JP6812175B2 - Foundation packing - Google Patents

Description

The present invention relates to a rectangular plate-shaped foundation packing arranged between a building foundation and a foundation.

In recent years, in buildings such as wooden houses, a basic insulation method has been adopted in which the underfloor space is made airtight to improve the heat insulation under the floor and save energy. In this foundation insulation method, a non-ventilation type foundation packing having no ventilation holes is used between the foundation and the foundation in order to block the ventilation between the underfloor space and the outside. This type of foundation packing is for maintaining airtightness under the floor, and a pair of almost solid rod-shaped base parts without vents are connected by a plurality of connection parts, and a pair of base parts and a plurality of connection parts are connected. A foundation packing in which anchor bolt holes are formed in a space surrounded by is adopted (see Patent Document 1).

Utility Model Registration No. 3071575

However, in the foundation packing described in Patent Document 1, when the foundation packing is arranged between the foundation and the foundation, the space formed by the anchor bolt holes is shielded from the outside. For this reason, when the foundation or the foundation is dried, the moisture released from the upper surface of the foundation or the lower surface of the foundation stays in the anchor bolt holes, which causes a problem that mold is generated and termites invade.

Therefore, an object of the present invention is to provide a foundation packing capable of drying the upper surface of the foundation and the lower surface of the foundation while maintaining the airtightness of the underfloor space.

The foundation packing of the present invention is a rectangular plate-shaped foundation packing arranged between a foundation and a base, and has a pair of base portions extending in the long side direction and the pair of base portions in the long side direction. It is provided with a plurality of connecting portions that are separated and connected in the orthogonal direction orthogonal to the above. A plurality of ventilation portions penetrating in the orthogonal direction are formed on one of the pair of base portions arranged on the outdoor side, and on the indoor side of the pair of base portions. On the other base portion to be arranged, a blocking wall for blocking airflow in the orthogonal direction is continuously formed over the entire length in the long side direction.

According to this, a pair of base parts and a plurality of connections are made by arranging the foundation packing between the foundation and the base so that one base part is arranged on the outdoor side and the other base part is arranged on the indoor side. The space from one of the base parts to the barrier wall, including the space surrounded by the parts, communicates with the outside through the ventilation part. Therefore, it is possible to dry the upper surface of the foundation and the lower surface of the foundation while isolating the underfloor space from the outside to maintain airtightness.

Further, in the present invention, it is preferable that the blocking wall is arranged inside the outer end portion of the other base portion in the orthogonal direction. As a result, for example, even if the base is slightly displaced to one of the base portions (outdoor side) and placed on the foundation packing, the barrier wall and the base are likely to be placed so as to overlap in the vertical direction. Therefore, the airtightness of the underfloor space can be ensured.

Further, in the present invention, the blocking wall is arranged at the inner end portion of the other base portion in the orthogonal direction, and outside the blocking wall of the other base portion in the orthogonal direction. It is preferable that a plurality of cavities extending in the orthogonal direction and opening outward are formed side by side in the long side direction . As a result, for example, even if the base is slightly displaced to one of the base portions (outdoor side) and arranged on the foundation packing, the barrier wall and the base are more likely to be arranged so as to overlap in the vertical direction. Therefore, the airtightness of the underfloor space can be effectively ensured. In addition, the weight of the foundation packing can be reduced and the amount of raw materials used can be reduced. Further, the weight of the other base portion can be brought close to the weight of one base portion, the weight balance between one base portion and the other base portion can be balanced, and the packing work and construction work of the foundation packing can be performed. It will be easier.

Further, the present invention further includes a heat insulating material having a plate-shaped member extending in the long side direction and a plurality of protruding portions protruding from one surface of the plate-shaped member and arranged side by side in the long side direction. ing. The projecting portion is configured to be elastically deformable, and it is preferable that the heat insulating material is inserted and attached to the cavity portion in a state where each of the plurality of projecting portions is compressively elastically deformed. .. This makes it possible to improve the heat insulating property.

Further, in the present invention, it is preferable that at least the lower surface of the upper surface and the lower surface of the other base portion is provided with an elastic material extending over the entire length in the long side direction. As a result, when the foundation packing is arranged on the foundation, the elastic material is arranged between the foundation and the foundation packing. Therefore, the airtightness of the underfloor space can be secured more effectively.

According to the foundation packing of the present invention, a pair of substrate portions are arranged by arranging the foundation packing between the foundation and the base so that one substrate portion is arranged on the outdoor side and the other substrate portion is arranged on the indoor side. The space from one of the base parts to the barrier wall, including the space surrounded by the and a plurality of connection parts, communicates with the outside through the ventilation part. Therefore, it is possible to dry the upper surface of the foundation and the lower surface of the foundation while isolating the underfloor space from the outside to maintain airtightness.

It is a partial perspective view of the building structure which used the foundation packing which concerns on one Embodiment of this invention. It is a perspective view of the foundation packing shown in FIG. It is a perspective view when the packing body of the foundation packing shown in FIG. 2 is seen from the bottom surface side. It is sectional drawing along the IV-IV line shown in FIG. It is a main part perspective view of the heat insulating material shown in FIG. It is sectional drawing of the main part along the VI-VI line shown in FIG.

Hereinafter, the building structure 100 in which the foundation packing 10 according to the embodiment of the present invention is used will be described below with reference to FIG.

As shown in FIG. 1, the building structure 100 in the present embodiment includes a long foundation 1 (for example, a cloth foundation), a foundation packing 10, and a wooden base 2. In the present embodiment, as shown in FIG. 1, the left back side of the foundation 1 is outdoors, the right front side of the foundation 1 is indoors, and it is also an underfloor space S. The foundation packing 10 extends long along the extending direction (long side direction A) of the foundation 1. The foundation 2 is arranged on the foundation packing 10 so as to sandwich the foundation packing 10 with the foundation 1, and is formed long in the long side direction A.

The foundation 1 is composed of a footing 1a and a rising portion 1b erected above the footing 1a. The base 2 and the foundation packing 10 are fixed on the rising portion 1b by anchor bolts, square washers and nuts (both not shown) planted in the foundation 1.

Subsequently, the foundation packing 10 will be described below with reference to FIGS. 2 to 6. The foundation packing 10 has a packing main body 11 and a heat insulating material 21, and is formed in a rectangular plate shape. The packing body 11 usually has a thickness of 10 to 30 mm in the vertical direction C, a width of 70 to 200 mm in the width direction (orthogonal direction) B orthogonal to the long side direction A, and is determined according to the width of the base 2. Be done. The length of the packing body 11 in the long side direction A is as long as about 500 to 2000 mm, which are connected in series and, in some cases, appropriately cut and used. The material of the packing body 11 is made of synthetic resin. In the present embodiment, a polypropylene resin containing a filler is used, but the packing main body 11 may be composed of another synthetic resin without particular limitation.

As shown in FIGS. 2 and 3, the packing main body 11 is connected to a pair of base portions 12a and 12b extending in the long side direction A and a pair of base portions 12a and 12b separated from each other in the width direction B. It has a connection portion 13 of the above. Of the pair of base parts 12a and 12b, the base part 12a on the left side in FIG. 2 is the base part arranged on the outdoor side, and the base part 12b on the right side in FIG. 2 is the base part arranged on the indoor side. is there.

The base portion 12a has a top plate 12a1 extending long in the long side direction A, and a plurality of projecting pieces 12a2 protruding downward in the vertical direction from the top plate 12a1. The plurality of projecting pieces 12a2 extend along the width direction B and are arranged apart from each other in the long side direction A. As shown in FIGS. 2 and 3, the base portion 12a is formed with a ventilation portion 12a3 between two adjacent protruding pieces 12a, respectively. That is, a plurality of ventilation portions 12a3 penetrating in the width direction B are formed in the substrate portion 12a. The ventilation portion 12a3 is also open downward in the vertical direction.

As shown in FIGS. 2 and 3, the base portion 12b also has a top plate 12b1 extending long in the long side direction A and a plurality of protruding pieces 12b2 protruding downward in the vertical direction from the top plate 12b1. Have. The plurality of projecting pieces 12b2 extend along the width direction B and are arranged apart from each other in the long side direction A.

The base portion 12b has a blocking wall 12b3 that protrudes downward from the top plate 12b1 in the vertical direction and is continuously formed over the entire length in the long side direction A. The blocking wall 12b3 is formed at the inner end portion (central side end portion in the width direction B) of the top plate 12b1 in the width direction B. That is, a blocking wall 12b3 is formed at the inner end portion of the base portion 12b in the width direction B to block the ventilation of the packing main body 11 in the width direction B via the ventilation portion 12a3. Thereby, in the state where the foundation packing 10 is arranged between the foundation 1 and the foundation 2, it is possible to prevent the outdoor and the indoor (that is, the underfloor space S) from being ventilated through the foundation packing 10. Further, the protruding length of the blocking wall 12b3 from the top plate 12b1 is the same as the protruding length of the plurality of protruding pieces 12b2. The protruding length of the protruding piece 12a2 from the top plate 12a1 is also the same as the protruding length of the protruding piece 12b2, and the lower ends of the protruding pieces 12a2 and 12b2 and the blocking wall 12b3 are all at the same height level. The inner ends of the plurality of projecting pieces 12b2 are connected to the blocking wall 12b3.

As shown in FIG. 3, the base portion 12b is formed with a plurality of cavity portions 12b4 arranged side by side in the long side direction A. The plurality of cavities 12b4 are arranged outside (left front side) of the barrier wall 12b3 in the width direction B. The cavity portion 12b4 is formed between two projecting pieces 12b2 adjacent to each other in the long side direction A, and is formed by opening outward in the width direction B and downward in the vertical direction.

As shown in FIG. 2, the plurality of connecting portions 13 are arranged between the pair of base portions 12a and 12b and separated from each other along the long side direction A. As shown in FIGS. 2 and 3, each connection portion 13 has a top plate 13a having a rectangular planar shape and two projecting pieces 13b protruding downward in the vertical direction from the top plate 13a. The two projecting pieces 13b extend along the width direction B and are arranged at both ends of the top plate 13a in the long side direction A. Further, of both ends of the two projecting pieces 13b in the width direction B, one end is connected to the blocking wall 12b3 and the other end is connected to the projecting piece 12a2. The protruding length of the protruding piece 13b from the top plate 13a is also the same as the protruding length of the protruding pieces 12a2 and 12b2, and the lower end of the protruding piece 13b is at the same height level as the lower end of the protruding pieces 12a2 and 12b2. As described above, the lower surfaces of the projecting pieces 12a2, 12b2, 13b and the blocking wall 12b3 are all arranged at the same height level, and these lower surfaces form the lower surface 11b of the packing main body 11.

Of both ends of the top plate 13a in the width direction B, one end is connected to the top plate 12b1 and the other end is connected to the top plate 12a1. The upper surfaces of the top plates 12a1, 12b1, 13a are arranged at the same height level, and form the upper surface 11a of the packing main body 11. That is, the upper surface 11a of the packing body 11 is flat.

As shown in FIG. 3, a cavity portion 13c is also formed in the connecting portion 13. The cavity 13c is formed between the two projecting pieces 13b, and is formed by opening downward in the vertical direction. Further, the cavity portion 13c communicates with the ventilation portion 12a3 adjacent to the width direction B.

Further, the packing main body 11 is configured with three anchor bolt holes 14 penetrating in the vertical direction C. The anchor bolt holes 14 are formed between the pair of base portions 12a and 12b and between the two connecting portions 13 adjacent to each other in the long side direction A, and on the leftmost portion of the connecting portion 13 on the leftmost side in FIG. Has been done.

As shown in FIGS. 2 and 4, the packing main body 11 is provided with two elastic members 15 and 16. The elastic material 15 is attached by an adhesive on the upper surface 11a of the packing main body 11 at a position where it overlaps the blocking wall 12b3 in the vertical direction C. The elastic material 16 is the lower surface 11b of the packing main body 11 and is attached to the lower surface of the blocking wall 12b3 with an adhesive. More specifically, the elastic material 15 is attached to the upper surface 12b5 of the base portion 12b, and the elastic material 16 is attached to the lower surface 12b6 of the base portion 12b. These elastic materials 15 and 16 extend over the entire length of the base portion 12b in the long side direction A. Further, the constituent materials of the elastic materials 15 and 16 are not particularly limited, and examples thereof include a resin material and a rubber material. When the elastic materials 15 and 16 are provided on the packing body 11, for example, a rubber tape, a urethane tape, a foamed resin tape, or the like may be used as the elastic materials 15 and 16 without using an adhesive.

As shown in FIG. 5, the heat insulating material 21 includes a plate-shaped member 22 extending in the long side direction A and a plurality of projecting portions 23 protruding from the side surface (one surface) 22a of the plate-shaped member 22 in the width direction B. Have. The heat insulating material 21 in the present embodiment is composed of a foamed resin foam such as urethane foam, which is an elastic foam-based heat insulating material in which a plate-shaped member 22 and a plurality of protruding portions 23 are integrally formed. However, it may be made of any material as long as it is an elastic heat insulating material. Further, in the heat insulating material 21, although the plate-shaped member 22 and the plurality of projecting portions 23 are both made of the same material, they may be made of different materials from each other. In this case, the protruding portion 23 may be made of a material that can be elastically deformed. That is, the protruding portion 23 may be configured to be elastically deformable.

Further, the heat insulating material 21 has the same number of protruding portions 23 as the hollow portions 12b4 formed in the base portion 12b. The plurality of projecting portions 23 are arranged side by side in the long side direction A corresponding to the arrangement of the plurality of cavity portions 12b4. Further, as shown in FIG. 4, the protruding portion 23 has a size slightly larger than that of the cavity portion 12b4, but has a size that can be inserted into the cavity portion 12b4 by compressively elastically deforming it. .. In this way, the heat insulating material 21 is inserted into the corresponding hollow portion 12b4 in a state where each protruding portion 23 is compressively elastically deformed, and is attached to the packing main body 11.

As shown in FIG. 6, such a foundation packing 10 is arranged between the foundation 1 and the base 2 so that the base portion 12a is arranged on the outdoor side and the base portion 12b is arranged on the indoor side. At this time, the elastic material 15 is compressed between the packing main body 11 and the base 2. The elastic material 16 is compressed between the packing body 11 and the foundation 1. The elastic members 15 and 16 are arranged at positions overlapping the blocking wall 12b3 in the vertical direction C, and are formed over the entire length of the packing main body 11 in the long side direction A. Therefore, it is possible to effectively prevent the outdoor and the underfloor space S from communicating with each other from between the packing main body 11 and the foundation 1 and between the packing main body 11 and the base 2. Therefore, the airtightness of the underfloor space S can be ensured more effectively.

At this time, the heat insulating material 21 is attached to the packing main body 11. The protruding portion 23 of the heat insulating material 21 is inserted into the cavity portion 12b4 in a state of being compressively elastically deformed. By attaching such a heat insulating material 21 to the packing main body 11, it is possible to improve the heat insulating property of the foundation packing 10.

Further, the lower surface 11b of the packing main body 11 is composed of a plurality of projecting pieces 12a2, 12b2, 13b and the lower surface of the blocking wall 12b3, and the area covering the upper surface of the foundation 1 is reduced. Therefore, moisture and the like are easily dissipated from the upper surface of the foundation 1. As shown by the arrow in FIG. 6, the moisture released from the foundation 1 to the anchor bolt hole 14 and the cavity 13c of the connection portion 13 can be released to the outside through the ventilation portion 12a3. As a matter of course, the moisture radiated from the foundation 1 to the ventilation portion 12a3 can also escape to the outside. Since the heat insulating material 21 is inserted into the cavity 12b4, it is difficult for moisture to be dissipated from the portion of the foundation 1 facing the cavity 12b4 to the cavity 12b4, but the portion of the foundation 1 facing the anchor bolt hole 14. Moisture is easily dissipated as described above, so that the moisture in the portion of the foundation 1 facing the cavity 12b4 moves toward the anchor bolt hole 14 and is dissipated in the anchor bolt hole 14. Further, even if the moisture of the base 2 is dissipated from the portion of the base 2 facing the anchor bolt hole 14 to the anchor bolt hole 14, the moisture can be released to the outside through the ventilation portion 12a3 in the same manner as described above.

As described above, according to the foundation packing 10 of the present embodiment, the foundation packing 10 is provided between the foundation 1 and the base 2 so that the base portion 12a is arranged on the outdoor side and the base portion 12b is arranged on the indoor side. By being arranged, the space from the base portion 12a to the blocking wall 12b3 including the space surrounded by the pair of base portions 12a and 12b and the plurality of connecting portions 13 (that is, the space composed of the anchor bolt holes 14). The space (the space composed of the cavity portion 13c and the anchor bolt hole 14) communicates outdoors via the ventilation portion 12a3. Therefore, it is possible to dry the upper surface of the foundation 1 and the lower surface of the base 2 while isolating the underfloor space S from the outside to maintain airtightness.

Further, the blocking wall 12b3 is arranged inside the outer end portion of the base portion 12b in the width direction B. As a result, for example, even if the base 2 is slightly displaced toward the base portion 12a (outdoor side) and placed on the foundation packing 10, the blocking wall 12b3 and the base 2 are likely to be placed so as to overlap each other in the vertical direction C. Therefore, the airtightness of the underfloor space can be ensured. If the base portion 12b does not have the top plate 12b1 and the blocking wall 12b3 is arranged at the outer end of the base portion 12b, if the base 2 is slightly displaced to the outdoor side as described above, the blocking wall 12b3 and The base 2 does not overlap with the vertical direction C, and the space on the outdoor side of the barrier wall 12b3 and the underfloor space S can easily communicate with each other.

Further, the blocking wall 12b3 is arranged at the inner end portion of the base portion 12b in the width direction B. As a result, even if the base 2 is slightly displaced toward the base portion 12a (outdoor side) and placed on the foundation packing 10, the blocking wall 12b3 and the base 2 are more likely to be placed so as to overlap each other in the vertical direction C. Therefore, the airtightness of the underfloor space S can be effectively ensured.

Further, since the plurality of hollow portions 12b4 are formed in the base portion 12b, the weight of the foundation packing 10 can be reduced and the amount of raw materials used can be reduced. Further, the weight of the base portion 12b can be brought close to the weight of the base portion 12a, the weight of the base portion 12a and the base portion 12b can be balanced, and the packing work and the construction work of the foundation packing 10 can be facilitated.

Although the preferred embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment, and various modifications can be made as long as it is described in the claims. For example, the pair of base portions 12a and 12b of the foundation packing 10 in the above-described embodiment do not have a bottom plate, but may have a bottom plate having the same shape as the top plates 12a and 12b1. In this case, each ventilation portion 12a3 is a hole that penetrates the base portion 12a in the width direction B. The ventilation portion 12a3 may have any shape of the opening, and may penetrate the base portion 12a in the width direction B.

The blocking wall 12b3 may be arranged between the inner end portion and the outer end portion of the base portion 12b and at the outer end portion of the base portion 12b. In the base portion 12b without the bottom plate, the closer the blocking wall 12b3 is to the outer end portion of the base portion 12b, the easier it is for the moisture released from the upper surface of the foundation 1 to escape to the outside.

The heat insulating material 21 does not have to be attached to the packing main body 11. Further, the elastic materials 15 and 16 may not be provided on the packing main body 11. Further, only the elastic material 15 may not be provided on the packing main body 11.

1 Foundation 2 Foundation 10 Foundation packing 12a Base part (one base part)
12a3 Ventilation part 12b Base part (the other base part)
12b3 Blocking wall 12b4 Cavity part 12b5 Upper surface 12b6 Lower surface 13 Connection part 15, 16 Elastic material 21 Insulation material 22 Plate-shaped member 23 Protruding part

Claims (5)

A rectangular plate-shaped foundation packing placed between the foundation and the foundation.
A pair of base portions extending in the long side direction and a plurality of connecting portions for connecting the pair of base portions by separating them in an orthogonal direction orthogonal to the long side direction are provided.
A plurality of ventilation portions penetrating in the orthogonal direction are formed on one of the pair of substrate portions arranged on the outdoor side .
On the other base portion of the pair of base portions arranged on the indoor side, a blocking wall that blocks ventilation in the orthogonal direction is continuously formed over the entire length in the long side direction. Basic packing featuring. The foundation packing according to claim 1, wherein the barrier wall is arranged inside the outer end portion of the other base portion in the orthogonal direction. The barrier is arranged at the inner end of the other substrate in the orthogonal direction .
In the orthogonal direction, a plurality of cavities extending in the orthogonal direction and opening outward are formed side by side in the long side direction on the outer side of the blocking wall of the other base portion . The basic packing according to claim 1 . Further provided is a heat insulating material having a plate-shaped member extending in the long side direction and a plurality of projecting portions protruding from one surface of the plate-shaped member and arranged side by side in the long side direction.
The protruding portion is configured to be elastically deformable.
The foundation packing according to claim 3 , wherein the heat insulating material is inserted and attached to the hollow portion in a state in which each of the plurality of protruding portions is compressively elastically deformed. Any of claims 1 to 4 , wherein at least the lower surface of the upper surface and the lower surface of the other base portion is provided with an elastic material extending over the entire length in the long side direction. The basic packing according to item 1.

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