JP2004003267A - Spacer for ventilation - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a spacer for ventilation, interposed to form a gap for ventilation between a strip footing of a building and a groundsill, whose insert holes are improved in their adaptability to various types of anchor bolts. <P>SOLUTION: This space for ventilation is provided with a plurality of insert holes for passing various types of anchor bolts raised from the strip footing. The plurality of insert holes 6 (6a, 6b, 6c, 6d, 6e) are provided to correspond to the anchor bolts raised in the vicinity of the side of a through pillar and an anchor bolt raised from the center of the through pillar or a stand pipe within a designated distance, in the states of being disposed in designated positions. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a ventilation spacer used for forming a ventilation gap between a foundation of a building such as a house and a concrete cloth foundation.
[0002]
[Prior art]
Regarding the ventilation spacers (their names are various), Patent Literature 1 discloses a base receiving plate formed of a plastic composite material and having an anchor bolt insertion hole having a play in a longitudinal direction, and Patent Literature 2 A base spacer made of a synthetic resin is disclosed in which, when the anchor bolt insertion holes are arranged at asymmetric positions in the longitudinal direction and the orientation is reversed, the longitudinal positions of the insertion holes are shifted. A base plate made of synthetic resin having a cross-shaped anchor bolt insertion hole is disclosed. Patent Document 4 discloses a metal base pad provided with a convex portion for forming a gap, and Patent Document 5 discloses a metal base pad. A metal base support device having a deck plate structure in which irregularities are repeated in a wavy shape is disclosed. Patent Document 6 discloses a deck plate structure in which the same irregularities are repeated in a wavy shape, and the unevenness is formed in a gap. Such as a metal ducting spacer so as to function for formation is disclosed, it is already known a wide variety of examples. Non-Patent Document 1 discloses general specifications and the like of anchor bolts from a cloth foundation related to the ventilation spacer.
[0003]
[Patent Document 1]
JP-B-55-40734
[Patent Document 2]
JP-A-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]
JP-A-2000-240177
[Non-patent document 1]
"Housing Construction Common Specifications" published by Japan Housing Finance Association, 2001 edition
[0004]
[Problems to be solved by the invention]
An anchor bolt rises from the concrete cloth foundation, and a base or a pillar is fixed to the cloth foundation via the anchor bolt. In a construction method in which a ventilation spacer is interposed between such a cloth foundation and the base to form a ventilation gap, thereby ensuring ventilation under the floor of the building or promoting the drying of the base, Certain conditions are imposed on the installation position of the ventilation spacer. In other words, it is necessary to install ventilation spacers at the rising position of anchor bolts, under and adjacent columns where building loads are concentrated (through columns and hollow columns), and under the joints of the base and the seams of the base. In particular, it is required that the installation position error be as small as possible, particularly for the ventilation spacers installed under the columns.
[0005]
On the other hand, there is a regulation regarding the rising position of the anchor bolt. The most common rule for general housing is the "Housing Construction Common Specifications" (Non-Patent Document 1) issued by the Japan Housing Finance Spread Association, which is used as an index of specifications for building construction of general housing. The 2001 version has the following rules. First, as the types of the anchor bolts to be raised from the cloth foundation, there are M16 anchor bolts, which are anchor bolts used for fixing through columns to the cloth foundation through hole-down hardware, and M12 anchor bolts, which are used for fastening the base. There is. And, as a position where it is necessary to stand up, the M16 hole down anchor bolt used for fixing the through pillar to the cloth 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. This structure is used when the anchor bolts are to be fixed from the center of (through columns and hollow columns) to the base within 200mm from the center, or to the hollow columns with 10KN hole-down hardware. A position within 150 mm from the core of the 10KN hole-down anchor bolt is defined. In addition, although it has been abolished in the 2001 version, there is a rule that the M12 anchor bolt for fastening the base must be raised up to 120 mm from the center of the pillar (mainly through pillar). In many cases, they still employ. In some cases, a method of embedding an M16 anchor bolt used to fix the through-post to the cloth foundation in the center of the through-post is used. In this case, the M16 anchor bolt is raised at the center of the through-post. Further, it is also required to raise an intermediate base fastening M12 anchor bolt at a certain interval between the columns.
[0006]
As described above, the ventilation spacer and the anchor bolt each have a condition regarding the position. From such a condition regarding the position, the anchor bolt basically penetrates the ventilation spacer. Therefore, the ventilation spacer is provided with an insertion hole through which the anchor bolt passes. In terms of ventilation spacers, it is essential that the anchor bolts penetrate through the ventilation spacers.As for the ventilation spacers, the insertion holes can cope with any of the various types of anchor bolts standing at various positions as described above. Is desirable. That is, it is desired that any type of anchor bolt can be easily inserted into the insertion hole with the ventilation spacer 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 the anchor bolt as described above. That is, in the conventional ventilation spacer, the insertion hole can usually correspond only to a specific type of anchor bolt, and for the anchor bolt of the type in which the insertion hole cannot respond, the ventilation spacer is moved from its original position. It must be dealt with by shifting or installing the ventilation spacer on site, and if the ventilation spacer is shifted from its original position, the installation position condition can not be satisfied In this case, there is a problem in that the cost is increased when the ventilation spacer is processed on site.
[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 above-described compatibility with the anchor bolt type. That is the problem of misalignment with respect to the rising position of the anchor bolt. The displacement includes a design displacement and a construction error. The design positional deviation is a deviation from the standard specification position in the case where the anchor bolt is stood to be deliberately shifted from the standard specification position as described above for design reasons or the like. For example, an M16 hole-down anchor bolt to be raised near the side of the through-column is a Z-mark hole-down hardware S-HD25, which is a standard product of Japan Housing Wooden Technology Center, as a hole-down hardware. The reference position is 31 mm from the side face of the through column, but this is often 35 mm or 40 mm, for example. In addition, anchor bolts are basically raised on the center line of the cloth foundation. However, in the case of a method of providing a brace, in order to avoid interference with this brace, it is 15 to 20 mm outside or inside from the center line. It is not unusual for the user to stand up with a slight shift. Further, the M12 anchor bolt for fastening the base is shifted by about 10 mm from its standard rising position (a position within 200 mm from the center of the pillar, a position within 150 mm from the center of the 10 KN hole down anchor bolt, and a position within 120 mm from the center of the through pillar). It often starts up.
[0009]
As described above, the design positional deviation is a deviation from the standard position expected in the design, but the construction error is a positional error generated in the actual construction stage with respect to the design position. It is usually unavoidable that this construction error occurs around 3 mm, and in many cases, it is larger than 3 mm.
[0010]
Therefore, it is required that the insertion hole of the ventilation spacer not only can cope with various types of anchor bolts as described above, but also that this positional deviation can be tolerated. In order to allow the displacement of the anchor bolts, it is conceivable that play is given to the insertion holes to make them loose holes, and the conventional ventilation spacer disclosed in the above-mentioned patent document also does so. For example, Patent Documents 1 to 3 are examples. However, these conventional ventilation spacers have a narrow allowable range of displacement. Particularly, as described above, since the anchor bolt often rises by shifting the anchor bolt outward or inward by about 15 to 20 mm from the center line of the cloth foundation, it is perpendicular to the lateral direction, that is, the length direction of the cloth foundation or the base. The allowable range in the direction is required to be able to tolerate such a large displacement of 15 to 20 mm, but it has been difficult for conventional ventilation spacers to cope with this.
[0011]
Here, if the play of the insertion hole is made sufficiently large, the allowable range of the displacement can be expanded. However, it is necessary to ensure that the ventilation spacer has a certain area of contact with the cloth foundation and the base, and it is necessary to provide a groove or the like with a certain area to provide a ventilation gap. There is a limit to the size that can be made. That is, it is practically difficult to widen the allowable range for the positional deviation by increasing the play of the insertion hole. For this reason, in the base spacer disclosed in Patent Literature 2, the anchor bolt insertion holes are arranged at asymmetric positions in the longitudinal direction, and the base spacers are reversed in direction so that the longitudinal positions of the insertion holes are shifted. The tolerance range can be expanded. However, this structure can cope only with the displacement of the anchor bolt in the longitudinal direction of the cloth foundation, and it has not been able to expand the allowable range for the more problematic displacement in the width direction.
[0012]
The above is a problem in the relationship between the ventilation spacer and the anchor bolt, but there is also a problem with the conventional ventilation spacer. One of them is the problem of slip prevention. For example, the ventilation spacer disclosed in Patent Literature 6 is made of a stainless steel plate, and is formed in a wave shape that is a continuous repetition of irregularities in which horizontal and vertical portions are alternately arranged, that is, a deck plate structure. Therefore, the coefficient of friction of the contact surface with the cloth foundation or the base is small and slippery, and there is a possibility that the position slips greatly in the event of an earthquake or the like, or in some cases comes off. Therefore, it is necessary to provide means for preventing slippage. In the ventilation spacer disclosed in Patent Document 6, a half-blanked portion is provided as the slip preventing means. This half-blanked portion has a structure in which about half of the thickness of the steel plate is protruded by a press. If the steel plate is as thick as 2 mm, for example, it can be obtained as a projection of about 1 mm, so that it exhibits a slip prevention function as such. Can be done. However, when the thickness of the steel plate as a material is reduced for the purpose of reducing the weight of the ventilation spacer, the protrusion height of the half-blanked portion is reduced, and the slip prevention function is accordingly reduced. In addition, the half punched portion usually has a rounded tip, and the base does not necessarily have a sufficient biting force with respect to the cloth foundation, and there is room for improvement in this respect as well.
[0013]
Another problem is a problem of the compressive strength when the ventilation spacer is formed by using a steel plate as a deck plate structure as in the ventilation spacer disclosed in Patent Document 6. In a ventilation spacer having a steel plate deck plate structure, sufficient compressive strength can be obtained by increasing the thickness of the steel plate. However, in that case, the ventilation spacer becomes heavy, and the handleability decreases, and the cost increases. In other words, in the ventilation spacer having a steel plate deck plate structure, there is a trade-off between the compressive strength and the handleability and cost with respect to the thickness of the steel plate. Therefore, it is desired to suppress the thickness of the steel sheet as much as possible and to obtain a sufficient compressive strength.
[0014]
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and a first object of the present invention is to increase the compatibility of ventilation holes with various types of anchor bolts. The second object of the present invention is to widen the permissible range with respect to the displacement of the anchor bolts, and the third object of the present invention is to improve the slip prevention of the ventilation spacer having a deck plate structure. The fourth object of the present invention is to increase the compressive strength.
[0015]
[Means for Solving the Problems]
According to the present invention, in order to achieve the first object, the present invention is used for providing a ventilation gap between a fabric foundation and a foundation of a building, and has a width substantially equal to the width of the foundation as a whole. And a ventilation spacer which is arranged at a predetermined position for supporting the load of the building between the cloth foundation and the base and is provided with the interposition. In the above, there are provided a plurality of insertion holes for passing various types of anchor bolts rising from the cloth foundation, and the plurality of insertion holes, for the type of the anchor bolt, at least near the side of the through pillar. Provided so as to be able to cope with the standing anchor bolts and the standing anchor bolts within a predetermined distance from the center of the through column or the column, in the state of being arranged at the predetermined position. It is characterized in that it is.
[0016]
Further, in the present invention, as for the ventilation spacer as described above, as an anchor bolt type, an M16 hole down anchor bolt raised at a position near a side surface of a through pillar, and a portion near a pillar raised at a predetermined distance from the center of the pillar. M12 anchor bolt, and an intermediate M12 anchor bolt that is raised at a fixed interval in the middle of a column, at least under certain conditions, is mainly used for inserting the M16 hole down anchor bolt in the predetermined arrangement state, At least an insertion hole that can be used to insert an M12 anchor bolt near the pillar and an insertion hole that is used to insert the intermediate M12 anchor bolt in the predetermined arrangement state are provided. I have.
[0017]
Further, in the present invention, in order to achieve the second object, it is used to interpose for forming a ventilation gap between a fabric base and a foundation of a building, and the same width as the width of the foundation as a whole is used. For ventilation, which is formed in a rectangular shape having a width, and is arranged at a predetermined position to support the load of the building between the cloth foundation and the base and the interposition is performed. In the spacer, upside down use is enabled, and an insertion hole for passing an anchor bolt rising from the cloth foundation is provided, and play of a predetermined size is given to the insertion hole, and The insertion hole provided with this play is provided so as to be deviated from the center line in the width direction of the square shape.
[0018]
Further, in the present invention, the ventilation spacer as described above is made of a steel plate, and is formed into a corrugated shape that is a continuous repetition of unevenness in which a horizontal surface portion and a vertical surface portion are alternately arranged.
[0019]
Further, in the present invention, in order to achieve the third object, in a ventilation spacer used for providing a ventilation gap between a fabric foundation and a foundation of a building, a steel plate is used as a material, The surface portion and the vertical surface portion are formed in a wave shape that is a continuous repetition of irregularities arranged alternately, and a non-slip projection formed by sharpening the tip by burring is provided on the horizontal surface portion. It is characterized by:
[0020]
According to the present invention, in order to achieve the fourth object, in a ventilation spacer used for forming a ventilation gap between a fabric base and a foundation of a building, a steel plate is used as a material, The surface portion and the vertical surface portion are formed in a wavy shape that is a continuous repetition of irregularities arranged alternately, and a corner portion formed by the horizontal surface portion and the vertical surface portion is provided with a bead orthogonal to the corner portion. It is characterized by having.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described. FIGS. 1 to 3 show the structure of a ventilation spacer according to a first embodiment of the present invention, and typical examples of its use are shown in FIGS. As shown in FIGS. 1 to 3, the ventilation spacer 1 in the present embodiment has a continuous repetition of unevenness as a whole by alternately arranging the horizontal surface portions 2 and the vertical surface portions 3 (FIG. 2). It is formed in a square shape based on a wave shape, specifically, a rectangular shape. In other words, the vertical surface portion 3 and the horizontal surface portion 2 are each formed to extend in a band shape in the width direction at right angles to each other, and the vertical surface portion 3 and the horizontal surface portion 2 are connected to the vertical surface portion 3 and the horizontal surface portion 2 connected therebelow. By forming the concave portion 4 by using the vertical surface portion 3 and the horizontal surface portion 2 connected to the upper side thereof, the convex portion 5 is formed, so that the concave portion 4 and the convex portion 5 are alternately and continuously repeated in a deck plate structure. Is formed. Here, as shown in FIG. 2, the ventilation spacer 1 is functionally vertically symmetrical, so that it can be used upside down. This is important for widening the allowable range of insertion of the anchor bolt described later. When the upper and lower parts are inverted, the concave part 4 and the convex part 5 have an opposite relationship. That is, the portion that was the concave portion becomes the convex portion, and the portion that was the convex portion becomes the concave portion.
[0022]
The overall size of the ventilation spacer 1 is generally 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 plate thickness. The thin steel plate has a height of 8 mm, a width of 115 mm, a length of 173 mm, and a steel plate having a thickness of 1 mm.
[0023]
The ventilation spacer 1 is provided with insertion holes 6a, 6b, 6c, 6d, 6e, provided with anti-slip projections 7, and further provided with reinforcing beads 8 at corners formed by the horizontal surface portion 2 and the vertical surface portion 3. Is formed. Details of these insertion holes 6 and the like will be described later. The above-described deck plate structure and the respective insertion holes 6 and the like can be obtained by, for example, pressing a steel plate such as a stainless steel plate using 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 cloth base 10 and the base 11 of the building, and a ventilation gap corresponding to the height is formed between the cloth base 10 and the base 11. There are certain conditions for the interposition position as described above. Specifically, the required installation position of the ventilation spacer 1 is at the rising position of the anchor bolt 12, below the through column 13 and the column 14, and below the joint of the base and the joint (not shown) of the base. Although not shown, the ventilation spacers 1 are provided at regular intervals of, for example, about 50 cm. In particular, with regard to the ventilation spacers 1 installed below the through columns 13 and the hollow columns 14, it is required to minimize the installation position error.
[0025]
As described above, the ventilation spacer 1 according to the present embodiment, which is interposed between the cloth base 10 and the base 11, has a deck plate structure as described above. Even at such a height, the necessary ventilation area can be secured. Non-Patent Document 1 mentioned above has a specification of "securing a ventilation area of 300 cm2 or more in a range of a base of 4 m". An example of this calculation will be described. The ventilation ratio of the ventilation spacer 1 having the deck plate structure is 84%. For example, if nine ventilation spacers are installed in 4 m, the ventilation spacers 1 are installed. The opening area of the portion is 173 mm × 8 mm × 9 pieces × 84% = 10463 mm 2. On the other hand, the opening area of the portion where the ventilation spacer 1 is not provided is [4000 mm− (173 mm × 9 pieces)] × 8 mm = 19544 mm 2. The sum of the two is 30007 mm2, and the above specification can be satisfied even at the thinnest height of 8 mm.
[0026]
Each of the five types of insertion holes 6a, 6b, 6c, 6d, and 6e in the ventilation spacer 1 is for passing an anchor bolt 12, a part of which is shown in FIG. 5, depending on the type of the anchor bolt 12. Can be used properly. As shown in the examples of FIGS. 6 to 8, the insertion hole 6 a is mainly used for an M16 hole down anchor bolt 12 g having a reference position near the through pillar side surface, that is, 31 mm from the through pillar side surface. As can be seen in the example, the M12 anchor bolt 12h having a reference position 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, in a state where the ventilation spacer 1 is installed in a predetermined positioning state below the through pillar, the insertion of the M16 hole down anchor bolt 12 g with the reference position 31 mm from the side of the through pillar is inserted. (Example of the upper side of FIG. 6 and the lower side of FIG. 7). Further, in a state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to another ventilation spacer 1 installed below the through pillar, the M16 hole down anchor bolt 12g having a reference position 31 mm from the side of the through pillar is used. It is used for insertion (upper example in FIG. 7 and upper example in FIG. 8). Further, in a state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to another ventilation spacer 1 installed below the cylinder, an M12 anchor bolt 12h having a reference position 200 mm from the center of the cylinder. (An example in the middle of FIG. 8).
[0027]
The insertion hole 6a is formed in a square of about 40 mm square having 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 center line in the width direction of the rectangular shape of the ventilation spacer 1. It is designed to be 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 so as to be deviated by 10 mm from the vertical center line Sv. By disposing the insertion hole 6a so as to be deviated from the vertical center line Sv in this manner, the allowable range for the displacement of the anchor bolt in the width direction of the fabric base can be expanded. The range can be multiplied by 1.5. That is, since the ventilation spacer 1 is vertically symmetrical as described above, it can be used upside down. By inverting the insertion hole 6a in the state of FIG. 1, the insertion hole 6a can be positioned on the left side or on the right side of the vertical center line Sv, thereby effectively reducing the hole size of the insertion hole 6a. Therefore, the allowable range for the displacement of the anchor bolts in the width direction of the fabric base can be increased. The insertion hole 6a has a large play in the width direction of the cloth foundation and a size of 40 mm in the longitudinal direction of the cloth foundation. For example, the insertion hole 6a has a thickness of 2.5 mm for an M16 anchor bolt. It makes the play bigger. This is related to using the M16 hole-down anchor bolt 12g near the side surface of the through-column in a state where it is positioned below 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 longitudinal size of the fabric base is reduced to 40 mm in order to allow a large displacement of 10 mm or more as described above from the reference position of the anchor bolt 12 g in the longitudinal direction of the fabric foundation. It is a big one.
[0028]
The insertion hole 6b is mainly used for the M12 anchor bolt 12i whose reference position is 120 mm from the center of the through column, as seen in the example on the lower side of FIG. That is, the insertion hole 6b is for a 120 mm reference position M12 anchor bolt. Specifically, in a state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to another ventilation spacer 1 installed below the through pillar, an M12 anchor bolt having a reference position 120 mm from the center of the through pillar is used. 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 in the insertion hole 6b. The main reason for reducing the play is that the insertion hole 6b is used less frequently. That is, 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 example of the upper side of FIG. 6 and the lower side of FIG. 7, the insertion hole 6c has an M12 anchor bolt 12h having a reference position of 200 mm from the center of a pillar (through pillar or hollow pillar), and a middle part of FIG. Is mainly used to pass an intermediate base fastening M12 anchor bolt 12j which is raised at a fixed interval between the pillars. That is, the insertion hole 6c is for a 200 mm reference position and an intermediate M12 anchor bolt. Specifically, in a state where the ventilation spacer 1 is installed in a predetermined position adjacent to another ventilation spacer 1 installed below the through pillar, an M12 anchor bolt having a reference position 200 mm from the center of the through pillar is used. It is used to pass the M12 anchor bolt 12j at the rising position of the M12 anchor bolt 12j for fastening the intermediate base.
[0030]
The insertion hole 6c is formed as a linear long hole having a width of 20 mm and a length of 40 mm, both ends of which are semicircular. The installation position is a position about 10 mm below the horizontal center line Sh, which is the center line in the length direction of the ventilation spacer 1 in the state of FIG. 1, and the direction is opposite, but the insertion hole 6 a Similarly, it is deviated by 10 mm from the vertical center line Sv. This deviation widens the allowable range of displacement of the anchor bolt in the width direction, similarly to the insertion hole 6a. In the insertion hole 6c, a wide allowable range is provided for the displacement of the anchor bolt in the width direction as described above, while too much play is provided for the displacement of the anchor bolt in the longitudinal direction of the fabric foundation. Absent. This is because, unlike the ventilation spacer under the pillar, there is a certain degree of freedom in the position of the ventilation spacer through which the M12 anchor bolt 12h passes with the reference position at 200 mm from the center of the pillar. This is because it is also possible to cope with the positional deviation in the longitudinal direction. On the other hand, the displacement of the anchor bolts in the width direction cannot be dealt with by the arrangement of the ventilation spacers, so that a displacement of approximately 20 mm (40 mm in total) on the left and right with respect to the center line of the cloth foundation described above is possible. In order to be able to cope with the characteristics, the length is set to 40 mm, and by the above-mentioned deviation, it is allowed to be 2.5 times as large as 60 mm.
[0031]
As shown in the examples of FIGS. 6 to 8, the insertion hole 6 d has an M16 anchor bolt 12 k that rises in a state embedded in the through pillar, an M12 anchor bolt 12 h having a reference position 200 mm from the center of the pillar, M12 anchor bolts 12i having a reference position of 120 mm from the center and M12 anchor bolts 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 versatile type according to the arrangement condition of the ventilation spacer. Specifically, as shown in the example on the lower side of FIG. 6, in a state where the ventilation spacer 1 is installed under a predetermined position in a predetermined position below the through-post, it is used to pass an M16 anchor bolt 12k rising at the center of the through-post. Can be As shown in the upper example of each of FIGS. 6 to 8, in a state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to another ventilation spacer 1 installed below the through pillar, the center of the through pillar is Is used to pass an M12 anchor bolt 12h having a reference position of from 200 mm to 200 mm. In particular, as shown in FIG. 7 and FIG. In a state where the ventilation spacer 1 is installed, there is a case where the M16 anchor bolt 12g is passed through the insertion hole 6a and the M16 hole down anchor bolt 12g near the pillar side surface, and the M12 anchor bolt 12h is passed through the insertion hole 6d. As shown in the middle part of FIG. 7 and the lower part of FIG. 8, the ventilation spacer 1 is positioned adjacent to another ventilation spacer 1 installed under a pillar (mainly a through pillar) in a predetermined positioning state. Is used to pass the M12 anchor bolt 12i having a reference position of 120 mm from the center of the pillar in the installed state. Further, as shown in the lower example of FIG. 8, in a state where the ventilation spacer 1 is installed in a predetermined positioning state adjacent to another ventilation spacer 1 installed below the pillar, a 10KN hole down anchor bolt is provided. (Not shown) Used to pass 12 m of M12 anchor bolt with 150 mm as a reference position from the core.
[0032]
The insertion hole 6d is formed as an L-shaped long hole having both ends in a semicircular shape, the width is 20 mm, and the length and width of the L-shape are 40 mm. The installation position is such that the vertical end of the L-shape is close to the insertion hole 6c in the state of FIG. 1, and the horizontal center of the L-shape is deviated by 10 mm from the vertical center line Sv similarly to the insertion hole 6a. ing. The reason why the insertion hole 6d is formed as the L-shaped elongated hole is that the installation position condition of the ventilation spacer 1 when the anchor bolt is passed through the insertion hole 6d and the displacement characteristics of the various types of anchor bolts as described above. This is based on the necessary positional deviation tolerance range derived from the above. In other words, an L-shaped elongated hole is obtained as a result of giving an intermediate positional tolerance range characteristic between the insertion hole 6a and the insertion hole 6c. In addition, as for the insertion hole of the other application type, the L-shaped vertical portion of the insertion hole 6d may be changed to 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 pillar (mainly the through pillar) as in the example of the lower side of FIG. 6 and the upper side of FIG. This is a relatively specific example, and the M12 anchor bolt 12i may be located at the boundary between the ventilation spacer 1 installed below the pillar and another ventilation spacer 1 installed adjacent thereto. Therefore, in this case, the through holes 6e of the two ventilation spacers are combined and used for inserting the M12 anchor bolt 12i. That is, the insertion hole 6e is for a 120 mm reference position M12 anchor bolt rising at the boundary position. Therefore, the insertion hole 6e is provided in a state where the end face of the ventilation spacer 1 is cut into a semicircle.
[0034]
The anti-slip projection 7 is formed as a cylindrical projection having a height of about 1 mm, the tip of which is sharpened by burring, as shown in FIG. 2, two are provided at appropriate intervals. The anti-slip projections 7 function to prevent the ventilation spacers from slipping and displacing in the event of an earthquake or the like. Extremely high anti-slip ability can be exhibited. Further, since the anti-slip projection 7 formed by burring has a through hole, it can be used as a nail hole in a case where the ventilation spacer is nailed to the base in advance by, for example, pre-cutting at a factory. Can be used.
[0035]
As shown in FIG. 10, the bead 8 is formed in such a manner that a short line is formed in a direction perpendicular to the corner between the horizontal surface 2 and the vertical surface 3 so as to bulge inside the corner. And functions to increase the compression resistance of the corner. In the present embodiment, about two beads 8 having a depth of about 5 mm are provided at each corner at appropriate intervals, and the improvement in compressive strength by this is about twice that in the case without beads. As a specific numerical example, a compression test was performed 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, and as a result, a strength value of 7.5 tons was obtained. This is approximately 13.6 times the average load applied to a single ventilation spacer of 550 kg 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 as 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, to improve the handling of the ventilation spacer 1 in transportation, and to reduce the cost.
[0036]
Although the above embodiment relates to the ventilation spacer having a deck plate structure made of a steel plate, the configuration relating to the insertion hole of the present invention can be applied to a ventilation spacer formed of, for example, a plastic material. In addition, when the ventilation spacer is formed of a plastic material, it may not be possible to turn the ventilation spacer upside down. It is conceivable that a ventilation spacer having a reversed direction is prepared and used properly according to the rising state of the anchor bolt.
[0037]
FIG. 11 shows a configuration of an insertion hole in the ventilation spacer according to the second embodiment. In the present embodiment, an insertion hole 10a in which the insertion holes 6a, 6b, 6e in the first embodiment are integrated, an insertion hole 10b in which the insertion holes 6c, 6d in the first embodiment are integrated, and Three types of insertion holes, the same as the first embodiment, of the insertion hole 10c are provided. In these insertion holes 10a and 10b, the insertion hole 10a plays the role of the insertion holes 6a, 6b and 6e in the first embodiment, and the insertion hole 10b plays the role of the insertion holes 6c and 6d in the first embodiment. ing. In FIG. 11, the illustration of the horizontal surface, the anti-slip projections, and the beads is omitted, but these are the same as in the first embodiment.
[0038]
【The invention's effect】
As described above, according to the present invention, it is possible to enhance the compatibility with various types of anchor bolts, and it is possible to easily install the ventilation spacer in a required appropriate installation state. . Further, according to the present invention, it is possible to widen the allowable range of the displacement of the anchor bolt in the insertion hole of the ventilation spacer, and it is possible to more easily install the ventilation spacer in a required appropriate installation state. Further, according to the present invention, the ventilation spacer having a deck plate structure made of a steel plate can be improved in anti-slip property, and its function can be more reliably exhibited over a long period of time. According to the present invention, the compressive strength of the ventilation spacer having a deck plate structure made of a steel plate can be increased, whereby the thickness of the steel plate can be reduced and the weight can be reduced. It is 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.
FIG. 3 is a side view of the ventilation spacer of FIG. 1 as viewed from below.
FIG. 4 is a partial structural view of a building showing an example of a use state of the ventilation spacer of FIG. 1;
FIG. 5 is a view showing a typical arrangement example of the ventilation spacer of FIG. 1 on a cloth foundation.
FIG. 6 is an enlarged view of a portion A in FIG.
FIG. 7 is an enlarged view of a portion B in FIG. 5;
FIG. 8 is an enlarged view of a portion C in FIG. 5;
FIG. 9 is an enlarged sectional view of a non-slip protruding 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 Spacer for ventilation
2 Horizontal surface
3 vertical surface
4 recess
5 convex part
6 insertion hole
7 Non-slip projection
8 Beads
10 Cloth foundation
11 Foundation
12 anchor bolt
12g M16 Hole Down Anchor Bolt Standing Near Through Column Side
12h M12 anchor bolts set up within a predetermined distance from the center of the pillar
12i Middle M12 anchor bolt
Sv Width center line
Sh Length center line

Claims (6)

The cloth foundation is used to interpose between the cloth foundation of the building and the foundation to form a gap for ventilation, and is formed in a square shape having a width approximately equal to the width of the foundation as a whole, and And a ventilation spacer that is arranged at a predetermined position to support the load of the building between the base and the interposition is performed,
A plurality of insertion holes for passing various types of anchor bolts rising from the cloth foundation are provided, and the plurality of insertion holes, for the type of the anchor bolt, are raised at least in the vicinity of the side of the through column. A ventilation spacer provided so as to be able to cope with the anchor bolt and the anchor bolt rising up within a predetermined distance from the center of the through column or the column in the state of being arranged at the predetermined position. . As the type of anchor bolt, M16 hole down anchor bolt raised at the position near the side of the through column, M12 anchor bolt near the column raised at a predetermined distance from the center of the column, and at fixed intervals between the columns At least under certain conditions, an intermediate M12 anchor bolt to be raised is mainly used for inserting the M16 hole down anchor bolt in the predetermined arrangement state, and is also used for inserting an M12 anchor bolt near the pillar. 2. The ventilation spacer according to claim 1, further comprising: an insertion hole that can be formed; and an insertion hole that is used for inserting the intermediate M12 anchor bolt in the predetermined arrangement state. 3. The cloth foundation is used to interpose between the cloth foundation of the building and the foundation to form a gap for ventilation, and is formed in a square shape having a width approximately equal to the width of the foundation as a whole, and And a ventilation spacer that is arranged at a predetermined position to support the load of the building between the base and the interposition is performed,
Upside down use is enabled, and an insertion hole for passing an anchor bolt rising from the cloth foundation is provided, and the insertion hole is provided with a play of a predetermined size. A ventilation spacer, wherein a given insertion hole is provided so as to be deviated with respect to a center line in a width direction of the rectangular shape. The ventilation spacer according to any one of claims 1 to 3, wherein a steel plate is used as a material, and the horizontal plane portion and the vertical surface portion are formed in a wavy shape that is a continuous repetition of irregularities arranged alternately. A ventilation spacer used to interpose between the fabric base of the building and the foundation to form a ventilation gap, using a steel plate as the material, and a continuous uneven surface in which the horizontal and vertical surfaces are alternately arranged. A ventilation spacer, wherein a non-slip projection formed in a repetitive wave shape and having a sharpened tip formed by burring is provided on the horizontal surface portion. A ventilation spacer used to interpose between the fabric base of the building and the foundation to form a ventilation gap, using a steel plate as the material, and a continuous uneven surface in which the horizontal and vertical surfaces are alternately arranged. A ventilation spacer, which is formed in a repetitive wave shape, and wherein a bead orthogonal to the corner is provided at a corner formed by the horizontal surface and the vertical surface.

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