely bonding wood with a synthetic resin binder to form a plate shape, or an inorganic material bonded with a binder into a plate shape without a gap, and is currently commercially available. Alternatively, all plate materials that are commercially available from now on and have water resistance and no water permeability can be used. The board 2 has a thickness of 5 mm or more, preferably 7 to 3 so that the caulking groove 5 can be provided on the adjacent surface of the outer periphery.
Use 0mm board 2. The board 2 is usually about 90 cm x 18 so that it can be stretched efficiently on the base material 1.
The thing of 0-270 cm is used. The board 2 is fixed to the base material 1 in a state where no gap is formed between the board 2 and the adjacent board 2. The board 2 is waterproofed between the board 2 and the adjacent board 2 with the board 2 fixed to the base material 1. Therefore, the caulking groove 5 is provided on the adjacent surface of the board 2. The caulking groove 5 can be filled with a caulking agent 7 here,
Further, the caulking agent 7 thus filled is formed so as to be able to adhere to the caulking groove 5. That is, in order to fill the caulking agent 7 here, the caulking groove 5 is opened in either one of the surfaces of the board 2 in a state where the adjacent surface of the board 2 is in contact with the plane orthogonal to the surface of the board 2. Have a shape. Preferably, the caulking groove 5 is in a state in which the caulking groove 5 is in contact with a plane orthogonal to the surface of the board 2 so that the filled caulking agent 7 is in close contact, and the mouth portion to be opened is narrowed and the depth is widened. Made in. A slit 6 into which the connecting plate 4 can be fitted is provided along the caulking groove 5. The slit 6 is formed by inserting the connecting plate 4 into the slit 6 so that the adjacent board 2
The connection position before and after is determined. In other words, the adjacent boards 2 are connected exactly in the same plane. Therefore,
The width of the slit 6 is equal to or slightly wider than the thickness of the connecting plate 4, so that the connecting plate 4 can be easily inserted. The connecting plate 4 is formed by inserting it into the slit 6,
Adjacent boards 2 are connected in the same plane. Therefore, each board 2 is provided with the slit 6 at the same position on the surface. A metal plate, a hard synthetic resin plate, or the like is used for the connecting plate 4. The connecting plate 4 connects the board 2 to the board 2
The material and thickness having sufficient strength to stop the movement in the front and rear direction, for example, is adjusted to a range of 0.2 to 1 mm. The width of the connecting plate 4 is usually adjusted to 10 mm or more, preferably 15 to 50 mm in order to lengthen the rainwater invasion path. The connecting plate 4 is usually formed in a flat plate shape so that the connecting plate 4 can be easily inserted into the slit 6. However, connecting plate 4
Can be transformed into a wavy shape or the like. The slit 6 into which the flat plate-shaped connecting plate 4 is fitted is linear, and the slit 6 into which the corrugated connecting plate 4 is inserted is formed in a corrugated shape that fits the connecting plate 4. With the connecting plate 4 fitted in the slit 6, the board 2
The adjacent surfaces of contact. Therefore, the depth of the slit 6 is made deeper than the half width of the connecting plate 4. The concrete shape of the caulking groove 5 is shown in FIGS. In the board 2 shown in FIG. 2, the opening of the caulking groove 5 is expanded in a taper shape, and the back is made wide.
The inside of the caulking groove 5 is processed to be wider than the width of the caulking groove 5 and a slit 6 is provided. Since the caulking groove 5 spreads in a tapered shape in the opening, it has the advantage that the nozzle for filling the caulking agent 7 can be easily guided to the caulking groove 5. The board 2 shown in FIG. 3 has a caulking groove 5 which is formed in a tapered shape with a wide inner width and a narrow opening.
A slit 6 is provided along the depth of the caulking groove 5. Further, the board 2 shown in FIG. 4 has a caulking groove 5 having a narrow opening at the opening and a wide width at the back, and a slit 6 is provided along the back of the caulking groove 5. ing. Furthermore, the board 2 shown in FIG. 5 has wide grooves inside, and the caulking agent 7 is injected at regular intervals 12 into the board 12.
Has a caulking groove 5 which is opened, and a slit 6 is provided along the caulking groove 5. The caulking groove 5 of this shape closes most of the caulking groove 5 in a state where the two boards 2 are in contact with each other. A caulking agent 7 is filled in the caulking groove 5 by inserting a nozzle into the inlet 12. Caulking agent 7 filled in this state
Does not leak to the outside, so it can most effectively adhere to the inner surface of the caulking groove 5. Furthermore, the board 2 shown in FIG. 6 is provided with a slit 6 along the inner side of the caulking groove 5 whose opening is expanded in a tapered shape. The board 2 shown in FIGS. 2 to 6 has a slit 6 connected to the caulking groove 5. The board 2 of this structure has the caulking agent 7 injected into the caulking groove 5,
It can also be injected between the slit 6 and the connecting plate 4. The caulking agent 7 injected between the slit 6 and the connecting plate 4 closes the gap between the slit 6 and the connecting plate 4, and can most effectively prevent rainwater passing therethrough. After the caulking agent 5 is filled in the caulking groove 5, the tape 1 is placed in the opening of the caulking groove 5 as shown in FIG.
It is also possible to attach 1 to block this. This structure is
The surface of the board 2 can be finished into a beautiful flat surface. As the caulking agent 7 with which the caulking groove 5 is filled, any material which is filled with the caulking groove 5 and is waterproof can be used. For example, a composite of ponosulfide rubber and a lead peroxide curing agent, or a viscous paste of a natural material such as oak, or a synthetic resin that foams and cures in the caulking groove 5 when blown out by a nozzle, etc. Can be used. On the surface of the board 2, a face board 3 such as a look board or sizing
Is stretched. As the surface plate 3, any material that can cover the surface of the board 2 can be used. Instead of the plate-shaped one for the surface plate 3, a weather-resistant coating film such as epoxy resin,
Alternatively, mortar etc. can be used. On the indoor side of the pillar which is the base material 1, as shown in FIG.
The plate material 8 for the interior is stretched. A heat insulating material 9 is inserted between the interior plate material 8 and the board 2 to thermally insulate the wall. Since this wall surely prevents rainwater from entering with the board 2, it is possible to prevent the heat insulating material 9 from absorbing water and deteriorating the heat insulating property. Glass wool is often used for the heat insulating material 9. The reason is that it is inexpensive and has excellent heat insulating properties.
When glass wool absorbs water, its heat insulating property is significantly deteriorated. Moreover, the absorbed water is not dried easily. The outer wall structure of the building of the present invention does not lose the heat insulating property for a long period of time by using the glass wool which is inexpensive and has excellent properties, because the board 2 completely blocks the penetration of rainwater. Wood chips can be filled between the base material 1 and the interior plate material 8. Wood chips absorb moisture when the humidity is high, and release the moisture when dried. In particular, chips obtained by cutting wood into small pieces have a large surface area, and therefore have the advantage of being able to efficiently absorb and release moisture. Moreover, since a large amount of wood chips can be filled in the panel, the amount of moisture absorption and the amount of water release of the wood chips can be increased. The panel filled with wood chips penetrates the plate material 8 for the interior and is provided with a ventilation hole, and when the ventilation hole is connected to the interior of the room,
Wood chips regulate indoor humidity. When a wall or floor is constructed by connecting a plurality of surface plates 3 and an internal plate member 8 to each other, through holes are provided in the base member 1 to connect the wood chip storage chambers of the respective panels. If the air is forcedly circulated to the wood chip storage room of each panel and forcedly circulates in the room, the humidity control efficiency of the wood chips is further improved. Fans for forced ventilation should not disturb the building,
Install in the ceiling, etc. The ventilation duct of the fan is connected to the wood chip storage chamber of the panel. A part of the air forced by the fan is blown into the room, and the wood chips adjust the humidity. When wood chips having a good scent, such as Japanese cypress, are used, it is possible to have a good scent in the room in addition to adjusting the humidity. The outer wall structure of the building of the present invention can also be used for a roof.
FIG. 7 shows an embodiment of the roof. The roof shown in this figure uses a barrel as the base material 1. The board 2 is also used as a base plate. The same board 2 used for the wall can be used for the board 2 that serves as the base plate. In addition, the outer shape of the board 2, the caulking groove 5, the slit 6 provided on the adjacent surface, and
The connecting plate 4 may have the same shape as the wall. However, in the case of a roof, unlike the wall, a tile is used for the surface plate 3. The roof tile is fixed on the board 2 and is roofed. Between the roof tile and the board 2, there is not necessarily asphalt felt 10.
There is no need to lay. However, if the asphalt felt 10 is laid here, a part of rainwater that has passed through the roof tiles is blocked here, so that the weather resistance of the board 2 can be further improved.

[Brief description of drawings]

FIG. 1 is a sectional view of a wall showing an embodiment of the present invention, FIGS. 2 to 6 are sectional views showing a connecting portion of a board 2, and FIG. 7 is a sectional view showing a roof according to an embodiment of the present invention. Is. 1 ... Base material, 2 ... Board, 3 ... Surface plate, 4 ... Connection plate, 5 ... Caulking groove, 6 ... Slit, 7 ... Caulking agent, 8 ... Plate material, 9 ... Insulating material , 10 ... asphalt felt, 11 ... tape, 12 ... injection port.

Claims (1)

[Claims] 1. An outer wall structure of a building having the following structure. (A) A rod-shaped base material 1 fixed to the body of the building at regular intervals, and a board 2 fixed to the outdoor side of the base material 1.
And a surface plate 3 that covers the outside of the board 2 and a connecting plate 4 that positions and connects the board 2. (B) The board 2 is a plate material having water resistance and no water permeability. (C) A plurality of boards 2 are adjacent to each other and stretched without a gap. (D) The board 2 is provided with the caulking groove 5 along the adjacent surface that is in contact with the adjacent boards 2 without any gap. (E) The caulking groove 5 has a shape that opens to either one of the surfaces of the board 2 in a state where the adjacent surface of the board 2 is in contact with a plane orthogonal to the surface of the board 2. (F) A narrow slit 6 is provided along the caulking groove 5 on the adjacent surface of the board 2. (G) The connecting plate 4 is a hard plate material. (H) The connecting plate 4 is fitted in the slit 6. (I) The thickness of the connecting plate 4 is made almost equal to the width of the slit 6. (J) A caulking agent 7 is filled in the caulking groove 5 of the board 2 stretched through the connecting plate 4 without any gap.