JP6796409B2 - Foundation packing - Google Patents

Description

The present invention relates to a synthetic resin foundation packing arranged between a building foundation and a foundation.

In recent years, in the construction method of a building, a construction method in which a foundation packing is laid between a foundation and a foundation has been widely used. As this type of foundation packing, ventilation holes penetrating the outer surface and inner surface of the foundation packing are provided in the width direction orthogonal to the laying direction (one direction) of the foundation packing, and the underfloor and the building are provided through the ventilation holes. It has been proposed that the structure is ventilated to the outside (see Patent Document 1). Ventilation holes in such foundation packing are defined by compartment walls that are spaced apart from each other along the laying direction, and the compartment walls are strong enough to withstand the load of the building on the foundation packing. It is designed to be prepared.

Japanese Unexamined Patent Publication No. 2009-215809

However, in the foundation packing described in Patent Document 1, since all the vertically erected partition walls extend in the same direction, for example, a large load in the horizontal direction intersecting in the width direction is applied to the foundation packing. If added, the compartment wall may collapse.

Therefore, an object of the present invention is to provide a foundation packing having improved strength against a load in the horizontal direction.

The foundation packing of the present invention is a long-formed foundation packing made of synthetic resin that is connected and arranged between the foundation and the foundation in the extending direction of the foundation, and is arranged apart from each other. It is provided with a plurality of side walls, an upper wall connecting the upper ends of the plurality of side walls, and a ventilation hole formed in a region surrounded by the two adjacent side walls and the upper wall and extending in the width direction. There is. Then, in the ventilation hole, a reinforcing portion for improving the strength against a load in the horizontal direction intersecting the width direction is formed over the entire width direction .

According to this, since the reinforcing portion is formed in the ventilation hole which is a space portion, the strength against the load in the horizontal direction intersecting in the width direction of the foundation packing is improved.
In the present invention, conversion pores, to to the direction perpendicular to the longitudinal direction of the basic packing may be formed in a straight line may be formed in a diagonal direction, or may be formed by way bending. In short, it suffices to communicate in the width direction. Further, a lower wall connecting the lower ends of a plurality of side walls may be provided.

Further, in the present invention, it is preferable that the reinforcing portion is composed of an inclined wall connecting the upper portion and the lower portion of the two adjacent side walls. As a result, the strength against the load in the horizontal direction intersecting the width direction of the foundation packing can be improved with a simple configuration. At this time, two inclined walls connecting the upper part and the lower part of the two adjacent side walls may be arranged so as to intersect in the ventilation hole. Further, a lower wall connecting the lower ends of a plurality of side walls may be provided.

Further, in the present invention, it is preferable that the reinforcing portion is integrally formed with the side wall so that the thickness of the side wall increases as it approaches the upper wall. As a result, the strength against the load in the horizontal direction intersecting the width direction of the foundation packing can be improved with a simple configuration.

Further, in the present invention, it is preferable that the reinforcing portion is formed so that the corner portion between the side wall and the upper wall has a C surface or an R shape. As a result, the strength against the load in the horizontal direction intersecting the width direction of the foundation packing can be further improved with a simple configuration. At this time, a lower wall connecting the lower ends of the plurality of side walls may be provided, and in this case, a reinforcing portion may be provided in which the corner portion between the side wall and the lower wall has a C surface or an R shape.
In the present invention, the reinforcing portion is a broad concept that includes not only a general linear C-plane shape but also an arc shape (R shape), a step shape, and the like. In this sense, the opening shape (cross-sectional shape) of the ventilation hole may be a quadrangle such as a trapezoid or a rhombus, a polygon such as a pentagon or more, a circular shape such as a perfect circle, or an ellipse.
Further, a through hole is formed in the width direction of the foundation packing in the portion where the thickness of the side wall is increased by providing a reinforcing portion having a C surface or an R shape at the corner of the side wall and the upper wall and / or the side wall and the lower wall. You may. As a result, the resin thickness of the reinforcing portion can be reduced, the manufacturing time can be shortened, the molding accuracy can be improved, and the ventilation rate can be improved.

Further, in the present invention, the side wall further has a lower wall connecting the lower ends of the plurality of side walls, and the reinforcing portion is provided on the side wall so that the thickness of the side wall increases as the wall approaches the lower wall. It is preferable that they are integrally formed. As a result, the opening shape (cross-sectional shape) of the ventilation hole can be a quadrangle such as a trapezoid or a rhombus, a polygon such as a pentagon or more, a circular shape such as a perfect circle or an ellipse, and the like. The strength against load can be further improved with a simple configuration. At this time, a through hole may be formed in the portion where the thickness of the side wall is increased in the width direction of the foundation packing. As a result, the resin thickness of the reinforcing portion can be reduced, the manufacturing time can be shortened, the molding accuracy can be improved, and the ventilation rate can be improved.

Further, in the present invention, it is preferable that the reinforcing portion is formed so that the opening shape of the ventilation hole is circular. As a result, the strength against the load in the horizontal direction intersecting the width direction of the foundation packing can be further improved with a simple configuration. In the present invention, the term "circle" is a concept that includes not only a perfect circle and an ellipse but also an irregular circular shape.
Further, in the present invention, a plurality of inclined walls having various inclination angles, various C-planes or R-shapes, and reinforcing portions having different shapes may be used in combination.

According to the foundation packing of the present invention, since the foundation packing has a reinforcing portion, the strength against a load in the horizontal direction intersecting the width direction of the foundation packing is improved.

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 main part perspective view of the foundation packing shown in FIG. It is a side view of the main part of the foundation packing shown in FIG. It is a main part perspective view of the foundation packing which concerns on 1st modification. It is a side view of the main part of the foundation packing shown in FIG. It is a main part perspective view of the foundation packing which concerns on the 2nd modification. It is a side view of the main part of the foundation packing shown in FIG. It is a main part perspective view of the foundation packing which concerns on 3rd modification. It is a side view of the main part of the foundation packing shown in FIG. It is a side view of the main part of the foundation packing which concerns on 4th modification.

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 plurality of foundation packings 10, and a wooden foundation 2. The plurality of foundation packings 10 extend long along the extending direction of the foundation 1, and are arranged on the foundation 1 in connection with the longitudinal direction (one direction) A thereof. The foundation 2 is arranged on the foundation packing 10 so as to sandwich the plurality of foundation packings 10 with the foundation 1, and is formed long in the longitudinal 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 plurality of foundation packings 10 are fixed on the rising portion 1b by anchor bolts, square washers and nuts (both not shown) planted in the foundation 1.

The foundation packing 10 usually has a thickness of 10 to 30 mm in the vertical direction C. The width is 70 to 200 mm, and is determined according to the width of the base 2. The length in the longitudinal 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 is made of synthetic resin. In the present embodiment, a polypropylene resin containing a filler is used, but the present invention is not particularly limited, and it may be composed of another synthetic resin.

As shown in FIGS. 2 and 3, the foundation packing 10 has a plurality of side walls 11, an upper wall 12 connecting the upper ends of the plurality of side walls 11, and a lower wall 13 connecting the lower ends of the plurality of side walls 11. .. The upper wall 12 and the lower wall 13 have a rectangular flat shape that is long in the longitudinal direction A. The plurality of side walls 11 are arranged apart from each other along the longitudinal direction A, and extend in the width direction B orthogonal to the longitudinal direction A and the vertical direction C. Further, the plurality of side walls 11 are arranged upright in the vertical direction C.

Further, the foundation packing 10 is formed with a plurality of ventilation holes 15 extending in the width direction B (penetrating from the outer surface or the inner side surface to the anchor bolt holes 20 or from the outer surface to the inner side surface). Each ventilation hole 15 is formed in a region surrounded by two side walls 11 adjacent to each other in the longitudinal direction A, an upper wall 12, and a lower wall 13. That is, the plurality of ventilation holes 15 are arranged side by side in the longitudinal direction A.

An inclined wall 16 (reinforcing portion) is formed in each ventilation hole 15. The inclined wall 16 is formed so as to connect the upper portion of one side wall 11 of the two side walls 11 adjacent to the longitudinal direction A and the lower portion of the other side wall 11. The plurality of inclined walls 16 are arranged so that the two inclined walls 16 adjacent to the longitudinal direction A are line-symmetric with respect to the center line along the vertical direction C of the side wall 11 between the two inclined walls 16. .. Further, the inclined wall 16 extends along the width direction B. By forming such a slanted wall 16 in the ventilation hole 15, the strength against a load in the horizontal direction intersecting the width direction B of the foundation packing 10 is improved. That is, even if a relatively large load in the horizontal direction intersecting the width direction B is applied to the foundation packing 10, the inclined wall 16 suppresses the collapse of the side wall 11.

Further, a plurality of reinforcing portions 17 are formed on the foundation packing 10. These reinforcing portions 17 are also formed in the ventilation holes 15. As shown in FIG. 3, the reinforcing portion 17 is integrally formed on the upper portion or the lower portion to which the inclined wall 16 of the side wall 11 is not connected. More specifically, the reinforcing portion 17 formed on the upper portion of the side wall 11 (reinforcing portion 17 on the upper left in FIG. 3) is such that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the upper wall 12. It is formed so that the corner portion between the side wall 11 and the upper wall 12 has a C-plane shape. On the other hand, the reinforcing portion 17 (reinforcing portion 17 at the lower right in FIG. 3) formed in the lower part of the side wall 11 is formed so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the lower wall 13. The corners of the side wall 11 and the lower wall 13 are formed so as to have a C-plane shape. By such a reinforcing portion 17, the corner portions of the side wall 11 and the upper wall 12 and the lower wall 13 are formed so as to have a C-plane shape, so that the load in the horizontal direction intersecting the width direction B of the foundation packing 10. Can be improved with a simple configuration.

As shown in FIG. 2, the foundation packing 10 is formed with a plurality of anchor bolt holes 20 penetrating in the vertical direction C for passing the anchor bolts. A plurality of anchor bolt holes 20 are formed along the longitudinal direction A, and have a rectangular planar shape. In the side wall 11, the inclined wall 16, and the reinforcing portion 17, the extension in the width direction B is divided by the formation of the anchor bolt holes 20, but in the portion where the anchor bolt holes 20 are not formed, the extension is divided. It extends continuously in the width direction B.

As described above, according to the foundation packing 10 of the present embodiment, since the inclined wall 16 as a reinforcing portion is formed in the ventilation hole 15, the strength against the load in the horizontal direction intersecting in the width direction is simple. It can be improved by the configuration. As a result, even if a relatively large load in the horizontal direction intersecting the width direction B is applied to the foundation packing 10, the inclined wall 16 suppresses the collapse of the side wall 11.

The inclined wall 16 does not have to be formed long along the width direction B. That is, the inclined wall 16 may be arranged in a part of the ventilation hole 15 in the width direction B as long as the upper portion and the lower portion of the two adjacent side walls 11 can be connected. Further, in the ventilation hole 15, a plurality of inclined walls 16 may be arranged in the width direction B.

Subsequently, a first modification of the foundation packing will be described below. As shown in FIGS. 4 and 5, the foundation packing 110 in the first modification is configured by providing a plurality of inclined walls 116 in place of the reinforcing portion 17 of the foundation packing 10 described above, and other than this. It has the same configuration as the foundation packing 10 described above. The same configuration as the basic packing 10 described above is indicated by the same reference numerals, and the description thereof will be omitted.

As shown in FIG. 5, the inclined wall 116 is formed on the upper or lower portion of one of the two side walls 11 adjacent to each other in the longitudinal direction A to which the inclined wall 16 is not connected and the other side wall 11. The inclined wall 16 is formed so as to connect the lower part or the upper part which is not connected. The plurality of inclined walls 116 are also arranged so that the two inclined walls 116 adjacent to the longitudinal direction A are line-symmetric with respect to the center line along the vertical direction C of the side wall 11 between the two inclined walls 116. .. Further, the inclined wall 116 extends along the width direction B. The inclined wall 116 is formed in the ventilation hole 15 so as to intersect with the inclined wall 16. With such inclined walls 16, 116, the strength of the foundation packing 110 with respect to the load in the horizontal direction intersecting the width direction B is further improved.

The slanted wall 116 in this modification may not be formed long along the width direction B. That is, the inclined wall 116 may be arranged in a part of the ventilation hole 15 in the width direction B as long as the upper portion and the lower portion of the two adjacent side walls 11 can be connected. Further, in the ventilation hole 15, a plurality of inclined walls 116 may be arranged in the width direction B.

Subsequently, a second modification of the foundation packing will be described below. In the foundation packing 210 in the second modification, as shown in FIGS. 6 and 7, the inclined wall 16 and the lower wall 13 of the foundation packing 10 described above are not formed, and the plurality of side walls 11 and the upper wall 12 are formed. And a plurality of reinforcing portions 217. In the foundation packing 210 of this modified example, ventilation holes 215 are formed in each of the regions surrounded by the two side walls 11 adjacent to each other in the longitudinal direction A and the upper wall 12. The plurality of ventilation holes 215 are arranged side by side in the longitudinal direction A. The same configuration as the basic packing 10 described above is indicated by the same reference numerals, and the description thereof will be omitted.

As shown in FIG. 7, the plurality of reinforcing portions 217 are formed in the ventilation holes 215. These reinforcing portions 217 have substantially the same configuration as the reinforcing portion 17 of the foundation packing 10 described above. That is, the reinforcing portion 217 extends along the width direction B and is integrally formed on the upper portion of the side wall 11 as shown in FIG. 7. More specifically, the reinforcing portion 217 is formed so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the upper wall 12, and the corner portion between the side wall 11 and the upper wall 12 has a C-plane shape. It is formed so as to be. By forming the corners of the side wall 11 and the upper wall 12 in a C-plane shape by such a reinforcing portion 217, the strength against a load in the horizontal direction intersecting the width direction B of the foundation packing 210 can be easily increased. It can be improved with various configurations.

The corners of the side wall 11 and the upper wall 12 in this modification may be formed by the reinforcing portion 217 in an R shape instead of a C surface shape. In short, the reinforcing portion 217 may be integrally formed with the side wall 11 so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the upper wall 12. As a result, the strength of the foundation packing 210 against a load in the horizontal direction intersecting the width direction B can be improved with a simple configuration. Further, the reinforcing portion 217 does not have to be formed long along the width direction B. That is, the reinforcing portion 217 may be arranged in a part of the ventilation hole 215 in the width direction B. Further, in the ventilation hole 215, a plurality of reinforcing portions 217 may be arranged as reinforcing ribs in the width direction B.

Subsequently, a third modification of the foundation packing will be described below. As shown in FIGS. 8 and 9, the foundation packing 310 in the third modification is configured by providing a reinforcing portion 317 in place of the inclined wall 16 and the reinforcing portion 17 of the foundation packing 10 described above. In the foundation packing 310 of this modification, ventilation holes 315 are formed in each of the two side walls 11 adjacent to each other in the longitudinal direction A and the area surrounded by the upper wall 12 and the lower wall 13. The plurality of ventilation holes 315 are arranged side by side in the longitudinal direction A. The same configuration as the basic packing 10 described above is indicated by the same reference numerals, and the description thereof will be omitted.

As shown in FIG. 9, a plurality of reinforcing portions 317 are formed on the foundation packing 310. These reinforcing portions 317 are formed at the four corners in each ventilation hole 315. The reinforcing portion 317 extends along the width direction B and is integrally formed on the upper portion and the lower portion of the side wall 11 as shown in FIG. More specifically, the reinforcing portion 317 formed on the upper portion of the side wall 11 is formed so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the upper wall 12, and the side wall 11 and the upper wall 12 are formed. The corners with and are formed to have an R shape. The reinforcing portion 317 formed in the lower portion of the side wall 11 is formed so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the lower wall 13, and the corner portion between the side wall 11 and the lower wall 13 is formed. It is formed so as to have an R shape. That is, the four reinforcing portions 317 formed in the ventilation hole 315 are formed so that the opening shape of the ventilation hole 315 is circular. By forming the opening shape of the ventilation hole 315 to be a perfect circle (circular shape) by such a reinforcing portion 317, the strength against a load in the horizontal direction intersecting the width direction B of the foundation packing 310 is simply configured. Can be further improved with.

The reinforcing portion 317 in this modification may be formed so that the opening shape of the ventilation hole 315 is elliptical (circular). In this case as well, the same effect can be obtained. In short, the reinforcing portion 317 formed on the upper portion of the side wall 11 may be integrally formed on the side wall 11 so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the upper wall 12. The reinforcing portion 317 formed in the lower portion of the side wall 11 may be integrally formed on the side wall 11 so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the lower wall 13. As a result, the strength of the foundation packing 310 against a load in the horizontal direction intersecting the width direction B can be improved with a simple configuration. Further, the reinforcing portion 317 does not have to be formed long along the width direction B. That is, the reinforcing portion 317 may be arranged in a part of the ventilation hole 315 in the width direction B. Further, in the ventilation hole 315, a plurality of reinforcing portions 317 may be arranged as reinforcing ribs in the width direction B.

Further, in the foundation packing 310 in this modification, holes 311 penetrating in the width direction B are formed in the upper portion and the lower portion of the side wall 11. As a result, even if the foundation packing 310 is manufactured by injection molding, the drying time of the upper part and the lower part of the side wall 11 in which the thickness in the longitudinal direction A is thickened by the reinforcing portion 317 is shortened. Therefore, the quality of the dimensions and shape of the side wall 11 is improved. Therefore, the quality of the foundation packing 310 itself is improved.

Subsequently, a fourth modification of the foundation packing will be described below. As shown in FIG. 10, the foundation packing 410 in the fourth modification has the same configuration as the foundation packing 310 described above, except that the opening shape of the ventilation hole 415 is formed in a hexagonal shape. ing. The same configuration as the basic packing 310 described above is indicated by the same reference numerals, and the description thereof will be omitted.

In the foundation packing 410 of this modified example, ventilation holes 415 are formed in each of the two side walls 11 adjacent to each other in the longitudinal direction A and the area surrounded by the upper wall 12 and the lower wall 13. The plurality of ventilation holes 415 are arranged side by side in the longitudinal direction A.

A plurality of reinforcing portions 417 are formed on the foundation packing 410. These reinforcing portions 417 are also formed at the four corners in each ventilation hole 415. The reinforcing portion 417 extends along the width direction B, and is integrally formed on the upper portion and the lower portion of the side wall 11 as shown in FIG. More specifically, the reinforcing portion 417 formed on the upper portion of the side wall 11 is formed so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the upper wall 12, and the side wall 11 and the upper wall 12 are formed. The corners with and are formed to have a C-plane shape. The reinforcing portion 417 formed in the lower portion of the side wall 11 is formed so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the lower wall 13, and the corner portion between the side wall 11 and the lower wall 13 is formed. It is formed so as to have a C-plane shape. That is, the four reinforcing portions 417 formed in the ventilation hole 415 are formed so that the opening shape of the ventilation hole 415 is hexagonal. With such a reinforcing portion 417, similarly to the above-mentioned foundation packing 310, the strength against a load in the horizontal direction intersecting the width direction B of the foundation packing 410 can be further improved with a simple configuration.

The reinforcing portion 417 in this modification may be formed so that the opening shape of the ventilation hole 415 is a triangle, a pentagon, an octagon, or the like. In this case as well, the same effect can be obtained. In short, the reinforcing portion 417 formed on the upper portion of the side wall 11 may be integrally formed on the side wall 11 so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the upper wall 12. Further, the reinforcing portion 417 formed in the lower portion of the side wall 11 may be integrally formed on the side wall 11 so that the thickness of the side wall 11 in the longitudinal direction A increases as it approaches the lower wall 13. As a result, the strength of the foundation packing 410 against a load in the horizontal direction intersecting the width direction B can be improved with a simple configuration. Further, the reinforcing portion 417 does not have to be formed long along the width direction B. That is, the reinforcing portion 417 may be arranged in a part of the ventilation hole 415 in the width direction B. Further, in the ventilation hole 415, a plurality of reinforcing portions 417 may be arranged as reinforcing ribs in the width direction B.

Further, the foundation packing 410 in this modification also has a hole 411 similar to the hole 311 described above. As a result, the same effect as that of the foundation packing 310 can be obtained.

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 inclined walls 16 and 116 as the reinforcing portions may be horizontal horizontal walls. Further, all the inclined walls 16 adjacent to the longitudinal direction A may be arranged so as to be inclined in the same manner. Further, a first slanted wall assembly composed of a plurality of slanted walls 16 arranged continuously in the longitudinal direction A and similarly inclined, and adjacent to the first slanted wall assembly and continuously arranged in the longitudinal direction A. It has a second sloping wall assembly composed of a plurality of sloping walls 16 arranged and similarly inclined, and the sloping wall 16 constituting the first sloping wall assembly and the sloping wall 16 constituting the second sloping wall assembly. May be arranged line-symmetrically with respect to the center line of the side wall between the first inclined wall assembly and the second inclined wall assembly. Further, it is sufficient that the inclined wall inclined with respect to the vertical direction C is arranged in the ventilation hole 15, and the inclination of the inclined wall arranged in each ventilation hole 15 may be different.

Further, the reinforcing portions 17, 217, 317, and 417 are formed so that the corner portions have a C-plane shape, an R shape, or the like, but the reinforcing portion itself has a quadrangle, a circle, or the like, and the corner portions. May be strengthened. In short, the foundation packing may be provided with a reinforcing portion in the ventilation hole for improving the strength against a load in the horizontal direction intersecting the width direction B.

1 Foundation 2 Foundation 10,110,210,310,410 Foundation packing 11 Side wall 12 Upper wall 13 Lower wall 16,116 Slanted wall (reinforcement part)
17,217,317,417 Reinforcement part A Longitudinal direction B Width direction

Claims (6)

A long-formed foundation packing made of synthetic resin that is connected and arranged between the foundation and the foundation in the extending direction of the foundation.
With multiple side walls that are separated from each other,
An upper wall connecting the upper ends of the plurality of side walls,
It is formed in a region surrounded by the two adjacent side walls and the upper wall, and has ventilation holes extending in the width direction.
A foundation packing characterized in that, in the ventilation hole, a reinforcing portion for improving the strength against a load in the horizontal direction intersecting the width direction is formed over the entire width direction . The foundation packing according to claim 1, wherein the reinforcing portion is composed of an inclined wall connecting the upper portion and the lower portion of the two adjacent side walls. The foundation packing according to claim 1, wherein the reinforcing portion is integrally formed with the side wall so that the thickness of the side wall increases as the wall approaches the upper wall. The foundation packing according to claim 3, wherein the reinforcing portion is formed so that a corner portion between the side wall and the upper wall has a C surface or an R shape. It further has a lower wall connecting the lower ends of the plurality of side walls.
The foundation packing according to claim 3, wherein the reinforcing portion is integrally formed with the side wall so that the thickness of the side wall increases as it approaches the lower wall. The foundation packing according to claim 5, wherein the reinforcing portion is formed so that the opening shape of the ventilation hole is circular.

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