JPH02140359A - Outer wall structure of construction - Google Patents

Abstract

PURPOSE:To realize the superior waterproofness of a board for a long period by applying a surface plate onto the outside of the board fixed onto a backing member and protecting the board by the surface plates. CONSTITUTION:A pillar as backing member 1 is installed onto the boundary of a board 2, i.e., at the edge of the board 2, and fixed onto the body of a structure, and the board 2 is fixed onto the backing member 1. In this case, the backing member 1 is formed to a thickness for fixing the board 2, and the board 2 is formed from a plate member which possesses the waterproofness and water-impermeability. Then, the board 2 is fixed onto the backing member 1, in the state where no gap is formed between the contiguous boards 2, and a calking groove 5 formed on the contiguous surfaces of the board 2 is charged with a calking agent 7, and the part between the contiguous boards 2 is applied with the waterproof treatment.

Description

[Detailed description of the invention] [Industrial application field]

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

[Conventional technology and its problems]

Conventional buildings are waterproofed using materials that are attached to the exterior surface. The walls are covered with panels or covered with mortar on the outside, and the roof is covered with tiles to make it waterproof. If the waterproofness of the people board etc. is lost, rainwater will penetrate through the wall. The people board is directly exposed to rainwater and sunlight,
be placed under harsh conditions. It is extremely difficult to provide waterproofness for a long period of time to a viewing board that is exposed to severe external conditions. In recent years, an exterior wall material commonly known as ``sizing'' (registered trademark), which consists of two layers of metal plates with a heat insulator sandwiched between them, has been used in place of wooden panels. Depending on where it is used, this exterior wall material has superior weather resistance compared to wooden panels. However, in environments where metal plates are likely to corrode, for example,
If it is used in a place exposed to salty wind, it will corrode in a very short period of time and lose its waterproof properties. In conventional exterior wall structures, the exterior wall material that is placed closest to the outdoors is made waterproof to prevent rainwater from entering, so if the exterior wall material deforms or corrodes and loses its waterproofness, the wall will lose its waterproofness. rainwater enters the room. Therefore, in order to maintain the waterproofness of exterior wall materials, maintenance such as re-covering or repainting the surface at regular intervals is a costly and time-consuming process. Exterior wall materials are used to achieve waterproofness and aesthetics, and are not structural materials that provide strength.Therefore, relatively thin materials are used.In addition, exterior wall materials are used to provide waterproofness and aesthetics. In order to make it look beautiful, relatively narrow boards are used.The drawback is that it takes time and effort to install narrow and thin boards in a way that prevents rainwater from penetrating.Also, the roof is covered with tiles. As long as the tiles are able to prevent rainwater from seeping in, rainwater will not seep into the room.However, since tiles are roofed with some gaps, it is difficult to prevent rainwater from seeping in during strong winds. Extremely difficult. Rainwater is blown upwards by strong winds.
It invades the back side through the gaps in the tiles. Asphalt felt is placed under the tiles to prevent rainwater from penetrating through the tiles. This asphalt felt has needle holes and cannot be completely waterproof because the connecting parts are overlapped and nailed to the roof board. Furthermore, asphalt felt is not permanent because it is exposed to the sun through tiles and exposed to wind and rain, and it deteriorates and loses its waterproof properties. For this reason, conventional roofs have the disadvantage of leaking if the tiles are not waterproof. Furthermore, the roof tiles cannot be left in the same position forever. Tiles have the disadvantage that their positions gradually shift as time passes. This is due to the corrosion of the nails that hold the tiles in place, and the washing away of the red clay that holds the tiles in place. Furthermore, roof tiles have the disadvantage that they can crack if a large local load is applied to them. It may also be blown away by natural phenomena such as typhoons and tornadoes. When roof tiles are cracked or blown off, rainwater can enter the room. For this reason, roof tiles, like exterior wall materials, also need to be maintained at regular intervals. In addition, when rainwater permeates through tiles, it immediately causes Tma, so in order to prevent rainwater from leaking, it is necessary to constantly observe the condition of the tiles and make corrections. By the way, when rainwater permeates through roofs and walls, it causes significant damage to the interior of buildings. This is because rainwater leaves dirty stains on interior surfaces such as walls and ceilings. For this reason, −
When rainwater enters a building, it costs a lot of money to repair the interior, in addition to repairing the walls and roof.

[Object of this invention]

This invention was developed with the aim of solving these conventional drawbacks, and an important purpose of this invention is to provide an exterior wall structure for buildings that can maintain excellent waterproof properties for a long period of time. It is. Another important object of this invention is to provide external wall materials and roof tiles for buildings that are not necessarily completely waterproof, and can be easily constructed and maintained. It is there to provide structure. Furthermore, an important object of the present invention is to provide an exterior wall structure for a building in which waterproofing of boards for achieving a waterproof structure can be easily and reliably performed.

[Means to solve conventional problems]

The outer wall structure of a building according to the present invention, which achieves the above object, has the following configuration. (a) A rod-shaped base material 1 fixed to the building frame at regular intervals, a board 2 fixed to the outdoor side of the base material 1, a surface board 3 that covers the outdoor side of the board 2, and a board 2 and a connecting plate 4 for positioning and connecting. (b) The board 2 is a board material that is water resistant but not water permeable in order to have a waterproof structure. (c) A plurality of boards 2 are stretched adjacent to each other without any gaps. (d) The board 2 is provided with a caulking groove 5 along the adjacent surface that is in contact with the adjacent board 2 without a gap so that the space between the adjacent boards 2 can be reliably waterproofed. (e) The caulking groove 5 is placed on the board 2 with the adjacent surface of the board 2 in contact with a plane perpendicular to the surface of the board 2.
It has a shape with an opening on either side. (f) A narrow slit 6 is provided on the adjacent surface of the board 2 along the caulking groove 5 so that the adjacent boards 2 can be connected on the same plane. (g) The connecting plate 4 is a hard plate material. (b) The connecting plate 4 is fitted into the slit 6. (i) The thickness of the connecting plate 4 is made almost equal to the width of the slit 6. (j) Boat 2 stretched without any gaps via connecting plate 4
The caulking groove 5 is filled with a caulking agent 7.

[effect]

The outer wall structure of a building according to the present invention is shown in FIG. 1 showing a preferred embodiment thereof.
A surface board 3 is placed on the outdoor side of the building. The board 2 is provided with a caulking groove 5 on the adjacent surface. Caulk groove 5
A slit 6 is provided along. This slit 6
A connecting plate 4 is inserted into the connecting plate 4 to connect the boards 2. The exterior wall structure of a building with this structure is waterproofed with boards 2 that are connected in a unique manner instead of conventional exterior wall materials. The board 2 is covered with a surface board 3 and hidden inside the outer wall, unlike a conventional exterior wall material placed outdoors. The board 2 stretched inside is not directly exposed to rainwater or sunlight, and can achieve excellent waterproofness over a long period of time. The board 2 protected by the surface plate 3 does not lose its long-standing waterproof property inside the outer wall. Further, since the outer wall structure of the building according to the present invention is waterproofed by internal boards, even if rainwater enters through the surface board, the rainwater will not permeate through the walls or roof. For this reason, external wall materials, roof tiles, etc. are not necessarily required to be completely waterproof, and the construction of these materials can be significantly simplified. Furthermore, even if rainwater passes through the exterior wall materials and roof tiles, it does not penetrate into the room, so maintenance of these materials can be significantly simplified. Furthermore, in addition to this, even if the surface board leaks, the rainwater will not stain the interior of the room.
It also has the advantage of significantly reducing repair costs for the entire building. Furthermore, a noteworthy feature of the present invention is that the gaps between the boards can be simply and easily waterproofed, and moreover, reliably. This feature is achieved by a unique shape on the adjacent sides of the board. That is, the boards are provided with slits along the adjacent surfaces, and the connecting plates are fitted into the slits to connect the adjacent boards. The connecting plate is a hard plate material that can be inserted into the slit of the board to specify the position where the board is fixed. Therefore, adjacent boards can be simply and easily aligned neatly and fixed on the same plane by fitting the connecting plates into the slits. Furthermore, the slit and the connecting plate inserted here are
By extending the distance through which rainwater permeates, it is possible to effectively prevent rainwater from entering. As shown by the arrow rμ in FIG. 2, rainwater passes through the space between the connecting plate 4 and the slit 6 and permeates into the indoor side. The rainwater that migrates along this route passes through a route that goes back and forth between the parts that are widened on 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 inserted creates a long path for rainwater to travel downward, thereby
The rainwater permeation path can be lengthened. Furthermore, 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 will also enter between the slit 6 and the connecting plate 4.
It has the advantage that the slit 6 and the connecting plate 4 can be brought into close contact with each other without any gaps. The boards 2 connected in this state extremely effectively prevent rainwater from entering.

[Preferred embodiment]

Embodiments of the present invention will be described below based on the drawings. However, the embodiments shown below are illustrative 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 material, shape, structure, and arrangement of the component parts as shown below. There is nothing specific about the structure. The outer wall structure of this invention is
Various changes may be made within the scope of the claims. Further, in this specification, numbers corresponding to the members shown in the embodiments are added to the members shown in the claims so that the claims are easy to understand. However, the members described in the claims are by no means limited to the members shown in the examples. The outer wall structure of a building according to the present invention can be used for a wall structure and a roof structure. The outer wall structure of the building shown in FIG. 1 shows the wall structure. The exterior wall structure of this building consists of a rod-shaped base material 1 fixed to the building frame at regular intervals, a board 2 fixed to the outdoor side of this base material 1, and a board 2 stretched on the outdoor side of the board 2. It consists of a surface plate 3. In the case of a wall structure, columns are used as the base material 1. Figure 1 shows the walls of a building constructed using the two-by-four construction method. In this structure, as shown in FIG. 1, columns are used as the base material l. The pillars are fixed to the frame at intervals of, for example, approximately 900 cylinders or half thereof, 450 mm. The pillars, which are the base material l, are provided at the boundaries of the boards 2, that is, at the ends of the boards 2. The base material 1 is fixed to the building frame. A board 2 is fixed to this base material 1. In the case of the two-by-four method,
The pillars, which are the base material 1, are fixed to the board 2 before being fixed to the frame. A column, which is a base material 1 to which a board 2 is fixed, is fixed to the frame of a building. Therefore, even if the base material 1, which is a pillar, and the board 2 are fixed to the frame in the same manner, the order in which the pillars and the board 2 are fixed is different from the normal construction method. In the usual construction method, after the pillars are fixed to the frame, the board 2 is fixed to the pillars. The base material 1 is determined to have a thickness that allows the board 2 to be fixed. The base material 1 shown in FIG. 1 is, for example, 50 to 200 mm square.
Preferably, it is 75 to 150 mm square. This invention does not specify that the wall base material 1 is a wooden column. Any rod-shaped material capable of fixing the board 2, such as a lightweight steel frame, can be used as the base material l. For the board 2, any board material that is water resistant but not water permeable can be used. These board materials include plywood, wood formed into a board shape by closely bonding wood with a synthetic resin binder, or inorganic material bound into a board shape with a binder, and are currently commercially available. Alternatively, all exterior wall materials that are water resistant and non-permeable can be used. The board 2 has a thickness of 5 mm or more, preferably 7 mm or more so that the caulking groove 5 can be provided on the adjacent surface of the outer periphery.
I use board 2 of 30non. The board 2 is usually about 90cm long so that it can be hung efficiently on the base material 1.
Those with a diameter of 180 to 270 cm are used. The board 2 is fixed to the base material 1 with no gap formed between adjacent boards 2. The board 2 is waterproofed between adjacent boards 2 while being fixed to the base material 1. Therefore, caulking grooves 5 are provided on the adjacent surface of the board 2. The caulking groove 5 can be filled with caulking agent 7,
Further, it is formed so that the filled caulking agent 7 can be brought into close contact with the caulking groove 5. That is, in order to fill the caulking agent 7 here, the caulking groove 5 is opened to either side of the board 2 with the adjacent side of the board 2 in contact with a plane orthogonal to the surface of the board 2. It has a shape. Preferably, the caulking groove 5 has a shape in which the opening part is narrowed and the depth is widened when the caulking groove 5 is in contact with a plane perpendicular to the surface of the board 2 so that the caulking agent 7 filled in the caulking agent 7 adheres tightly. It is made in A slit 6 into which the connecting plate 4 can be fitted is provided along the caulking groove 5. By fitting the connecting plate 4 into the slit 6, the adjacent board 2
Determine the connection positions before and after. In other words, 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 to facilitate insertion of the connecting plate 4. By inserting the connecting plate 4 into the slit 6,
Adjacent boards 2 are connected on the same plane. Therefore, each board 2 has a slit 6 at the same position on the surface.
is provided. For the connecting plate 4, a metal plate, a hard synthetic resin plate, or the like is used. The connecting plate 4 connects the boards 2 to each other.
The material and thickness are adjusted to have sufficient strength to stop the movement back and forth, for example, in the range of 0.2 to 1 mm. Further, the width of the connecting plate 4 is usually adjusted to 10 mm or more, preferably in the range of 15 to 50 mm, in order to lengthen the path for rainwater to enter. The connecting plate 4 is usually made in a flat plate shape so that it can be easily inserted into the slit 6. However, the connecting plate 4 can also be deformed into a corrugated shape or the like. The slit 6 into which the flat connecting plate 4 is inserted is linear, and the slit 6 into which the corrugated connecting plate 4 is inserted is formed into a wave shape that matches the connecting plate 4. With the connecting plate 4 fitted into the slit 6, the board 2
the adjacent surfaces of the two are in contact. Therefore, the depth of the slit 6 is made deeper than half the width of the connecting plate 4. The specific shape of the caulking groove 5 is shown in FIGS. 2 to 6. In the board 2 shown in FIG. 2, the opening of the caulking groove 5 is tapered and widened at the back. The back of the caulking groove 5 is processed to be wider than the width of the caulking groove 5, and a slit 6 is provided therein. Since the caulking groove 5 has a large taper at its opening, it has the advantage that the nozzle for filling the caulking agent 7 can be easily guided into the caulking groove 5. The board 2 shown in FIG. 3 has a caulking groove 5 that is wide at the back and tapered with a narrow opening.
A slit 6 is provided along the back of this caulking groove 5. Further, the board 2 shown in FIG. 4 has a caulking groove 5 with a narrow slit-shaped opening and a wide caulking groove 5 at the back, and a slit 6 is provided along the inside of this caulking tR5. There is. Furthermore, the board 2 shown in FIG.
It has a caulking groove 5 with a frontage, and a slit 6 is provided along this caulking groove 5. Most parts of the caulking groove 5 having this shape are closed when the two boards 2 are in contact with each other. A nozzle is inserted into the injection port 12 to fill the caulking groove 5 with the caulking agent 7. Caulking agent 7 filled in this state
Since it does not leak to the outside, it can most effectively adhere to the inner surface of the caulking groove 5. Furthermore, in the board 2 shown in FIG. 6, a slit 6 is provided along the back of the caulking groove 5, which has a tapered opening. The board 2 shown in FIGS. 2 to 6 is provided with a slit 6 connected to the caulking groove 5. The board 2 with this structure allows the caulking agent 7 injected into the caulking groove 5 to
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 from passing through the gap. After the caulking groove 5 is filled with the caulking agent 7, as shown in FIG.
You can also paste 1 to block this area. This structure is
The surface of the board 2 can be finished into a beautiful flat surface. The caulking agent 7 filled in the caulking groove 5 can be any material that can be filled in the caulking groove 5 and is waterproof. For example, a compound of bossulfide rubber and a lead peroxide curing agent, a viscous paste of natural products such as oakum, or a synthetic resin that foams and hardens in the caulking groove 5 when the nozzle blows out. Can be used. On the surface of the board 2, there is a surface board 3 for people viewing boards, sizing, etc.
is stretched. Any material that can cover the surface of the board 2 can be used as the surface plate 3. Instead of a plate-like surface plate 3, a weather-resistant coating film such as epoxy resin,
Alternatively, mortar etc. can also be used. As shown in Figure 1, on the indoor side of the pillar that is the base material 1,
A board material 8 for the interior is pasted. A heat insulating material 9 is inserted between the interior plate material 8 and the board 2 to insulate the wall. Since this wall reliably prevents rainwater from entering with the board 2, it is possible to prevent the heat insulating material 9 from absorbing water and deteriorating its heat insulating properties. Glass wool is often used for the heat insulating material 9. This is because it is inexpensive and has excellent heat insulation properties. When glass wool absorbs water, its insulation properties are significantly reduced. In addition, absorbed water is difficult to dry. The external wall structure of the building of the present invention uses glass wool which is inexpensive and has excellent properties, so that the board 2 completely prevents rainwater from penetrating, thereby ensuring that the insulation properties are not lost over a long period of time. Wood chips can be filled between the base material 1 and the interior board material 8. Wood chips absorb moisture when the humidity is high and release moisture when dry. In particular, chips made by cutting wood into small pieces have a large surface area, so they have the advantage of being able to absorb and release moisture efficiently. Furthermore, since a large amount of wood chips can be filled into the panel, the amount of moisture absorbed by the wood chips and the amount of moisture released can be increased. When the panel filled with wood chips is provided with a ventilation hole through the interior board material 8 and connected to the interior of the room through this ventilation hole,
Wood chips regulate indoor humidity. When constructing a wall or floor by connecting a plurality of surface boards 3 and interior board materials 8, through holes are provided in the base material 1 to connect the wood chip storage chambers of each panel. If air is forcibly blown into the wood chip storage chamber of each panel and forced to circulate indoors, the efficiency of controlling the humidity of wood chips will be greatly improved. Forced ventilation fans, etc. should be installed so that they do not interfere with the building.
Install it in the ceiling, etc. The ventilation duct of the fan is connected to the wood chip storage chamber of the panel. Some of the air forced by the fan is blown into the room, and the wood chips adjust the humidity. Additionally, if you use fragrant wood chips such as Japanese cypress, you can not only control humidity but also add a pleasant scent to the room. The outer wall structure of a building according to the present invention can also be used for a roof. FIG. 7 shows an embodiment of the roof. In the roof shown in this figure, rafters are used as the base material 1. Moreover, the board 2 is also used as a roofing board. The board 2 used for the wall is the board 2 that will become the field board.
You can use the same as . Further, the outer shape of the board 2, the shape of the caulking groove 5 and the slit 6 provided on the adjacent surface, and the shape of the connecting plate 4 can be the same as those of the wall. However, in the case of a roof, tiles are used for the surface plate 3, unlike walls. The tiles are fixed and roofed on the board 2. There is not necessarily asphalt fel between the tiles and board 2)10
There is no need to lay it out. However, if the asphalt felt 10 is laid here, a portion of the rainwater that has passed through the roof tiles will be blocked here, which has the advantage of further improving the weather resistance of the board 2.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of a wall showing an embodiment of the present invention, FIGS. 2 to 6 are cross-sectional views showing the connecting portion of the board 2, and FIG. 7 is a cross-sectional view showing a roof according to an embodiment of the present invention. It is. ]...Front material, 2...Board, 3...Top plate, 4...
Connecting plate, 5...Caulking groove, 6...
...Slit, 7...Caulking agent, 8.
... Board material, 9 ... Insulation material, 10 ... Asphalt felt, 11 ...
...Tape, 12...Inlet. Figure 2 3 Figure 3

Claims (1)

[Claims] An exterior wall structure of a building having the following configuration. (a) A rod-shaped base material 1 fixed to the building frame at regular intervals, a board 2 fixed to the outdoor side of the base material 1, a surface board 3 covering the outdoor side of the board 2, and a board 2 and a connecting plate 4 that positions and connects the. (b) The board 2 is a plate material that is water resistant but has no water permeability. (c) A plurality of boards 2 are stretched adjacent to each other without gaps. (d) The boards 2 are provided with caulking grooves 5 along adjacent surfaces that are in contact with adjacent boards 2 without gaps. (e) The caulking groove 5 has a shape that opens on either side of the board 2 with the adjacent surface of the board 2 in contact with a plane orthogonal to the surface of the board 2. (f) A narrow slit 6 is provided on the adjacent surface of the board 2 along the caulking groove 5. (g) The connecting plate 4 is a hard plate material. (h) The connecting plate 4 is fitted into 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 which is tightly stretched with the connecting plate 4 interposed therebetween.