JP2020133300A - Anchor installation frame and beam construction method - Google Patents

Abstract

To provide an anchor installation frame that can install a large diameter anchor with high fixture strength and position accuracy.SOLUTION: An anchor installation frame 2 comprises: an anchor attachment part 20 that extends vertically and for which an anchor can be attached onto the upper end of the anchor attachment part 20; and a pair of base parts 30, 40 that are fixed on the side of the lower end of the anchor attachment part 20 and that can be fixed on the installation surface. The pair of base parts 30, 40 that extend in directions in which they intersect in plan view.SELECTED DRAWING: Figure 2

Description

The present invention relates to an anchor installation frame and a beam construction method for installing an anchor.

In Patent Document 1, the intermediate portion in the height direction of the anchor is fixed to the opening at the upper end of the formwork via the hook for fixing the anchor bolt, and concrete is poured into the formwork in this state to construct the foundation. Describes a method of burying the lower end of an anchor in concrete.

Japanese Unexamined Patent Publication No. 11-200379

In recent years, the size of anchors has been increased in order to cope with the increase in the height of wooden buildings. Here, the method described in Patent Document 1 cannot sufficiently support the enlarged anchor, and there is a possibility that the anchor may be displaced during concrete placement and the verticality cannot be maintained. In such a case, the enlarged anchor cannot be repositioned by bending. Further, in concrete work, it is necessary to improve the fixing strength and the position accuracy of the anchor because the black ink, which is the standard for installing the anchor, becomes invisible due to the concrete placement.

The present invention has been devised in view of the above circumstances, and an object of the present invention is to provide an anchor installation frame and a beam construction method capable of installing an anchor with high fixing strength and position accuracy.

In order to solve the above problems, the anchor installation frame of the present invention is extended in the vertical direction and is fixed to an anchor attachment portion to which an anchor can be attached to the upper end portion and a side surface of the lower end portion of the anchor attachment portion. It is characterized in that it includes a pair of base portions that can be fixed to an installation surface, and the pair of base portions are extended in a direction intersecting each other in a plan view.

According to the present invention, the anchor can be installed with high fixing strength and position accuracy.

It is a perspective view which shows typically an example of the internal structure of the high strength bearing wall to which the anchor installation frame which concerns on embodiment of this invention is applied. It is a perspective view which shows typically the anchor installation frame which concerns on embodiment of this invention. It is a top view which shows typically the anchor installation frame which concerns on embodiment of this invention. It is a side view which shows typically the anchor installation frame which concerns on embodiment of this invention. It is a top view which shows typically the gauge part which concerns on embodiment of this invention. It is a figure which shows typically the example which the anchor installation frame which concerns on embodiment of this invention is provided in the foundation. It is a figure which shows typically the example which the anchor installation frame which concerns on embodiment of this invention is provided in the foundation. It is a figure which shows typically the example which the anchor installation frame which concerns on embodiment of this invention is provided on a beam.

Hereinafter, embodiments of the present invention will be described with reference to the drawings as appropriate, taking as an example the case where the frame for installing the anchor of the present invention is applied to the bearing wall of the two-by-four method. The same reference numerals are given to the same parts, and duplicate description will be omitted. The anchor installation frame of the present invention is not limited to the two-by-four construction method, and can be applied to all middle-rise wooden buildings such as wooden frames and CLT construction methods.

<Embodiment>
As shown in FIG. 1, the anchor 1 according to the embodiment of the present invention is a single for a attracting metal (tie-down) provided so as to penetrate a bearing wall 10 laminated by the number of floors in a middle-rise wooden building. It is an anchor. The load-bearing wall 10 is a frame wall in the so-called two-by-four method, and is composed of a pair of vertical frame members 11 and 11, an upper frame member 12 connecting the lower ends of the vertical frame members 11 and 11, and vertical frame members 11 and 11. It includes an upper frame member 13 that connects the upper end portions to each other, and a structural plywood (not shown) attached to the side surface of a rectangular frame composed of these frame members 11, 11, 12, and 13.

The anchor 1 is installed on the installation surface via the anchor installation frame 2. The anchor 1 and the plurality of bolts (also referred to as "tie rods") 3 have male threaded portions at the upper and lower ends, and the male threaded portions are screwed into the female threaded portions of the anchor installation frame 2 and the coupler 4, respectively. By doing so, they are arranged in series in the vertical direction. The bolts 3 arranged in series are provided along the vertical frame members 11 for a plurality of floors in the bearing wall 10, and the upper end portion of the top bolt 3 is the highest via the hole-down hardware 5. It is fixed to the vertical frame member 11 on the floor. The plurality of bolts 3 connected by the anchor installation frame 2, the anchor 1, and the coupler 4 are provided along both of the pair of vertical frame members 11 and 11 (only one of them is shown in FIG. 1 and the like).

<Anchor installation frame>
As shown in FIGS. 2 to 4, the anchor installation frame 2 is a member for fixing the base portion (lower end portion) of the anchor 1 to the installation surface, and is fixed to the anchor attachment portions 20 and the base portions 30 and 40. A plate 50 and the like are provided.

≪Anchor mounting part≫
The anchor mounting portion 20 extends in the vertical direction, and is configured so that the anchor 1 can be mounted on the upper end portion. The anchor mounting portion 20 includes a round pipe 21 and a nut 22. The round pipe 21 is a metal member having a cylindrical shape extending in the vertical direction. The nut 22 is coaxially fixed to the upper end of the round pipe 21. The nut 22 is formed with a female threaded portion that can be screwed with the male threaded portion of the anchor 1.

≪Base part≫
The base portion 30 is fixed to the side surface of the lower end portion of the anchor mounting portion 20, and is configured to be fixed to the installation surface. The base portion 30 is a metal member that exhibits an L-shape in a side view by integrally providing a bottom plate portion 31 and a vertical plate portion 32 extending upward from one edge portion of the bottom plate portion 31. ..

The bottom plate portion 31 is a portion having a rectangular shape in a plan view, and the lower surface of the bottom plate portion 31 is formed flush with the lower surface of the round pipe 21. The bottom plate portion 31 is formed with relatively large holes 31a and 31a and relatively small holes 31b and 31b. The holes 31a and 31a are formed at both ends of the bottom plate portion 31 in the longitudinal direction, and are used when fixing the bottom plate portion 31 to the installation surface (fixing to the mold by bolts B via a cone C (fixing to the mold). (See FIG. 8), fixing to concrete by all anchor A (see FIG. 6)). The holes 31b and 31b are formed at both ends of the bottom plate portion 31 in the longitudinal direction, and are used when fixing the bottom plate portion 31 to the installation surface (fixing to concrete with concrete screws CB or the like (see FIG. 7)). ).

The vertical plate portion 32 extends upward from the long side of the bottom plate portion 31 on the anchor mounting portion 20 side. The vertical plate portion 32 is joined to the outer peripheral surface of the round pipe 21 by welding or the like.

≪Base part≫
The base portion 40 is a metal member that exhibits an L-shape in a side view by integrally providing a bottom plate portion 41 and a vertical plate portion 42 extending upward from one edge of the bottom plate portion 41. ..

The bottom plate portion 41 is a portion having a rectangular shape in a plan view, and the lower surface of the bottom plate portion 41 is formed flush with the lower surface of the round pipe 21. A relatively large hole 41a and a relatively small hole 41b are formed in the bottom plate 41. The hole portion 41a is formed at one end in the longitudinal direction of the bottom plate portion 41 and is used when fixing the bottom plate portion 41 to the installation surface (fixing to the mold by a bolt B via a cone C (see FIG. 8). ), Fixing to concrete with all anchor A (see Fig. 6)). The hole 41b is formed at one end in the longitudinal direction of the bottom plate 41, and is used when the bottom plate 41 is fixed to the installation surface (fixing to concrete with concrete screws CB or the like (see FIG. 7)).

The vertical plate portion 42 extends upward from the long side of the bottom plate portion 41 on the anchor mounting portion 20 side. The vertical plate portion 42 is joined to the outer peripheral surface of the round pipe 21 by welding or the like.

<Positional relationship between anchor mounting part and base part>
The base portions 30 and 40 are arranged in a direction in which they intersect each other in a plan view. In the present embodiment, the base portions 30 and 40 are arranged so as to exhibit an L-shape orthogonal to each other in a plan view, and the anchor mounting portion 20 is arranged at a corner portion formed by the base portions 30 and 40. ing. Further, the holes 31a, 31a, 41a are arranged at the vertices of the triangle in which the anchor mounting portion 20 is included in the plan view, and the holes 31b, 31b, 31b also include the anchor mounting portion 20 in the plan view. It is located at the apex of the triangle. When the anchor installation frame 2 having such a structure is mounted on the installation surface, it is easy to understand where the anchor attachment portion 20 is arranged on the installation surface, and the accuracy of the installation position can be improved.

For example, when the marking lines L and L orthogonal to each other are drawn on the installation surface and the anchor 1 is extended on the intersection of the marking lines L and L, the operator sets the anchor installation frame 2. The vertical plate portions 32 and 42 of the base portions 30 and 40 can be installed and fixed on the installation surface so as to be parallel to the marking lines L and L by the radius of the round pipe 21. Further, the operator can visually check the intersection of the marking lines L and L through the anchor mounting portion 20.

≪Fixing plate≫
The fixing plate 50 is a metal or resin member extending laterally from the anchor mounting portion 20 or the anchor 1 above the base portions 30 and 40. The fixing plate 50 has a disk shape in a plan view, and is provided on the nut 22 with the anchor 1 inserted through the hole formed in the fixing plate 50, and is provided on the nut 22 and is provided on the upper side by the nut N. It is fixed from. The fixing plate 50 has a function of preventing the anchor installation frame 2 from coming off upward by being embedded in a concrete foundation, a beam, or the like.

<Gauge section>
In order to maintain the verticality of the anchor 1, the gauge portion 6 shown in FIG. 5 is used. The gauge portion 6 includes a gauge body 60, an L metal fitting 70, and a wing bolt 80.

The gauge body 60 is a metal member having a U-shape in a plan view. The U-shaped gauge body 60 can prevent junkers when embedded by placing concrete. The gauge body 60 is formed with a hole portion 61 arranged at the center and a hole portion 62 arranged at both ends of the U-shape. The hole 61 is a round hole through which the anchor 1 is inserted. The hole 62 is an elongated hole in which the L metal fitting 70 is fixed by the wing bolt 80.

The L metal fitting 70 integrally includes a bottom plate portion 71 and a vertical plate portion 72 extending upward from the end portion of the bottom plate portion 71. The bottom plate portion 71 is formed with a hole for being fixed to the gauge body 60 by the wing bolt 80. The vertical plate portion 72 is a portion that abuts and is fixed to an object on the side of the anchor 1.

The gauge portion 6 maintains the distance between the anchor 1 and the object on the side of the anchor 1 depending on the position of the hole 62 of the gauge body 60 to fix the L metal fitting 70, and the anchor 1 is vertical. It is for maintaining sex. For example, as shown on the left side of FIG. 5, when the L metal fitting 70 is fixed to one end of the hole 62 (the end on the intermediate side of the gauge body 60), the distance between the anchor 1 and the object. Can be set relatively short. Further, as shown on the right side of FIG. 5, when the L metal fitting 70 is fixed to the other end of the hole 62 (the end side of the gauge body 60), the anchor 1 and the object The distance to and can be set relatively long.

<Installation example>
Subsequently, an installation example of the anchor installation frame 2 according to the embodiment of the present invention will be described.

≪First installation example: For underground beams≫
As shown in FIG. 6, on the outer peripheral side of the building, the anchor installation frame 2 is installed on the waste concrete 110 provided on the excavated ground. Here, the base portion 30 is placed on the waste concrete 110 which is the installation surface, and the all anchor A for concrete passes through the holes 31a and 31a (or the concrete screw CB provides the holes 31b and 31b). It is fixed to the waste concrete 110 by being driven into the waste concrete 110 (via). Further, the base portion 40 is placed on the waste concrete 110 which is an installation surface, and the all anchor A for concrete is discarded through the hole 41a (or the concrete screw CB is placed through the hole 41b). By being driven into 110, it is fixed to the discarded concrete 110.

Further, the anchor 1 has an intermediate portion in the height direction positioned by the gauge portion 6 with respect to the side wall portion 121 provided on the outer peripheral side of the building in the formwork 120A, so that the verticality is ensured. In such a state, the anchor installation frame 2 and the lower part of the anchor 1 are embedded in the foundation 140 provided from the inside of the formwork 120A to the crushed stone 130 on the ground level GL. Here, the formwork 120A, the separator 151, the foam tie (registered trademark) 152 and the single tube 153 are removed after the formation of the foundation 140, and the periphery of the foundation 140 is backfilled to the ground level GL. Further, since the gauge portion 6 is provided at a height that is not embedded in the foundation 140, it is collected after the foundation 140 is formed.

≪Second installation example: Intermediate beam (for soil) ≫
As shown in FIG. 7, inside the building, the anchor installation frame 2 is installed on the waste concrete 110 provided on the excavated ground. Here, the base portion 30 is placed on the waste concrete 110 which is the installation surface, and the concrete screw CB passes through the holes 31b and 31b (or the all anchor A for concrete has the holes 31a and 31a). It is fixed to the waste concrete 110 by being driven into the waste concrete 110 (via). Further, the base portion 40 is placed on the waste concrete 110 which is an installation surface, and the concrete screw CB is placed through the hole 41b (or the concrete all anchor A is placed via the hole 41a). By being driven into 110, it is fixed to the discarded concrete 110.

Further, the anchor 1 has an intermediate portion in the height direction positioned with respect to the side wall portion 122 in the formwork 120A by the gauge portion 6, so that verticality is ensured. In such a state, the anchor installation frame 2 and the lower part of the anchor 1 are embedded in the foundation 140 provided from the inside of the formwork 120A to the crushed stone 130 on the ground level GL. Here, the formwork 120A, the separator 151, the foam tie 152 and the single tube 153 are removed after the formation of the foundation 140 including the reinforcing bar 141, and the periphery of the foundation 140 is backfilled to the ground level GL. Further, the gauge portion 6 is embedded in the foundation 140 by forming the foundation 140.

≪Third installation example: For above-ground beams: Beam construction method≫
The third installation example is an example in which the anchor installation frame 2 is installed on the ceiling beam of the first floor instead of the foundation in a middle-high-rise building where the first floor is made of reinforced concrete and the second floor or more is made of wood. As shown in FIG. 8, on the ceiling on the 1st floor of the building, the anchor installation frame 2 is installed on the bottom wall portion 123 of the formwork 120B for beams. Here, the base portion 30 is placed on the bottom wall portion 123, which is the installation surface, via a resin cone (pedestal member) C, and the upper bolt B is placed on the cone C via the base portion 30. It is fixed to the bottom wall portion 123 of the mold 120B by being screwed and the lower bolt B being screwed into the cone C via the bottom wall portion 123. Further, the base portion 40 is placed on the bottom wall portion 123, which is the installation surface, via a resin cone (pedestal member) C, and the upper bolt B is screwed onto the cone C via the base portion 40. At the same time, the lower bolt B is screwed into the cone C via the bottom wall portion 123, so that the bolt B is fixed to the bottom wall portion 123 of the mold 120B.

Further, the anchor 1 has an intermediate portion in the height direction positioned with respect to the side wall portion 124 of the formwork 120B by the gauge portion 6, so that verticality is ensured. In such a state, the lower portion of the anchor installation frame 2 and the anchor 1 is embedded in the bottom wall portion 123 and the side wall portion 124 of the formwork 120B and the beam 160 provided on the upper wall portion 125. Here, the formwork 120A, the separator 151, the foam tie 152 and the single tube 153, and the cone C are removed after the formation of the beam 160 including the reinforcing bar 161. Further, the gauge portion 6 is fixed to the vertical wall portion 124 of the formwork 120B by bolts B and nuts N via a cone C, and is embedded in the beam 160 by forming the beam 160.

That is, in the beam construction method which is the third installation example, the operator installs the anchor installation frame 2 on the bottom wall portion 123 of the formwork 120B via the pedestal member (cone C), and the bottom wall portion 123. Fixed to. Subsequently, the operator casts concrete into the formwork 120B to form a beam 160 including the reinforcing bar 161 and having the lower end portion of the anchor installation frame 2 embedded therein. Subsequently, the operator removes the formwork 120B and the pedestal member.

The anchor installation frame 2 according to the embodiment of the present invention is extended in the vertical direction and is fixed to an anchor attachment portion 20 to which the anchor 1 can be attached to the upper end portion and a side surface of the lower end portion of the anchor attachment portion 20. It is characterized in that it includes a pair of base portions 30 and 40 that can be fixed to an installation surface, and the pair of base portions 30 and 40 are extended in a direction intersecting each other in a plan view. To do.
Therefore, in the anchor installation frame 2, the base portions 30 and 40 which are the lower end portions of the anchor installation frame 2 and are extended in the directions intersecting with each other are fixed to the installation surface, so that the anchor 1 (with a large diameter) can be used. It can be installed with high fixing strength and position accuracy (and posture accuracy). Further, since the anchor installation frame 2 can visually recognize the installation surface in the vicinity of the anchor attachment portion 20 while being installed on the installation surface, the anchor 1 can be installed with higher position accuracy.

Further, in the anchor installation frame 2, the base portions 30, 40 are extended upward from the bottom plate portions 31, 41 along the installation surface and the edge portions of the bottom plate portions 31, 41 on the anchor mounting portion 20 side. The vertical plate portions 32 and 42 are provided, and the vertical plate portions 32 and 42 are fixed to the anchor mounting portion 20.
Therefore, in the anchor installation frame 2, since the vertical plate portions 32 and 42 of the base portions 30 and 40 are fixed to the anchor mounting portion 20 extending in the vertical direction, the fixing strengths thereof are improved and the anchor mounting is performed. The verticality of the part 20 can be suitably ensured.

Further, the anchor installation frame 2 is characterized by including a plate (fixing plate 50) extending laterally from the anchor attachment portion 20 above the base portions 30 and 40.
Therefore, the anchor installation frame 2 can improve the retaining property of the anchor installation frame 2 by embedding the plate in the foundation 140 or the beam 150.

Further, the beam construction method according to the embodiment of the present invention is a beam construction method for forming a beam 150 on which the anchor installation frame 2 is installed, and the anchor installation frame 2 is placed on the bottom wall portion 123 of the formwork 120B. A step of installing and fixing the beam 150 via a pedestal member (cone C) and a step of forming a beam 150 in which the lower end portion of the anchor installation frame 2 is embedded by placing concrete in the formwork 120B. It is characterized by including a step of removing the formwork 120B and the pedestal member.
Therefore, according to the beam construction method, the anchor installation frame 2 and the anchor 1 can be installed on the beam 150 with high position accuracy (and posture accuracy).

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments and can be appropriately modified without departing from the gist of the present invention. For example, the fixing plate 50 may extend laterally from the middle portion in the height direction of the anchor mounting portion, and extends laterally from a portion of the anchor 1 embedded in the foundation 140 or the beam 150. You may.

1 Anchor 2 Anchor installation frame 3 Bolt 4 Coupler 6 Gauge part 10 Bearing wall 20 Anchor mounting part 30 Base part 31 Bottom plate part 32 Vertical plate part 40 Base part 41 Bottom plate part 42 Vertical plate part 50 Fixing plate (plate)
110 Discarded concrete (installation surface)
120A, 120B Formwork 123 Bottom wall (installation surface)
140 Foundation 150 Beam C cone (pedestal member)

Claims (4)

Anchor mounting part that extends in the vertical direction and can mount an anchor at the upper end,
A pair of base portions that are fixed to the side surface of the lower end portion of the anchor mounting portion and can be fixed to the installation surface,
With
Anchor installation frames characterized in that the pair of the base portions are extended in directions intersecting each other in a plan view. The base portion
The bottom plate along the installation surface and
A vertical plate portion extending upward from the edge portion of the bottom plate portion on the anchor mounting portion side, and
With
The anchor installation frame according to claim 1, wherein the vertical plate portion is fixed to the anchor mounting portion. The anchor installation frame according to claim 1 or 2, wherein a plate extending laterally from the anchor attachment portion is provided above the base portion. A beam construction method for forming a beam on which the anchor installation frame according to any one of claims 1 to 3 is installed.
A step of installing and fixing the anchor installation frame on the bottom wall of the formwork via a pedestal member.
A step of forming a beam in which the lower end of the anchor installation frame is embedded by placing concrete in the formwork.
The step of removing the formwork and the pedestal member,
A beam construction method characterized by including.

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