JP3779253B2 - Ventilation spacer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a ventilation spacer used to form a ventilation gap between a foundation of a building such as a house and a concrete cloth foundation.
[0002]
[Prior art]
Regarding the ventilation spacer (the names thereof are various), Patent Document 1 discloses a basic support plate having an anchor bolt insertion hole formed of a plastic composite material and having play in the longitudinal direction. In addition, when the anchor bolt insertion hole is disposed at an asymmetrical position in the longitudinal direction and the direction is reversed, a base spacer made of synthetic resin is disclosed in which the longitudinal position of the insertion hole is shifted. A base plate made of synthetic resin having a cross-shaped anchor bolt insertion hole is disclosed, and a metal base pad provided with a convex portion for forming a gap is disclosed in Patent Document 4, and Patent Document 5 discloses A metal base support device having a deck plate structure that repeats irregularities in a wave shape is disclosed, and Patent Document 6 discloses a deck plate structure that repeats the same irregularities in a wave shape. Such as a metal ducting spacer so as to function for formation is disclosed, it is already known a wide variety of examples. Regarding the anchor bolt from the fabric foundation related to the ventilation spacer, Non-Patent Document 1 discloses the general specifications thereof.
[0003]
[Patent Document 1]
Japanese Patent Publication No. 55-40734
[Patent Document 2]
Japanese Patent Laid-Open No. 10-292501
[Patent Document 3]
JP-A-10-237877
[Patent Document 4]
JP-A-9-296455
[Patent Document 5]
Japanese Utility Model Publication No.59-150805
[Patent Document 6]
Japanese Patent Laid-Open No. 2000-240177
[Non-Patent Document 1]
"Housing construction common specifications" published by the Housing Finance Promotion Association 2001 version
[0004]
[Problems to be solved by the invention]
An anchor bolt rises from the concrete cloth foundation, and a base and a pillar are fixed to the cloth foundation through the anchor bolt. In such a construction method of interposing a ventilation spacer between the fabric foundation and the foundation to form a ventilation gap, thereby ensuring ventilation under the floor of the building or promoting drying of the foundation, A certain condition is imposed on the installation position of the ventilation spacer. In other words, it is necessary to install a ventilation spacer under the anchor bolt rise position, under the column where the building load is concentrated (through column or column) and adjacent to it, and under the base joint or base joint. In particular, for a ventilation spacer installed under a pillar, it is required to minimize the installation position error.
[0005]
On the other hand, the anchor bolt is also defined with respect to its rising position. As the provisions regarding ordinary houses, “Housing Construction Common Specifications” (Non-Patent Document 1) issued by the Housing Finance Promotion Association, which is regarded as an index of specifications concerning construction work of ordinary houses, is the most common. The 2001 version has the following provisions. First, as for the types of anchor bolts raised from the fabric foundation, M16 anchor bolts for anchoring the base and M12 anchor bolts for fastening the base are fixed to the fabric foundation through hole-down hardware. There is. And as a position where each must be raised, the M16 hole down anchor bolt used to fix the through pillar to the fabric foundation through the hole down hardware is near the side of the through pillar, and the M12 anchor bolt for fastening the base is the pillar. (Through pillar and column) 200mm inside or outside from the center, or the column is fixed to the base with 10KN hole-down hardware, and when anchor bolts are raised from the bottom of the base instead of the fabric foundation Positions within and outside 150 mm from the core of the 10KN hole down anchor bolt are defined. In addition, although it was abolished in the 2001 version, there was a provision that the M12 anchor bolt for fastening the base should be raised before and after 120mm from the center of the pillar (mainly through pillar). There are many cases in which they are still employed. In some cases, a method of embedding the M16 anchor bolt used to fix the through column to the fabric foundation in the center of the through column is used. In this case, the M16 anchor bolt is raised at the center of the through column. Furthermore, it is also required that M12 anchor bolts for intermediate base fastening be launched at regular intervals between the columns.
[0006]
As described above, each of the ventilation spacer and the anchor bolt has a condition regarding the position. From such conditions regarding the position, the anchor bolt is basically in a state of passing through the ventilation spacer, and for this purpose, the ventilation spacer is provided with an insertion hole for passing the anchor bolt. As for the ventilation spacer, it is fundamental that this anchor bolt penetrates the ventilation spacer. As a result, the insertion hole can accommodate any of the various types of anchor bolts rising at various positions as described above. Is desirable. That is, it is desirable that any type of anchor bolt can be easily inserted into the insertion hole in a state where the ventilation spacer is installed at a predetermined position.
[0007]
However, in the conventional ventilation spacer, sufficient consideration has not always been given to the variety of types of anchor bolts as described above. In other words, in the conventional ventilation spacer, the insertion hole is usually compatible only with a specific type of anchor bolt, and for the anchor bolt of the type that the insertion hole is not compatible, the ventilation spacer is not moved from its original position. The installation position condition cannot be satisfied when the installation is performed with the ventilation spacer shifted from the original position, because it must be handled by shifting the installation or processing the ventilation spacer on-site. In view of this, and when the on-site processing of the ventilation spacer, there remains a problem in that the cost becomes high.
[0008]
Regarding the relationship between the insertion hole and the anchor bolt in the ventilation spacer, there is an important problem in addition to the compatibility with the anchor bolt type as described above. It is a problem of misalignment regarding the rising position of the anchor bolt. There are design misalignment and construction error in misalignment. The design position deviation is a deviation from the standard specification position when the anchor bolt is raised by deviating from the standard specification position as described above for reasons of design. For example, an M16 hole down anchor bolt that stands up in the vicinity of the through-column side is a case where the Z mark hole down hardware S-HD25, which is a standard product of the Japan Housing Wooden Construction and Technology Center, is used as the hole down hardware. The reference position is 31 mm from the side surface of the through pillar, and there are many cases where this is set to 35 mm or 40 mm, for example. In addition, anchor bolts are basically raised on the center line of the fabric foundation, but in the case of a method of providing a brace, in order to avoid interference with the brace, 15-20 mm outward or inward from the center line. There are many cases where it is decided to stand up by some degree. In addition, the M12 anchor bolt for fastening the base is also shifted by about 10 mm from its standard rising position (position inside and outside 200 mm from the center of the pillar, position inside and outside 150 mm from the core of the 10KN hole down anchor bolt, position inside and outside 120 mm from the center of the through pillar). Often launched.
[0009]
As described above, the design position deviation is a deviation from the standard position expected in the design, but the construction error is a position error generated in the actual construction stage with respect to the design position. This construction error is usually inevitable to occur around 3 mm, and there are many cases where it is more than that.
[0010]
Therefore, the insertion hole of the ventilation spacer is required not only to cope with various types of anchor bolts as described above, but also to allow this positional deviation. In order to allow the positional displacement of the anchor bolt, it is conceivable that a loose hole is formed by giving play to the insertion hole, and the conventional ventilation spacer disclosed in the above-mentioned patent document does so. For example, Patent Documents 1 to 3 are examples. However, these conventional ventilation spacers have a narrow tolerance for displacement. In particular, as described above, it is often the case that the anchor bolt is shifted from the center line of the fabric foundation to the outside or the inside by about 15 to 20 mm, so that the anchor bolt is orthogonal to the lateral direction, that is, the length direction of the fabric foundation or base. The permissible range in the direction is required to allow such a large displacement of 15 to 20 mm, but it has been difficult to cope with this with a conventional ventilation spacer.
[0011]
Here, if the play of the insertion hole is sufficiently increased, the allowable range of misalignment can be widened. However, the ventilation spacer must have a certain contact area with the fabric foundation or foundation, and it is necessary to provide a groove that provides a ventilation gap with a certain area. There is a limit to the size that can be achieved. In other words, it is practically difficult to widen the allowable range for positional deviation by increasing the play of the insertion hole. For this reason, in the foundation spacer disclosed in Patent Document 2, the anchor bolt insertion hole is arranged at an asymmetrical position in the longitudinal direction, and the longitudinal position of the insertion hole is shifted by reversing the direction of the foundation spacer. The allowable range can be expanded. However, this structure can cope only with the positional deviation of the anchor bolt in the longitudinal direction of the fabric foundation, and the allowable range cannot be expanded for the more serious positional deviation in the width direction.
[0014]
The present invention has been made in the background as described above, and an object of the present invention is to improve the compatibility of the insertion hole with various types of anchor bolts for the ventilation spacer.
[0015]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is used to interpose between a fabric foundation and a foundation of a building to form a gap for ventilation, and has a width approximately equal to the width of the foundation as a whole. It is formed in a rectangular shape having a length larger than the width, and the interposition is made at a predetermined position to support the load of the building between the fabric foundation and the base. Various types of anchor bolts that are formed so that the upper and lower sides are functionally symmetrical so that they can be used upside down and rise from the fabric foundation. Are inserted in the predetermined arrangement state, and the plurality of insertion holes, as the type of the anchor bolt, are raised to a position near the side surface of the through pillar. 6 hole down anchor bolts, M16 anchor bolts that stand up embedded in through pillars, M12 anchor bolts near the pillars that rise up to a predetermined distance from the center of the pillars, and stand at regular intervals between the pillars An insertion hole (H1) used for insertion of an M16 hole down anchor bolt raised to a position in the vicinity of the through pillar side surface and an M12 anchor bolt in the vicinity of the pillar under the condition that there is at least an intermediate M12 anchor bolt to be raised; An insertion hole (H2) used for insertion of an intermediate M12 anchor bolt; and an insertion hole (H3) used for insertion of an M16 anchor bolt that stands up in an embedded state of the through pillar and an M12 anchor bolt near the pillar At least included, the insertion hole (H1) in the square shape It is provided at a position near one end face in the length direction, play is provided in both the length direction and the width direction, and the insertion hole (H2) is the length in the rectangular shape. Is provided at an intermediate position in the vertical direction and has play only in the width direction, and the insertion hole (H3) is provided at a position near the other end surface in the length direction in the rectangular shape. Both the width direction and the width direction have play, and each insertion hole is provided so as to be deviated with respect to the center line in the width direction of the quadrangular shape.
[0016]
Further, in the present invention, for the ventilation spacer as described above, the distance from the one end surface at the installation position of the insertion hole (H1) and the distance from the other end surface at the installation position of the insertion hole (H3) are set. It is supposed to be different.
[0017]
Moreover, in this invention, about the ventilation spacers as described above, a steel plate is used as a material, and a corrugated shape that is a continuous repetition of unevenness in which horizontal and vertical surface portions are alternately arranged is formed.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below. 1 to 3 show the structure of a ventilation spacer according to the first embodiment of the present invention, and typical examples of the use state are shown in FIGS. As can be seen in FIGS. 1 to 3, the ventilation spacer 1 in this embodiment is a continuous repetition of unevenness as a whole by alternately arranging the horizontal surface portion 2 and the vertical surface portion 3 (FIG. 2). It is formed to have a quadrangular shape based on the wave shape, specifically, a rectangular shape. That is, the vertical surface portion 3 and the horizontal surface portion 2 are formed to extend in a band shape in the width direction so as to be orthogonal to each other, and the vertical surface portion 3 and the horizontal surface portion 2 are connected to the vertical surface portion 3 and its lower side. The concave portion 4 is formed by the above, and the convex portion 5 is formed by the vertical surface portion 3 and the horizontal surface portion 2 connected to the upper side thereof, so that the concave portion 4 and the convex portion 5 are formed in a square shape with a deck plate structure that is alternately and continuously repeated Is formed. Here, as shown in FIG. 2, the ventilation spacer 1 is functionally symmetrical in the vertical direction, so that it can be used by inverting the vertical direction. This is important for expanding the allowable range of insertion with respect to the displacement of the anchor bolt described later. In addition, when the top and bottom are reversed, the concave portion 4 and the convex portion 5 have an opposite relationship. That is, the portion that was a concave portion becomes a convex portion, and the portion that was a convex portion becomes a concave portion.
[0022]
The overall size of the ventilation spacer 1 is usually about 85 to 145 mm in width, about 90 to 300 mm in length, about 8 to 15 mm in height, and about 1 to 2 mm in thickness. The thin height is 8 mm, the width is 115 mm, the length is 173 mm, and the material steel plate is 1 mm thick.
[0023]
The ventilation spacer 1 includes As main insertion holes, an insertion hole H1 (insertion hole 6a), an insertion hole H2 (insertion hole 6c), and an insertion hole H3 (insertion hole 6d) are provided, and an insertion hole 6b and an insertion hole 6e are provided. In addition, a non-slip protrusion 7 is provided, and a reinforcing bead 8 is formed at a corner portion formed by the horizontal surface portion 2 and the vertical surface portion 3. Details of these insertion holes 6 will be described later. The deck plate structure as described above and each insertion hole 6 and the like can be obtained, for example, by pressing a steel plate such as a stainless steel plate with a progressive press machine or a roll forming machine.
[0024]
Such a ventilation spacer 1 is used as shown in FIG. That is, it is interposed between the fabric foundation 10 and the base 11 of the building, and a ventilation gap corresponding to the height is formed between the fabric foundation 10 and the base 11. There are certain conditions for the intervention installation position as described above. Specifically, the position where the anchor bolt 12 is raised, the bottom of the through column 13 and the column 14, and the bottom of the base joint and base joint (not shown) are the necessary installation positions of the ventilation spacer 1. Although not shown, the ventilation spacers 1 are installed at regular intervals of, for example, about 50 cm. In particular, with respect to the ventilation spacer 1 installed under the through pillar 13 and the bowl pillar 14, it is required to make the installation position error as small as possible.
[0025]
As described above, the ventilation spacer 1 according to the present embodiment installed between the fabric foundation 10 and the base 11 has the deck plate structure as described above, so that it is possible to reliably prevent intrusion of wrinkles and the like. Even at such heights, the necessary ventilation area can be secured. The non-patent document 1 has a specification that “a ventilation area of 300 cm 2 or more is ensured in the range of the base 4 m”. In this calculation example, the ventilation spacer 1 having a deck plate structure has an opening ratio of 84%. For example, if nine spacers are installed in 4 m, the ventilation spacer 1 is installed. The opening area in the portion is 173 mm × 8 mm × 9 pieces × 84% = 10463 mm 2. On the other hand, the opening area of the part where the ventilation spacer 1 is not installed is [4000 mm− (173 mm × 9)] × 8 mm = 19544 mm 2. The total of both is 30007 mm2, and the above specifications can be satisfied even at the thinnest height of 8 mm.
[0026]
The five types of insertion holes 6a, 6b, 6c, 6d, and 6e in the ventilation spacer 1 are for passing the anchor bolts 12, some examples of which are shown in FIG. Can be used properly. As seen in the examples of FIGS. 6 to 8, the insertion hole 6a is mainly used for the M16 hole down anchor bolt 12g having a reference position in the vicinity of the through pillar side surface, that is, 31 mm from the through pillar side face. As can be seen in the example, the M12 anchor bolt 12h having a reference position of 200 mm from the center of the column is also used. That is, the insertion hole 6a is also used as an M16 hole down anchor bolt / 200 mm reference position M12 anchor bolt. As a specific example in FIGS. 6 to 8, insertion of an M16 hole down anchor bolt 12g having a reference position of 31 mm from the side surface of the through column when the ventilation spacer 1 is installed in a predetermined positioning state under the through column. (Example of the upper side of FIG. 6 and the lower side of FIG. 7). Further, in the state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to another ventilation spacer 1 installed under the through pillar, the M16 hole down anchor bolt 12g having a reference position of 31 mm from the side of the through pillar is provided. It is used for insertion (examples of the upper side in FIG. 7 and the upper side in FIG. 8). Also, in the state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to the other ventilation spacer 1 installed under the column, an M12 anchor bolt 12h having a reference position of 200 mm from the center of the column. (In the middle example in FIG. 8).
[0027]
The insertion hole 6a is formed in a square of about 40 mm square with a wide play in both the length direction and the width direction of the ventilation spacer 1. The installation position is such that the upper side in FIG. 1 is located 7 mm from the end face of the ventilation spacer 1 and the center thereof is the vertical center line of the rectangular shape of the ventilation spacer 1 in the width direction. It is located 10 mm from Sv. The fact that the center of the insertion hole 6a is located 10 mm from the vertical center line Sv of the ventilation spacer 1 means that the insertion hole 6a is provided 10 mm away from the vertical center line Sv. By providing the insertion hole 6a so as to be deviated from the vertical center line Sv in this way, the allowable range for the displacement of the anchor bolt in the width direction of the fabric foundation can be expanded. In this example, the 40 mm square is allowed to be deviated by 10 mm. The range can be increased by a factor of 1.5. That is, since the ventilation spacer 1 is vertically symmetrical as described above, the ventilation spacer 1 can be used upside down. By inverting the top and bottom, in the state of FIG. 1, the insertion hole 6a can be positioned on the left side or the right side of the vertical center line Sv, thereby effectively reducing the hole size of the insertion hole 6a. Therefore, the tolerance for the displacement of the anchor bolt in the width direction of the fabric foundation can be expanded. In addition to the large play in the width direction of the fabric foundation, the insertion hole 6a has a size in the longitudinal direction of the fabric foundation of 40 mm. For example, the thickness of the insertion hole 6a is 2.5 mm. Double and play is made big. This is related to using the M16 hole down anchor bolt 12g in the vicinity of the side surface of the through column while passing under the through column. That is, the positioning of the ventilation spacer 1 under the through column requires accuracy. That is, it is not possible to shift the installation position of the ventilation spacer 1 according to the position of the anchor bolt. Under this condition, the size of the fabric foundation in the longitudinal direction is set to 40 mm in order to allow a large displacement of 10 mm or more from the reference position of the anchor bolt 12g in the longitudinal direction of the fabric foundation as described above. It is a big one.
[0028]
As seen in the lower example of FIG. 6, the insertion hole 6 b is mainly used for the M12 anchor bolt 12 i having a reference position of 120 mm from the center of the through column. That is, the insertion hole 6b is for a 120 mm reference position M12 anchor bolt. Specifically, in the state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to another ventilation spacer 1 installed under the through pillar, the M12 anchor bolt having a reference position of 120 mm from the through pillar center. Used to pass 12i. The insertion hole 6b is formed in a circular shape having a diameter of 19 mm, and is provided on the vertical center line Sv of the ventilation spacer 1 at a position close to the insertion hole 6a. Therefore, there is little play about this insertion hole 6b. The reason why the play is reduced in this way is mainly due to the low use frequency of the insertion holes 6b. In other words, the play of the insertion hole 6b, which is not frequently used, is increased so that the strength of the ventilation spacer 1 is not reduced.
[0029]
As shown in the upper example of FIG. 6 and the lower side of FIG. 7, the insertion hole 6 c has an M12 anchor bolt 12 h whose reference position is 200 mm from the center of the column (through column or column), and the middle of FIG. 6. As shown in the example of FIG. 5, it is mainly used for passing an intermediate base fastening M12 anchor bolt 12j that is set up at regular intervals between the pillars. That is, the insertion hole 6c is for a 200 mm reference position and an intermediate M12 anchor bolt. Specifically, in the state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to another ventilation spacer 1 installed under the through pillar, the M12 anchor bolt having a reference position of 200 mm from the through pillar center. It is used to pass 12h, and is used at the rising position of the intermediate base fastening M12 anchor bolt 12j to pass the M12 anchor bolt 12j.
[0030]
The insertion hole 6c is formed as a straight long hole having a width of 20 mm and a length of 40 mm, with both ends being semicircular. The installation position is a position that is offset by about 10 mm downward in the state of FIG. 1 from the lateral center line Sh that is the center line in the length direction of the ventilation spacer 1, and the direction is opposite, but the insertion hole 6a Similarly, it is deviated by 10 mm from the vertical center line Sv. It is the same as that of the insertion hole 6a that this deviation expands the allowable range of displacement in the width direction of the anchor bolt. In the insertion hole 6c, a wide tolerance is given to the displacement in the width direction of the anchor bolt in this way, while a large play is given to the displacement of the anchor bolt in the longitudinal direction of the fabric foundation. Absent. Unlike the ventilation spacer under the pillar, the arrangement position of the ventilation spacer through which the M12 anchor bolt 12h with the reference position of 200 mm from the center of the pillar has a certain degree of freedom. The reason is that it is possible to cope with the positional deviation in the longitudinal direction. On the other hand, the displacement of the anchor bolt in the width direction cannot be dealt with by the arrangement of the ventilation spacers, so that the displacement can be nearly 20 mm on the left and right (40 mm in total) with respect to the center line of the fabric foundation described above. In order to be able to cope with the characteristics, the length is set to 40 mm, and the above deviation allows for 2.5 times as much as 60 mm.
[0031]
As shown in the examples of FIGS. 6 to 8, the insertion hole 6d includes an M16 anchor bolt 12k that rises in a state embedded in the through pillar, an M12 anchor bolt 12h having a reference position of 200 mm from the center of the pillar, M12 anchor bolt 12i having a reference position of 120 mm from the center, M12 anchor bolt 12m having a reference position of 150 mm from the core of the 10KN hole down anchor bolt, and four types of anchor bolts. That is, the insertion hole 6d is a multipurpose type according to the arrangement condition of the ventilation spacer. Specifically, as in the example on the lower side of FIG. 6, the M16 anchor bolt 12k rising at the center of the through pillar is passed through in the state where the ventilation spacer 1 is installed in a predetermined positioning state under the through pillar. It is done. Further, as in the examples on the upper side of each of FIGS. 6 to 8, in the state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to the other ventilation spacer 1 installed below the through pillar, Is used to pass the M12 anchor bolt 12h having a reference position of 200 mm from the base, and in particular, as shown in FIGS. 7 and 8, a predetermined positioning state adjacent to another ventilation spacer 1 installed under the through pillar In the state where the ventilation spacer 1 is installed, the M16 hole down anchor bolt 12g passing through the insertion hole 6a and in the vicinity of the column side surface may be passed, and the M12 anchor bolt 12h may be passed through the insertion hole 6d. Further, as in the middle example of FIG. 7 and the lower example of FIG. 8, the ventilation spacer 1 in a predetermined positioning state is adjacent to another ventilation spacer 1 installed under the pillar (mainly through pillar). Is used to pass the M12 anchor bolt 12i whose reference position is 120 mm from the center of the column. Further, as in the example on the lower side of FIG. 8, in the state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to the other ventilation spacer 1 installed under the pillar, the 10KN hole down anchor bolt It is used to pass the M12 anchor bolt 12m whose reference position is 150 mm from the core (not shown).
[0032]
The insertion hole 6d is formed as an L-shaped long hole with both ends semicircular, the width is 20 mm, and the length of each L-shaped length and width is 40 mm. The installation position is a position where the L-shaped vertical end is close to the insertion hole 6c in the state of FIG. 1, and the L-shaped horizontal center is deviated 10 mm from the vertical center line Sv in the same manner as the insertion hole 6a. ing. Thus, the insertion hole 6d is made into an L-shaped long hole because the installation position condition of the ventilation spacer 1 when the anchor bolt is passed through the insertion hole 6d and the misalignment characteristics of the various types of anchor bolts as described above. This is based on the necessary misalignment allowable range derived from. That is, an L-shaped elongated hole is obtained as a result of providing an intermediate positional deviation tolerance characteristic between the insertion hole 6a and the insertion hole 6c. In addition, about the insertion hole of this other use type, you may make it change the L-shaped vertical part in the insertion hole 6d into a horizontally long hole as shown by a dotted line in FIG.
[0033]
The insertion hole 6e is mainly used for the M12 anchor bolt 12i whose reference position is 120 mm from the center of the column (mainly through column), as in the example on the lower side of FIG. 6 and the upper side of FIG. This is a relatively special example, and the M12 anchor bolt 12i may be located at the boundary between the ventilation spacer 1 installed under the pillar and another ventilation spacer 1 installed adjacent thereto. Therefore, in this case, the insertion holes 6e of the respective ventilation spacers are combined and used for insertion of the M12 anchor bolt 12i. That is, the insertion hole 6e is for a 120 mm reference position M12 anchor bolt at the rising edge of the boundary position. Therefore, the insertion hole 6e is provided in a state in which the end surface of the ventilation spacer 1 is cut into a semicircle.
[0034]
The non-slip protrusion 7 is formed as a cylindrical protrusion having a height of about 1 mm with a sharpened tip by burring as shown in an enlarged view in FIG. Two are provided at an appropriate interval in 2. This anti-slip projection 7 functions to prevent the ventilation spacer from slipping and shifting in the event of an earthquake, etc., and works sharply by biting into the foundation or cloth foundation with its sharp tip, Very high anti-slip ability can be demonstrated. Further, since the anti-slip projection 7 formed by burring has a through-hole, it can also be used as a nail hole in the case where a ventilation spacer is previously nailed to a base by pre-cut processing at a factory, for example. Can be used.
[0035]
As shown in an enlarged view in FIG. 10, the bead 8 is formed so as to bulge inside the corner by forming a short line in a direction perpendicular to the corner of the horizontal surface portion 2 and the vertical surface portion 3. It functions to increase the compression resistance of the corner. In this embodiment, about two beads 8 each having a depth of about 5 mm are provided at appropriate intervals at each corner, and the improvement in compressive strength by this is about twice that of the case without beads. As a specific numerical example, as a result of a compression test on a ventilation spacer having a width of 100 mm, a length of 173 mm, a height of 8 mm, and a plate thickness of 1 mm, a strength value of 7.5 tons is obtained. This is about 13.6 times the average load of 550 kg applied to one ventilation spacer when used in a general detached house, and sufficient safety strength can be expected. Thus, by providing the bead 8, even if the thickness of the steel plate used for the material of the ventilation spacer 1 is about 1 mm, sufficient load resistance can be realized. As a result, it is possible to reduce the thickness of the steel sheet, improve the handleability in conveying the ventilation spacer 1, and reduce the cost.
[0036]
The above embodiment relates to a ventilation spacer having a deck plate structure made of a steel plate, but the configuration relating to the insertion hole of the present invention can also be applied to a ventilation spacer formed of, for example, a plastic material. In addition, when the ventilation spacer is formed of plastic material, it may not be possible to flip it upside down. In that case, when applying a configuration in which the insertion hole with play is deviated from the vertical center line, It is conceivable to prepare a ventilation spacer with the direction reversed, and use this according to the rising state of the anchor bolt.
[0037]
FIG. 11 shows the configuration of the insertion hole in the ventilation spacer according to the second embodiment. In this embodiment, the insertion hole 10a in which the insertion holes 6a, 6b, 6e in the first embodiment are integrated, the insertion hole 10b in which the insertion holes 6c, 6d in the first embodiment are integrated, and Three types of insertion holes of the same insertion hole 10c as in the first embodiment are provided. In these insertion holes 10a and 10b, the insertion hole 10a has a role of each of the insertion holes 6a, 6b, and 6e in the first embodiment, and the insertion hole 10b has a role of the insertion holes 6c and 6d in the first embodiment. ing. In FIG. 11, the horizontal plane portion, the anti-slip protrusion, and the bead are not shown, but these are the same as those in the first embodiment.
[0038]
【The invention's effect】
As described above, according to the present invention, compatibility with various types of anchor bolts can be improved, and the ventilation spacer can be more easily installed in a required installation state. . Further, according to the present invention, it is possible to widen an allowable range for the displacement of the anchor bolt of the insertion hole in the ventilation spacer, and it is possible to more easily install the ventilation spacer in an appropriate installation state required. Further, according to the present invention, the anti-slip property can be enhanced for the ventilation spacer having a deck plate structure made of a steel plate, and the function can be more reliably exhibited over a long period of time. In addition, according to the present invention, it is possible to increase the compressive strength of the ventilation spacer having a deck plate structure made of a steel plate, thereby reducing the thickness of the steel plate and reducing the weight. This makes it possible to improve the handleability in transporting the spacer for use and to reduce the cost.
[Brief description of the drawings]
FIG. 1 is a plan view of a ventilation spacer according to a first embodiment of the present invention.
FIG. 2 is a side view of the ventilation spacer of FIG. 1 as viewed from the left side.
3 is a side view of the ventilation spacer of FIG. 1 as viewed from below.
4 is a partial structural diagram of a building showing an example of a usage state of the ventilation spacer of FIG. 1. FIG.
FIG. 5 is a view showing a typical arrangement example of the ventilation spacer of FIG. 1 on the fabric foundation.
6 is an enlarged view of a portion A in FIG.
7 is an enlarged view of a portion B in FIG.
FIG. 8 is an enlarged view of a portion C in FIG.
FIG. 9 is an enlarged cross-sectional view of a non-slip protrusion portion.
FIG. 10 is an enlarged perspective view of a bead portion.
FIG. 11 is a diagram showing a configuration of an insertion hole in a ventilation spacer according to a second embodiment.
[Explanation of symbols]
1 Ventilation spacer
2 Horizontal plane
3 Vertical section
4 recess
5 Convex
6 Insertion hole
7 Anti-slip protrusion
8 beads
10 Fabric foundation
11 foundation
12 Anchor bolt
12g M16 hole down anchor bolt raised through the side of the pillar
12h M12 anchor bolt raised within a predetermined distance from the center of the pillar
12i Middle M12 anchor bolt
Sv Center line in the width direction
Sh Centerline in the length direction

Claims (3)

It is used to interpose between the fabric foundation and the foundation of the building to form a gap for ventilation, and as a whole, has the same width as the foundation and has a length larger than the width. In the ventilation spacer that is formed in a square shape, and is arranged at a predetermined position to support the load of the building between the fabric foundation and the base, etc.
In order to pass various types of anchor bolts standing up from the fabric foundation in the predetermined arrangement state so that the upper and lower sides are functionally symmetrical so that they can be used upside down. A plurality of insertion holes are provided, and in the plurality of insertion holes, as an anchor bolt type, an M16 hole down anchor bolt that is raised in the vicinity of the through pillar side surface is embedded in the through pillar. Under the condition that there are at least a M16 anchor bolt that rises, an M12 anchor bolt near the pillar that is raised at a predetermined distance from the center of the pillar, and an intermediate M12 anchor bolt that is raised at a fixed interval between the pillar and the pillar, M16 hole down anchor bolt raised near the side of the through pillar and M12 anchor near the pillar An insertion hole (H1) used for inserting a bolt; an insertion hole (H2) used for inserting the intermediate M12 anchor bolt; and an M16 anchor bolt standing in an embedded state in the through column and M12 near the column An insertion hole (H3) used for insertion of the anchor bolt is included at least, and the insertion hole (H1) is provided at a position near one end face in the length direction in the rectangular shape, Play is provided in any of the width directions, and the insertion hole (H2) is provided at an intermediate position in the length direction in the rectangular shape, and play is provided only in the width direction. The insertion hole (H3) is provided at a position near the other end surface in the length direction in the quadrangular shape, and there is play in both the length direction and the width direction, And wherein the insertion hole is breathable spacer, characterized in that is provided so as to bias the width direction of the center line in the square shape. The ventilation spacer according to claim 1, wherein a distance from the one end face at the installation position of the insertion hole (H1) is different from a distance from the other end face at the installation position of the insertion hole (H3) .   The ventilation spacer according to claim 1 or 2, wherein a steel plate is used as a material, and the airflow spacer is formed into a wave shape that is a continuous repetition of unevenness in which horizontal and vertical surface portions are alternately arranged.

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