JP6553442B2 - Reinforcement structure and reinforcement method for existing columns - Google Patents

Description

  The present invention relates to a reinforcing structure and a reinforcing method of an existing column, and more particularly to a reinforcing structure and a reinforcing method using a concrete panel having high strength and high toughness.

Since the 1995 Hyogoken-Nanbu Earthquake caused many damages to reinforced concrete columns, the existing columns have been reinforced to improve seismic performance.
As such a reinforcement method for existing columns, there are the following methods.
<1> A steel plate is arranged around the existing column, and a steel plate winding method is used to fill mortar and sand between the existing column and the steel plate <2> After surface treatment of the existing column, rebar is placed around the existing column Place and place concrete in the formwork. Concrete winding method <3> Wrap continuous fiber sheet with epoxy resin etc. on existing pillar, Fiber winding method <4> Belt around existing pillar Reinforcement method using precast formwork where reinforced mortar is placed by placing reinforcing bars and mortar spraying method <5> Precast formwork is installed and mortar is filled between existing columns and precast formwork

Japanese Patent No. 4992479

The conventional reinforcement method described above has the following problems.
In the <1> steel plate winding method, a lifting machine is required for installing the steel plate, and welding is required for joining the steel plates.
The <2> concrete hoisting method requires heavy machinery for rebar assembly and formwork erection. In addition, in order to secure the fogging, the cross-sectional thickening amount of the reinforcing structure becomes large. In addition, since concrete is cast on site, there is a risk of cracks occurring on the surface of the structure due to drying shrinkage or the like.
The <3> fiber winding method requires a skilled worker because a continuous fiber sheet is wound around a plurality of layers and existing pillars, and the construction labor is increased.
The <4> mortar spraying method requires a plant with an area of about 20 m ^{2 for} mortar spraying. In addition, since the mortar is placed on-site, there is a risk of cracks occurring on the surface of the structure due to drying shrinkage or the like.
In the reinforcement method using a <5> precast form, it is necessary to support the precast form by supporting at the time of mortar filling.
Since the <6> precast formwork is formed in a substantially U shape, the dimensions of the existing pillars that can be used are limited.
<7> The steel sheet winding method and the reinforcing method using the precast formwork take time to manufacture because the steel plate and the precast formwork are produced separately.

The first invention of the present application, which has been made to solve the above-mentioned problems, is located at a predetermined distance from the surface of an existing column, and includes four concrete panels surrounding the column in a rectangular shape in plan view, The concrete panel comprising: an assembly steel material having an L-shaped cross section that is arranged corresponding to each corner and connects two adjacent concrete panels; and a filler that fills a space surrounded by the concrete panel. Is laminated in the height direction along the pillar, and has a flat connecting steel material for connecting the concrete panels positioned above and below, the concrete panel, the assembled steel material and the connecting steel material are bolts The present invention provides a reinforcement structure for existing columns, which is connected by means of
The second invention of the present application provides a reinforcing structure for an existing column according to the reinforcing structure for an existing column of the first invention, wherein the concrete panel is made of concrete or resin concrete reinforced with short fibers.
A third invention of the present application is characterized in that, in the existing column reinforcing structure of the first invention or the second invention, the filler is mortar, concrete, mortar reinforced with short fibers, or concrete reinforced with short fibers. Provide a reinforcing structure for existing pillars.
According to a fourth invention of the present application, in the reinforcing structure for an existing column according to any one of the first to third inventions, a flat reinforcing steel material is attached to the inner surface of the laminated concrete panel in parallel with the connecting steel material, and the concrete A reinforcing structure for an existing column is provided, wherein the panel, the assembled steel material, and the connecting steel material are fixed by the fixture, and the column is surrounded by the reinforcing steel material in a rectangular shape in plan view.
5th invention of this application is the reinforcement method of the existing pillar which builds the reinforcement structure of the existing pillar in any one of 1st invention thru | or 3rd invention, Comprising: The concrete for two sides among four said concrete panels An assembly steel material is joined to the panel with the fixture, and the two concrete panels joined with the assembly steel material are installed on two sides facing each other, and the remaining two sides of the concrete panel are attached to the assembly steel material. And surrounding the existing pillar by the four concrete panels, joining the connecting steel material to the upper side of the concrete panel with the fixture, and further laminating the concrete panel on the upper stage of the concrete panel, The concrete panel of the upper stage is joined to the connecting steel material and the assembled steel material by the fixing tool, and the joining process of the connecting steel material and the conc The existing pillar is surrounded by the concrete panel up to a predetermined height by repeating the lamination process of the gate panel, and the filler is filled in the space between the concrete panel and the pillar. Providing a reinforcement method.
6th invention of this application is the reinforcement method of the existing pillar which builds the reinforcement structure of the existing pillar of 4th invention, Comprising: Assembling steel materials are fixed to the concrete panel for two sides among the four said concrete panels. The two concrete panels joined with the tool and joined with the assembled steel are installed on the two facing sides, and the remaining two sides of the concrete panel are joined with the assembled steel with the fixture. The concrete panel surrounds the existing pillar, the connecting steel material is joined to the upper side of the concrete panel by the fixing tool, the concrete panel is further laminated on the upper stage of the concrete panel, and the upper concrete panel is Joining the connecting steel and the assembled steel by a fixture, joining the connecting steel, and laminating the concrete panel By repeating the above, the existing column is surrounded by the concrete panel up to a predetermined height, and the space between the concrete panel and the column is filled with the filler, and the reinforcing steel is An existing pillar that is attached to the four concrete panels before surrounding the existing pillar and is constructed by surrounding the existing pillar with the four concrete panels and then joining the assembled steel with the fixture. Providing a reinforcement method.

The present invention can obtain at least one of the following effects by means for solving the above-described problems.
<1> Since the concrete panel is arranged on the surface, the structure surface is not cracked and the quality is stabilized.
By using a <2> high strength and high toughness concrete panel, the durability is improved.
<3> Since a concrete panel is arrange | positioned around the existing pillar without requiring a welding operation, a skilled worker is unnecessary.
Since <4> concrete panel is flat form, it can apply to the existing pillar of arbitrary dimensions.
<5> The concrete panel is flat and can be manually constructed by reducing the weight.
<6> Man-powered construction enables construction in narrow spaces.
<7> Since the concrete of the panel is not placed on site, labor and labor can be saved.
<8> Supporting work can be omitted by combining the concrete panel with the assembled steel material and the connecting steel material and closing the column.
<9> Since high strength and high toughness concrete panels are used, there is no need to arrange reinforcing bars inside, and the construction period is shortened.
<10> Since no lifting machine is used, CO ₂ during construction is reduced, and noise and vibration during construction are reduced.
<11> By additionally arranging a reinforcing steel material for reinforcement, the degree of reinforcement in the reinforcing structure can be changed.

The perspective view of the reinforcement structure of the existing pillar of this invention Perspective view of concrete panel Sectional view of the reinforcement structure of an existing pillar An illustration of the arrangement of concrete panels, assembled steels, and connecting steels Illustration of joining with fixture Illustration of reinforcement method (1) Illustration of reinforcement method (2) Explanatory drawing of reinforcement structure of existing column concerning other examples Explanatory drawing of arrangement of reinforcement steel materials concerning other examples

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<1> reinforcement structure.
The reinforcing structure of the existing pillar according to the present invention corresponds to the four concrete panels 1 arranged with a predetermined distance from the surface of the existing pillar A and surrounding the pillar A in a rectangular shape in plan view, and the corners of the pillar A. And an assembled steel material 2 connecting two adjacent concrete panels 1.
The concrete panel 1 is stacked in the height direction along the column A, and the upper and lower concrete panels 1 are connected via the connecting steel material 3. Further, the assembled steel material 2 may also be configured to be laminated. At this time, the upper and lower assembly steels 2 are connected by a connecting material such as a bolt.
Then, the filler 4 is filled between the column A and the concrete panel 1.
The concrete panel 1, the assembled steel material 2 and the connecting steel material 3 are connected by the fixture 5.

<2> Concrete panel.
The concrete panel 1 of the present invention is a rectangular flat plate (width: approximate dimensions of existing columns after reinforcement, height: 500 mm, thickness: 10-50 mm), and is a high-strength, high-toughness precast concrete produced in a factory. It is a panel. (Figure 2)
The high-strength and high-toughness concrete panel is concrete or resin concrete in which a cement-based material is reinforced with short fibers (steel fibers or synthetic fibers). Thereby, the concrete panel 1 can be reduced in weight.
For the seismic reinforcement of the existing pillar A, the concrete panel 1 is connected in a rectangular shape in plan view to surround the pillar A, thereby forming the surface of the reinforcing structure (FIG. 3). Since the surface of the reinforcing structure is the concrete panel 1 produced at the factory, the structure surface is not cracked due to drying shrinkage or the like as in the case of placing concrete or mortar on site, and the quality is improved.
The concrete panel 1 is provided with a recess 11 of a predetermined width along the upper side and the lower side.
The concrete panel 1 is provided with an insertion hole 12 through which a fixture 5 for coupling to the assembled steel material 2 and the connecting steel material 3 is inserted.
In order to reinforce by the high strength high toughness concrete panel 1, durability improves.
Moreover, since it is not necessary to arrange a reinforcing bar inside the concrete panel 1, construction in a short construction period is possible.

<3> Assembled steel materials.
The assembled steel material 2 is a steel material having an L-shaped cross section, and angle steel (width: 120 mm, height: 120 mm, thickness: 9 mm) can be used.
The assembled steel material 2 corresponds to the corners of the pillar A and is arranged so that both sides of the L shape are along the two sides of the pillar A.
The assembled steel material 2 contacts the back surface of the concrete panel 1 (FIG. 4). Moreover, in the recessed part 11 of the concrete panel 1, it contacts with the connection steel materials 3. FIG.
The assembled steel material 2 is provided with an insertion hole 21 through which the fixing tool 5 is inserted.
The assembled steel material 2 is appropriately changed according to the size and height of the existing column to be reinforced.

<4> Connection steel materials.
The connecting steel material 3 is a steel plate having a rectangular flat plate shape (height: 200 mm, thickness: 9 mm).
The connecting steel material 3 is disposed across the concave portions 11 respectively provided on the upper side of the lower concrete panel and the lower side of the upper concrete panel among the concrete panels 1 to be laminated.
The connecting steel material 3 is provided with an insertion hole 31 through which the fixing tool 5 is inserted.
The connecting steel material 3 changes the height as appropriate depending on the size of the existing column to be reinforced.

<5> fixtures.
The concrete panel 1, the assembled steel material 2 and the connecting steel material 3 are connected by the fixture 5.
The fixture 5 is a countersunk bolt, a round bolt or a hexagonal bolt.
The fixtures 5 are provided at a plurality of locations in the height direction of the concrete panel 1 and the assembled steel material 2.
The fixing tool 5 penetrates and connects the concrete panel 1 and the assembled steel material 2 at the central portion in the height direction of the concrete panel 1. Moreover, in the recessed part 11 of the concrete panel 1, the concrete panel 1, the connection steel material 3, and the assembly steel material 2 are penetrated (FIG. 5).
The fixture 5 preferably has a length substantially the same as the thickness of the reinforcing structure to be constructed. At this time, the tip of the fixture 5 comes into contact with the column A.

<6> filler.
The filler 4 filled between the pillar A and the concrete panel 1 is mortar or concrete. It is also possible to use mortar or concrete reinforced by adding short fibers to the mortar or concrete cement-based material.
The filler 4 is integrated with the concrete panel 1 to surround and reinforce the column A.

<7> Reinforcement method.
Next, the reinforcing method of the present invention will be described.

<7-1> Preparation.
Wash column A with a high washer or the like. Moreover, in order to assemble a reinforcement structure around the pillar A, the existing foundation top is finished horizontally.

<7-2> Assembly of concrete panel and assembled steel material.
Of the reinforcing structure to be constructed, the assembled steel material 2 is joined to the concrete panels 1 for two sides by the fixture 5.
Since the concrete panel 1 is flat and made of thin concrete, the concrete panel 1 is lightweight and can be manually constructed in carrying-in work and assembly.
When the length of the fixture 5 is substantially the same as the thickness of the reinforcing structure to be constructed, the fixture 5 is screwed until the head of the fixture 5 becomes substantially the same surface as the surface of the concrete panel 1, and the fixture 5 is assembled. Protruding from the steel 2
Then, the assembled concrete panel 1 and the assembled steel material 2 are installed on two sides facing each other (FIG. 6). When the length of the fixture 5 is substantially the same as the thickness of the reinforcing structure to be constructed, the concrete panel 1 and the assembled steel material 2 are brought into contact with the column A by bringing the end of the fixture 5 protruding from the assembled steel material 2 into contact with the column A. The positioning in the column A direction is easy.
At this time, a space of about 30 mm to 50 mm is provided by the support member 6 with the existing foundation.
The support material 6 is made of a material that is softer than the concrete panel 1 and can support weight, such as bitumen fiber, bitumen, foam rubber, foam resin, and urethane. After the reinforcement structure is constructed, the lower end of the reinforcement structure is supported by the support material 6. By supporting, the support material 6 is deformed following the deformation of the column A, and the reinforcing structure is prevented from being damaged. The supporting material 6 is spread from the lower end of the concrete panel 1 to the surface of the pillar A so that the filling material 4 does not leak.
Thereafter, the concrete panels 1 on the remaining two sides are joined to the assembled steel material 2 by the fixtures 5. The fixture 5 is provided near the center and lower end in the height direction of the concrete panel 1. When the length of the fixture 5 is substantially the same as the thickness of the reinforcing structure to be constructed, when joining one of the remaining two sides, the end of the fixture 5 is brought into contact with the column A, Positioning of three concrete panels 1 and four assembled steel materials 2 can be performed.
The pillar A is surrounded by the four concrete panels 1 by this process. Since the four concrete panels 1 are joined to the assembled steel material 2, it is not necessary to place post-installed anchors.

<7-3> Joining of connecting steel materials.
The connecting steel material 3 is inserted into the recess 11 on the upper side of the four concrete panels 1.
And the concrete panel 1, the connection steel material 3, and the assembly steel material 2 are joined by the fixing tool 5 (FIG. 7).

<7-4> Joining of the upper concrete panel.
Next, the concave portion 11 on the lower side of the upper concrete panel 1 is aligned with the connection steel material 3 that has already been joined to the lower concrete panel 1.
Then, the upper concrete panel 1 is joined to the connecting steel material 3 and the assembled steel material 2 by the fixture 5.
Thereafter, the above steps are repeated to surround the column A with the concrete panel 1 to a predetermined height.

<7-5> Filling with filler.
Filler 4 is filled between concrete panel 1 and column A. The filler 4 is a premix, which is hydrated and kneaded on site, and filled with a mortar pump or the like.
At this time, the L-shaped assembled steel material 2 is located at the four corners of the cross-sectional square surrounded by the concrete panel 1, and the connecting steel material 3 is located at the joint of the concrete panel 1 in the height direction. Thereby, the filler 4 does not leak from the gap.
The concrete panel 1 is closed in a state of being connected to the assembled steel material 2 and the connecting steel material 3 by the fixing tool 5 and surrounds the pillar A. For this reason, it is not necessary to construct a support at the time of filling the filler 4.

The reinforcing method of the present invention joins all the members surrounding the column A with the fixture 5 and does not require welding work, and can be easily assembled even if it is not a skilled worker. The labor can be saved.
Moreover, since all the members are lightweight, manpower construction is possible, and reinforcement of the pillar A located in a narrow place can also be performed easily. Since no lifting machine is used, CO ₂ during construction is reduced, and noise and vibration during construction are reduced.

[Other Examples]

<1> Reinforcing steel.
In the reinforcing structure of the present invention, the reinforcing steel material 7 may be additionally disposed in parallel with the connecting steel material 3 which is disposed with an interval in the longitudinal direction. (Figure 8)
The reinforcing steel material 7 is a rectangular flat steel material, similar to the connection steel material 3, and the lower end of the upper connection steel material 3 and the upper end of the lower connection steel material 3 (the lowermost concrete panel 1 and the lower connection). When there is no steel material 3, the width of the lower end of the concrete panel 1 is not exceeded.
The reinforcing steel material 7 is fitted and attached to the reinforcing steel material recessed part 13 which is formed by cutting the back surface of the concrete panel 1 in advance, and fixed by the fixing tool 5 penetrating the concrete panel 1, the reinforcing steel material 7 and the assembly steel material 2 And surround the pillar A in a plan view rectangle (FIG. 9).
The degree of reinforcement in the reinforcing structure can be changed by adjusting the arrangement position and the arrangement interval of the reinforcing steel members 7.

<2> End reinforcement steel material.
Similarly to the reinforcing steel material 7, the end reinforcing steel material 8 may be arranged along the lower end of the lowermost concrete panel 1 and inside the concrete panel 1 in parallel with the joining steel material 3.
The end reinforcing steel material 8 is a rectangular flat steel material, like the connection steel material 3, and is provided separately so as not to overlap the reinforcing steel material 7. Alternatively, the reinforcing steel material 7 and the end reinforcing steel material 8 may be integrally provided.
The end portion reinforcing steel material 8 is fitted into the concave portion 11 on the lower side of the concrete panel 1, and the concrete panel 1, the end portion reinforcing steel material 3, and the assembled steel material 2 are joined by the fixture 5.

<3> Column shape.
In the above-described embodiment, the column A having a square cross section is reinforced. However, the column A having an arbitrary size can be reinforced only by changing the width of the opposing concrete panel 1.

DESCRIPTION OF SYMBOLS 1 Concrete panel 11 Recess 12 Insertion hole 13 Reinforcing steel recess 2 Assembly steel 3 Connection steel 4 Filler 5 Fixture 6 Support material 7 Reinforcement steel 8 End reinforcement steel

Claims (6)

Four concrete panels that are positioned with a predetermined distance from the surface of the existing pillars and surround the pillars in a rectangular shape in plan view;
An assembled steel material having an L-shaped cross section, disposed corresponding to each corner of the column, and connecting two adjacent concrete panels;
A filler for filling the space surrounded by the concrete panel;
The concrete panels are stacked in the height direction along the columns,
It has a plate-like connecting steel material that connects the concrete panels located at the top and bottom,
The concrete panel, the assembled steel material, and the connection steel material are connected by a bolt-like fixture,
Reinforcement structure of existing pillars.   The reinforcement structure of the existing pillar of Claim 1 WHEREIN: The said concrete panel consists of the concrete or resin concrete reinforced with the short fiber, The reinforcement structure of the existing pillar characterized by the above-mentioned.   The reinforcing structure of the existing column according to claim 1 or 2, wherein the filling material is mortar, concrete, mortar reinforced with short fibers, or concrete reinforced with short fibers. Reinforced structure.   The reinforcing structure of the existing column according to any one of claims 1 to 3, wherein a flat reinforcing steel material is attached in parallel to the connecting steel material on the inner surface of the concrete panel to be laminated, the concrete panel, A reinforced structure of an existing column, comprising fixing an assembled steel material and the connection steel material by the fixing tool and surrounding the column in a rectangular shape in plan view by the reinforcing steel material. It is the reinforcement method of the existing pillar which builds the reinforcement structure of the existing pillar according to any one of claims 1 to 3,
Among the four concrete panels, the assembled steel material is joined to the concrete panels for two sides by the fixture,
The two concrete panels obtained by joining the assembled steel materials are installed on two opposing sides,
The concrete panels of the remaining two sides are joined to the assembled steel material by the fixture, and the existing pillar is surrounded by the four concrete panels,
The connecting steel material is joined to the upper side of the concrete panel by a fixture,
The concrete panel is further laminated on the upper stage of the concrete panel, and the upper concrete panel is joined to the connecting steel and the assembled steel by a fixture,
By repeating the joining process of the connecting steel material and the laminating process of the concrete panel, the existing column is surrounded by the concrete panel to a predetermined height,
The space between the concrete panel and the column is filled with the filler.
Reinforcement method for existing pillars. It is a reinforcement method of the existing pillar which builds the reinforcement structure of the existing pillar of Claim 4, Comprising:
Among the four concrete panels, the assembled steel material is joined to the concrete panels for two sides by the fixture,
The two concrete panels obtained by joining the assembled steel materials are installed on two opposing sides,
The concrete panels of the remaining two sides are joined to the assembled steel material by the fixture, and the existing pillar is surrounded by the four concrete panels,
The connecting steel material is joined to the upper side of the concrete panel by the fixing tool,
The concrete panel is further laminated on the upper stage of the concrete panel, and the upper concrete panel is joined to the connecting steel and the assembled steel by the fixture,
By repeating the joining process of the connecting steel material and the laminating process of the concrete panel, the existing column is surrounded by the concrete panel to a predetermined height,
The space between the concrete panel and the pillar is constructed by filling the filler,
The reinforcing steel material is attached in advance to the four concrete panels before surrounding the existing pillar, and after surrounding the existing pillar with the four concrete panels, the reinforcing steel material is joined to the assembled steel material by the fixture. To construct,
Reinforcement method for existing pillars.

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