JP2021059901A - Wall structure, and construction method of wall structure - Google Patents

Abstract

To provide an extremely lightweight wall structure with excellent earthquake resistance.SOLUTION: A wall structure 1 includes: a structure frame 2; and a wood panel wall 3 that is placed in the structure frame 2. The wood panel wall 3 is constituted of multiple panel units 4 which are connected to each other. Joint holes 43,..., 45, ... are provided on end faces of the panel unit 4 facing frame 2. Anchor bolts 5 are inserted into the joint holes 43, ..., 45, ... and filled with an adhesive 6 to fix the anchor bolts 5 to the panel unit 4. Concrete is cast with anchor bolts 5 protruding into the formwork of frame 2, and the frame 2 and the wood panel wall 3 are joined to each other via the anchor bolts 5.SELECTED DRAWING: Figure 1

Description

The present invention relates to a wall structure having excellent seismic resistance using a cross laminated board (CLT) or a single board laminated material (LVL).

Conventionally, a wooden wall is used as a seismic element in a wooden structure, and a reinforced concrete wall is used as a seismic element in a reinforced concrete structure (RC structure) to form a frame. Further, in RC construction, there is a seismic retrofitting technology using steel panels, and in steel frame construction, there is a technology for vibration damping members of steel panels with damping performance added.

In addition, there is an existing construction method that employs orthogonal laminated wood (CLT) or single plate laminated material (LVL) as a reinforcing member for seismic repair of existing RC structures. For example, Patent Document 1 discloses a wall structure in which a wooden board member is arranged in a frame so as to cover an RC earthquake-resistant wall from the indoor space side. It is said that such a configuration can improve the aesthetic appearance by preventing the seismic members from being exposed on the indoor space side, and can improve the seismic resistance by sharing the shearing force with the wooden board members. There is.

Japanese Unexamined Patent Publication No. 2015-40401

However, in the conventional technique including the wall structure of Patent Document 1, CLT or LVL is used as a reinforcing member for the existing frame (concrete structure) so as to be added to the RC wall. Therefore, there is a problem that the weight of the skeleton is large due to the existence of the RC wall and the horizontal force at the time of an earthquake is large.

Therefore, an object of the present invention is to provide a wall structure that is extremely lightweight and has excellent earthquake resistance.

In order to achieve the above object, the wall structure of the present invention is a frame of a structure and a wooden panel wall body arranged in the frame, and a plurality of panel units are connected to each other to form a wooden structure. It has a panel wall and.

Further, the method for constructing a wall structure of the present invention is a method for constructing a wall structure in a newly installed frame, and includes a step of preparing a plurality of panel units composed of orthogonal laminated boards or single-plate laminated materials, and a plurality of steps. A step of building the panel unit on a beam constituting the frame, a step of connecting a plurality of the panel units to each other to construct a wooden panel wall, and a step of joining the wooden panel wall and the frame. , Is equipped.

As described above, the wall structure of the present invention includes a frame of the structure, a wooden panel wall body arranged in the frame, and a wooden panel wall body formed by connecting a plurality of panel units to each other. It has. With such a configuration, the horizontal force can be reduced by reducing the weight, so that the wall structure has excellent earthquake resistance.

Further, the method for constructing a wall structure of the present invention is a method for constructing a wall structure in a newly installed frame, and includes a step of preparing a plurality of panel units composed of orthogonal laminated boards or single plate laminated materials, and a plurality of steps. It includes a process of building a panel unit on a beam that constitutes a frame, a process of connecting a plurality of panel units to each other to construct a wooden panel wall, and a process of joining the wooden panel wall and the frame. .. With such a configuration, it is easy to handle during transportation and construction because it is composed of panel units, and horizontal force is also reduced by reducing the weight, so a wall structure with excellent earthquake resistance is constructed. it can.

It is a front view of the wall structure of an Example. It is sectional drawing of the wall structure of an Example. It is sectional drawing which shows the structure of a panel unit. It is sectional drawing which shows the structure of the joint part of a frame and a panel unit. It is sectional drawing which shows the structure of the connection part between panel units. It is explanatory drawing which shows the construction procedure of a wall structure. (A) is a step of preparing the panel unit, and (b) is a step of connecting the panel units. It is explanatory drawing which shows the construction procedure of a wall structure. (A) is a step of filling the joint hole with an adhesive, and (b) is a step of placing concrete.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following examples, the case where the wall structure of the present invention is applied to a reinforced concrete structure (RC structure) will be described, but the present invention is not limited to this, and S structure, SRC structure, and PC structure are used. The wall structure of the present invention can also be applied to the above.

(Overall composition of wall structure)
First, the overall configuration of the wall structure 1 of the present invention will be described with reference to FIGS. 1 and 2.

As shown in FIGS. 1 and 2, the wall structure 1 of the present invention mainly consists of a reinforced concrete (RC structure) frame 2 as a frame of a structure and a wooden panel wall body arranged in the frame 2. It is composed of a wooden panel wall body 3 which is 3 and is formed by connecting a plurality of panel units 4, ... To each other (in the horizontal direction). Then, in the wall structure 1 of the present embodiment, the wooden panel wall body 3 is constructed while being integrated with the RC frame 2 when the RC frame 2 is newly constructed.

The reinforced concrete (RC) frame 2 is a so-called rigid frame structure composed of columns 21a and 21b, beams 22a and 22b, and other elements (for example, foundations 23a and 23b). That is, as will be described later, the frame 2 is constructed by arranging reinforcing bars 24, installing a formwork 25 around the reinforcing bars 24, and placing concrete 26 in the formwork 25.

Then, a wooden panel wall body 3 is arranged inside the frame 2 of this embodiment. The columns 21a, 21b and beams 22a, 22b of the frame 2 and the left and right end faces 31a, 31b and the upper and lower end faces 32a, 32b of the wooden panel wall 3 are integrally joined via anchor bolts 5 as described later. Has been done.

(Structure of wooden panel wall)
As shown in FIG. 1, the wooden panel wall body 3 is configured by connecting a plurality of panel units 4, ... To each other (horizontally). The panel unit 4 constituting the wooden panel wall 3 is preferably made of a cross laminated board (CLT) or a veneer laminated material (LVL). The wood panel wall 3 is not limited to these, and is widely included in the wood panel wall 3 of the present invention as long as it has a structure in which boards are laminated.

Of these, the orthogonal laminated board (CLT, Cross Laminated Timber) is a material for wood structure in which the fiber directions of the ground board (lamina) are laminated and bonded so as to be alternately orthogonal to each other. Orthogonal laminated boards are large, thick boards, and are used not only for structural materials for buildings, but also for civil engineering materials and furniture.

The veneer laminated material (LVL, Laminated Veneer Lumber) is a wood structural material in which the fiber directions (grains) of the veneer are all parallel to each other. Several orthogonal layers (cross bands) may be inserted into the single plate laminated material in order to prevent warpage in the width direction.

As shown in FIG. 3, the panel unit 4 is a rectangular plate material composed of the above-mentioned orthogonal laminated board or single plate laminated material, and by connecting a plurality of panel units 4 in the horizontal direction, a larger cross section can be obtained. The wooden panel wall body 3 is made of eggplant. The size of the main body 40 of the panel unit 4 can be determined in consideration of the height dimension from the floor surface of the frame 2 to the bottom of the beam and the transportability (width 2400 mm or less), for example, 2850 × 1800 × 210 (t). ). Further, in the case of construction in an urban area, it is preferable that the weight is less than 1000 kg in consideration of construction with a tower crane.

The left and right end faces 41a and 41b of the main body 40 of the panel unit 4 are connected to a plurality of joint holes 43 for joining the left and right columns 21a and 21b of the frame 2, ... A plurality of connecting holes 44, ... Are provided. The joint holes 43 can be arranged at intervals of 400 mm at a depth of 200 mm, for example. Similarly, the connecting holes 44 can be arranged, for example, at intervals of 250 mm at a depth of 200 mm. The dimensions of the panel unit 4 described here are examples, and can be set to any dimensions.

Further, the upper and lower end faces 42a and 42b of the panel unit 4 are provided with joint holes 45 for joining with the upper and lower beams 22a and 22b of the frame 2. The joint holes 45 can be arranged at intervals of 400 mm at a depth of 200 mm, for example. The spacing and depth of the connecting holes 44 and the joining holes 43 and 45 can be determined according to the required proof stress. Further, it is preferable that discharge holes (not shown) for discharging the adhesive are drilled at the ends of the joint holes 43 and 45 and the connection holes 44.

(Structure of joining the frame and the wooden panel wall)
As shown in FIG. 4, the joint portion between the frame 2 and the wooden panel wall 3 is joined to the frame 2 and the wooden panel wall 3 by using a so-called GIR joint. That is, joint holes 43, ..., 45, ... Are provided on the end faces of the panel unit 4 (wooden panel wall body 3) facing the frame 2, and the joint holes 43, ..., 45, ... The anchor bolt 5 is filled with the adhesive (for example, epoxy resin) 6 in the state where the anchor bolt 5 is inserted, and the anchor bolt 5 is fixed to the panel unit 4. As the anchor bolt 5, a steel rod or a deformed reinforcing bar can be used. The anchor bolt 5 may be fixed to the panel unit 4 at the factory or at the site.

Then, concrete 26 is cast with the anchor bolts 5 fixed to the panel unit 4 protruding into the formwork of the frame 2, and the frame 2 and the wooden panel wall 3 are joined via the anchor bolts 5. It has become like. For fixing the anchor bolt 5 to the frame 2 side, a steel plate, a steel material, or the like can be used in addition to embedding.

As described above, stress transfer can be performed via the adhesive force of the adhesive 6 and the anchor bolt 5. Specifically, the tensile force and the shearing force between the frame 2 and the wooden panel wall 3 can be transmitted. In addition, it can be configured to transmit only the tensile force or only the shearing force. Further, stress transmission due to friction between the wooden panel wall body 3 and the frame 2 is also possible.

(Structure of connection between panel units)
As shown in FIG. 5, the panel units 4 are connected to each other by using anchor bolts. That is, the end faces 41a and 41b of the panel unit 4 facing the adjacent panel unit 4 are provided with connecting holes 44, ... The adhesive 6 is filled with the anchor bolts 5 common to the connecting holes 44, ..., And the adjacent panel units 4 and 4 are connected to each other in the horizontal direction.

As described above, stress transfer can be performed via the adhesive force of the adhesive 6 and the anchor bolt 5. Specifically, the tensile force and the shearing force between the panel units 4 and 4 can be transmitted. In addition, it can be configured to transmit only the tensile force or only the shearing force.

(How to build a wall structure)
Next, the procedure of the construction method of the wall structure 1 of this embodiment will be described with reference to FIGS. 6 (a) and 6 (b) and 7 (a) and 7 (b). As shown below, in the construction method of the wall structure 1 of this embodiment, the wooden panel wall body 3 is constructed while being integrated with the RC frame 2 when the RC frame 2 is newly constructed. To.

First, the step (1) shown in FIG. 6 (a) is carried out.
(1) Production of panel unit 4 Processing of main body 40 and attachment of anchor bolts 5. This is a process of preparing a plurality of panel units 4, ... In a factory. Further, the step of preparing includes a step of drilling the joining holes 43 and 45 and the connecting hole 44. In addition, it is preferable to insert and bond the upper and lower anchor bolts 5 of the panel unit 4 at the factory.

Next, the steps (2) to (6) shown in FIG. 6 (b) are carried out.
(2) Foundation work and 1st floor skeleton work Foundation beams (22b) and 1st floor slab concrete will be placed.
(3) Curing of concrete (4) Reinforcement of column bars beside the wall structure 1 (5) Building of panel unit 4 Panel units 4, ... Are built in order from the end. This is a process of building a plurality of panel units 4, ... On the beams 22b constituting the frame 2.
(6) Connection between Panel Units 4 and 4 By inserting the anchor bolts 5 common to the pair of connecting holes 44 and 44 that communicate with each other and injecting the adhesive 6 into the connecting holes 44, the anchor bolts 5 are used. A plurality of panel units 4, ... Are connected to each other in the horizontal direction. That is, the step of constructing the wooden panel wall 3 includes a step of inserting the anchor bolt 5 and a step of injecting the adhesive 6 into the connecting hole 44.

Next, the steps (7) to (9) shown in FIG. 7 (a) are carried out.
(7) Under the panel unit 4, RC rising concrete placement (8) 1st floor rising (columns and walls) Reinforcement (9) Anchor bolts 5 are fixed to the panel unit 4 Below the panel unit 4 (upper and lower panel unit 4 at the site) Anchor bolt 5 is fixed to the panel unit 4 by injecting the adhesive 6 into the joint holes 45, ..., 43, ... Near the pillar. That is, it is a step of filling the adhesive 6 with the anchor bolts 5 inserted in the joint holes 45, ..., 43 ....

Finally, the steps (10) to (13) shown in FIG. 7 (b) are carried out.
(10) Install formwork (1st floor rising, 2nd floor beam) (11) Inject adhesive into the connecting holes 44 of the wall structure 1 arranged in the multilayer and adjacent spans (12) 2nd floor beam 22a (13) Placing concrete on the first floor, that is, the step of placing concrete with the anchor bolts 5 protruding into the formwork. The wooden panel wall 3 and the frame 2 are joined by the steps (1), (9), and (13) described above.
If there is an upper floor, the above steps (3) to (13) will be carried out on that floor.

In the above-described step, in the step (7), the rising concrete is placed under the panel unit 4, but the present invention is not limited to this, and the rising concrete may be omitted. In this case, for example, after the anchor bolt 5 is embedded / fixed in the frame 2 (beam), the anchor bolt 5 can be inserted into the hole of the panel unit 4 to be bonded / fixed.

(Action / effect)
Next, the actions and effects of the wall structure 1 of this embodiment will be listed and described.

(1) As described above, the wall structure 1 of the present embodiment is a frame 2 of the structure and a wooden panel wall body 3 arranged in the frame 2, and a plurality of panel units 4, ... It is provided with a wooden panel wall body 3 which is configured by being connected to each other. With such a configuration, the horizontal force can be reduced by reducing the weight, so that the wall structure has excellent earthquake resistance. Further, when applied to an RC structure, the weight can be reduced, the horizontal force can be reduced, and the cross-sectional size of the RC frame can be reduced. In addition, the burden on the foundation can be reduced by reducing the long-term vertical force and the fluctuation of the axial force during an earthquake.

Further, the wall structure 1 of this embodiment does not bear a vertical force, and therefore does not require a fireproof coating. The vertical force is borne by the frame 2, and the wooden panel wall 3 bears only the horizontal force according to its rigidity. Since the horizontal force is borne by each of the frame 2 and the wooden panel wall body 3, the respective proof stresses can be added and evaluated.

Further, in the RC structure, the rigidity of the wooden panel wall 3 is lower than the rigidity of the RC shear wall even when the rigidity of the wooden panel wall 3 alone is set as the initial rigidity, so that the degree of stress concentration is relaxed and the rigidity is reduced. It is possible to form a well-balanced frame. Even for S structures, it is possible to plan the frame with the rigidity of steel braces.

Further, in the RC structure, since the wooden panel wall 3 is concretely cast integrally with the skeleton, it has a restraining effect by the frame 2, and is formed on the wooden panel wall 3 even after the surrender of the GIR joint. The compression straddle can transmit the shearing force generated in the frame, and the wooden panel wall 3 can bear the shearing force. In addition, even when a compression straddle is formed on the wooden panel wall 3 and stress is transmitted, the design is such that the surrounding skeleton is not significantly damaged.

(2) Further, joint holes 43, ..., 45, ... Are provided on the end faces of the panel unit 4 facing the frame 2, and anchor bolts are provided in the joint holes 43, ..., 45, ... Adhesive 6 is filled with 5 inserted, anchor bolts 5 are fixed to the panel unit 4, concrete is cast with the anchor bolts 5 protruding into the formwork of the frame 2, and the anchor bolts are cast. The frame 2 and the wooden panel wall 3 are joined to each other via 5. With such a simple configuration, the frame 2 and the wooden panel wall 3 can be joined to share the horizontal force. At this time, since the GIR joint does not come out of the wooden panel wall body 3, it is possible to make it a bare finish.

(3) Further, the end faces 41a and 41b of the panel unit 4 facing the adjacent panel unit 4 are provided with connecting holes 44 for communicating with each other in a state where the adjacent panel units 4 are arranged side by side, and a pair of communicating holes 44 are provided. The adhesive 6 is filled with the anchor bolts 5 common to the connecting holes 44 and 44 inserted, and the adjacent panel units 4 and 4 are connected to each other. With such a simple configuration, the panel units 4 can be connected to each other to share the horizontal force. At this time, since the anchor bolt does not come out of the wooden panel wall body 3, it is possible to make it a bare finish.

(4) Further, it is preferable that the plurality of panel units 4, ... Are composed of a cross laminated board (CLT) or a single board laminated material (LVL).

(5) Further, the method for constructing the wall structure of the present embodiment is a method for constructing the wall structure in the newly installed frame, and a plurality of panel units 4 composed of orthogonal laminated boards or single plate laminated materials, ... The process of preparing, the process of building a plurality of panel units 4, ... On the beams 22b constituting the frame 2, and the process of connecting the plurality of panel units 4, ... It is provided with a step of constructing a wooden panel and a step of joining the wooden panel wall body 3 and the frame 2. With such a configuration, the horizontal force can be reduced by reducing the weight, so that the wall structure has excellent earthquake resistance. Further, in the construction by RC construction, since the wooden panel wall body 3 is made of wood material, it is easy to install the formwork of the skeleton, and the integrated construction becomes possible.

(6) Further, in the step of preparing a plurality of panel units 4, ..., The joint holes 43, ..., 45, ... -There is a step of drilling holes, and the step of joining the wooden panel wall body 3 and the frame 2 is a state in which anchor bolts 5, ... Are inserted into the joining holes 43, ..., 45, ... It has a step of filling the adhesive 6 and a step of placing concrete with the anchor bolts 5, ... Protruding into the formwork of the frame 2. With such a simple configuration, the frame 2 and the wooden panel wall 3 can be joined to share the horizontal force. At this time, since the GIR joint does not come out of the wooden panel wall body 3, it is possible to make it a bare finish.

(7) Further, in the step of preparing a plurality of panel units 4, ..., The adjacent panel units 4 are arranged side by side on the end faces 41a and 41b of the panel units 4 facing the adjacent panel units 4. The step of drilling the connecting holes 44 and 44 communicating with each other and constructing the wooden panel wall 3 includes a step of inserting an anchor bolt 5 common to the pair of connecting holes 44 and 44 communicating with each other and a step of connecting the wooden panel wall body 3. It has a step of filling the holes 44, 44 with the adhesive 6. With such a simple configuration, the panel units 4 can be connected to each other to share the horizontal force. At this time, since the anchor bolt does not come out of the wooden panel wall body 3, it is possible to make it a bare finish.

Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and design changes to the extent that the gist of the present invention is not deviated are described in the present invention. included.

For example, in the embodiment, the joining of the frame 2 and the wooden panel wall 3 is described as joining all four sides, but the present invention is not limited to this, and the two sides (wood panel wall 3 and the beam 22a, Only 22b) may be joined.

Further, anchor bolts 5 are used for joining the frame 2 and the wooden panel wall 3 and connecting the panel units 4, but the anchor bolts 5 are in one row (single) according to the required yield strength. ), Two rows (double), and even more.

1: Wall structure 2: Frame 21a, 21b: Column 22a, 22b: Beam 23a, 23b: Foundation 24: Reinforcing bar 25: Formwork 26: Concrete 3: Wood panel wall 31a, 31b: End face 32a, 32b: End face 4: Panel unit 40: Main body 41a, 41b: End faces 42a, 42b: End faces 43: Joining holes 44: Connecting holes 45: Joining holes 5: Anchor bolts 6: Adhesive

Claims (7)

The frame of the structure and
A wooden panel wall body arranged in the frame, wherein a plurality of panel units are connected to each other to form a wooden panel wall body.
With a wall structure. A joint hole is provided on the end surface of the panel unit facing the frame, and the adhesive is filled with the anchor bolt inserted in the joint hole to fix the anchor bolt to the panel unit and at the same time.
The wall structure according to claim 1, wherein concrete is cast with the anchor bolts protruding into the formwork of the frame, and the frame and the wooden panel wall are joined via the anchor bolts. .. On the end surface of the panel unit adjacent to the panel unit facing the panel unit, a connecting hole for communicating with each other in a state where the adjacent panel units are arranged side by side is provided, and an anchor bolt common to the pair of the connecting holes communicating with each other is provided. The wall structure according to claim 1 or 2, wherein the adhesive is filled in the inserted state and the adjacent panel units are connected to each other. The wall structure according to any one of claims 1 to 3, wherein the plurality of panel units are composed of an orthogonal laminated board or a single plate laminated material. It is a method of constructing a wall structure in a new frame.
The process of preparing a plurality of panel units composed of orthogonal laminated boards or single board laminated materials, and
The process of building a plurality of the panel units on the beams constituting the frame, and
A process of connecting a plurality of the panel units to each other to construct a wooden panel wall body, and
The process of joining the wooden panel wall body and the frame,
How to build a wall structure. The step of preparing the plurality of the panel units includes a step of drilling a joint hole in the end surface of the panel unit facing the frame.
The steps of joining the wooden panel wall body and the frame are the steps of filling the adhesive with the anchor bolts inserted in the joint holes and the concrete with the anchor bolts protruding into the formwork of the frame. The step of placing the wall structure and the method of constructing the wall structure according to claim 5, which has the same step. The step of preparing the plurality of the panel units includes a step of drilling a connecting hole that communicates with each other in a state where the adjacent panel units are arranged side by side on the end surface of the panel unit facing the adjacent panel unit. And
5. The step of constructing the wooden panel wall body includes the step of inserting an anchor bolt common to the pair of communicating connecting holes and the step of filling the connecting holes with an adhesive, according to claim 5 or claim. The method for constructing a wall structure according to 6.

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