JP2013007250A - Reinforcement structure for existing structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a superior reinforcement structure for an existing structure, which: does not cause a major concern of strength reduction of an existing concrete structure due to a bore hole; poses no threat of position interference between the bore hole and PC steels or reinforcing-bars inside an existing concrete structure such as an existing concrete girder; and is used in an outer-cable-reinforcement method, a bridge-fall-preventing device installation method, or an edge-end-widening method, for an existing bridge, enabling smooth adoption of the reinforcement structure for an existing structure.SOLUTION: A reinforcement structure for an existing structure reinforces an existing structure by installing a bracket on a side surface of the existing structure, and is characterized by gluing the existing structure and the bracket with an adhesion member being placed between a side surface of the existing structure and an installation surface of the bracket being in contact with the side surface of the existing structure.

Description

The present invention relates to a reinforcing structure of an existing structure in which a reinforcing structure is constructed by attaching a bracket to an existing structure such as an existing bridge, a bridge or a main girder, an abutment, or a building structure.

  Conventionally, when a new load application point is intentionally formed on an existing structure such as an existing concrete structure, for example, a reinforcing bracket is attached to the side surface thereof, and the load is transmitted from the bracket to the existing structure. Such a structure is generally adopted. And as this adoption example, it can be seen in the external cable reinforcement construction method of the existing bridge, the falling bridge prevention device installation construction method, the edge widening construction method, and the like.

  Here, the outer cable reinforcement method will be described. The outer cable reinforcement method is a method in which a reinforcing bracket is attached and fixed to the outer surface of an existing concrete structure such as an existing concrete bridge, and a tension member is disposed on the bracket. In addition, prestress is applied through the deflecting unit.

  In other words, the external cable reinforcement method does not require the PC steel material subjected to rust prevention treatment to be placed directly inside the concrete, but is placed on the outside of the concrete, such as on the outside, and prestressed by the fixing part or deflection part. As an advantage, since the PC steel duct is not provided inside the web or slab, the thickness of the member can be reduced and the weight can be reduced. In addition, the amount of PC steel can be reduced by the amount that the dead weight can be reduced.

Replacement and re-tensioning of PC steel, reinforcement of girders by introducing pre-stress and camber adjustment can be performed relatively easily, which is advantageous in terms of maintenance.
The loss of prestress due to the friction of the PC steel material occurs only at the deflection portion of the cable support point. Therefore, prestress can be introduced effectively. Moreover, since the status of the grout construction can be confirmed, the reliability is improved. And is said to have many advantages.

  Conventionally, the connection for transmitting the force between the bracket and the existing concrete structure in the existing concrete structure is, for example, from the side surface 6 of the existing concrete structure as shown in FIGS. 5, 15, and 16. The through hole 4 penetrating the concrete structure is drilled, and a reinforcing bar, a steel anchor bolt or a PC steel rod 3 (including friction welding by introducing prestress) is arranged in the through hole 4. is the current situation.

  Thus, for example, in attaching a bracket to an existing concrete structure, drilling holes (through holes) in the existing concrete structure have become indispensable in any of the conventional techniques.

  However, drilling holes in existing concrete structures, especially through-holes, can cause significant damage to the structure, and the existing reinforcing bars 16 and existing holes that cannot be cut inside the existing concrete structure. In consideration of the interference with the PC steel material 20, the drilling position of the through hole 4 is extremely limited, and the installation position of the bracket is considerably limited (see FIG. 5). That is, as can be understood from FIG. 5, at the position 17 of the through hole 4 set in advance by design, the existing reinforcing bar 16 and the existing PC steel material 20 that cannot be cut overlap and interfere with each other. It cannot be pierced.

  Therefore, it was necessary to make corrections at the site, check the positions of the existing reinforcing steel bars 16 and the existing PC steel materials 20 one by one, and then change them to appropriate drilling positions 18. . In other words, it was necessary to perform non-destructive inspection (internal inspection using RC radar, X-rays, etc.) and micro-destructive inspection (verification of non-destructive inspection results using drilling, etc.) inside the existing structure at the site. .

As described above, as a problem of drilling holes in existing concrete structures, there is a great concern about the decrease in proof stress of existing concrete structures due to the drilling holes. The behavior is not theoretically clarified. Furthermore, the existing PC steel 20 and the existing rebar 16 inside the existing concrete structure such as an existing concrete girder may interfere with the drilling position, and in reality, it cannot be drilled at a predetermined position, which causes a design problem. There are many cases. The issues such as were mentioned.

JP 2002-221916 A

Thus, the present invention was devised to cope with the above-described conventional problems, and the reinforcement structure of the existing structure according to the present invention may be greatly concerned with a decrease in the proof stress of the existing concrete structure based on drilling. In addition, there is no risk of interference between the position of the PC steel material, the reinforcing bar and the drilling hole inside the existing concrete structure such as the existing concrete girder, and a new load application point is intentionally added to the existing structure such as the existing concrete structure. For example, when a reinforcing bracket is provided on the side surface, it is easy to adopt a structure that transmits the load from the bracket to the existing structure. Providing an excellent reinforcement structure for existing structures, such as the edge widening method, which can be easily adopted for the reinforcement structure of existing structures. It is an object of the present invention.

It is an existing structure reinforcement structure that reinforces the existing structure by attaching a bracket to a side surface of the existing structure, and is an existing structure reinforcement structure that reinforces the existing structure by attaching a bracket to the existing structure attachment surface.
The mounting of the bracket is performed by interposing an adhesive member between the mounting surface of the existing structure and the mounting surface of the bracket in contact with the mounting surface, and adhesively mounting the existing structure and the bracket.
It is characterized by
Or
It is an existing structure reinforcement structure that reinforces an existing structure by attaching a bracket to the existing structure mounting surface.
The mounting of the bracket uses a fixing material for fixing the bracket, and the fixing material is composed of a fixing portion for fixing the bracket and an adhesive margin portion of the fixing material composed of the remaining portion after fixing, An adhesive member is interposed between the existing structure attachment surface and the adhesive margin portion of the fixing material attached to the attachment surface, and the bracket is attached and fixed to the existing structure.
It is characterized by
Or
It is an existing structure reinforcement structure that reinforces an existing structure by attaching a bracket to the existing structure mounting surface.
The mounting of the bracket uses a fixing material for fixing the bracket, and the fixing material is composed of a fixing portion for fixing the bracket and an adhesive margin portion of the fixing material composed of the remaining portion after fixing, Adhesive members are interposed between the mounting surface of the existing structure and the mounting surface of the bracket in contact with the mounting surface, and between the mounting surface of the existing structure and the adhesive margin portion of the fixing material attached to the mounting surface. And fix the bracket to the existing structure.
It is characterized by
Or
An existing structure reinforcement structure that reinforces an existing structure by attaching brackets to multiple mounting surfaces of the existing structure,
The mounting of each bracket uses a fixing material for fixing the bracket, the fixing material has a fixing portion for fixing the bracket,
Connect the fixing materials on both sides after fixing, and attach and fix the brackets on both sides of the existing structure,
It is characterized by
Or
An existing structure reinforcement structure that reinforces an existing structure by attaching brackets to multiple mounting surfaces of the existing structure,
The mounting of each bracket uses a fixing material for fixing the bracket, the fixing material has a fixing portion for fixing the bracket,
Between the plurality of mounting surfaces of the existing structure and the mounting surfaces of the brackets that are in contact with the plurality of mounting surfaces, and between the plurality of mounting surfaces of the existing structure and the two fixing members attached to the plurality of mounting surfaces. Each interposes an adhesive member, connects the two fixing members to each other, and fixes each bracket to a plurality of mounting surfaces of the existing structure.
It is characterized by
Or
A plurality of grooves for storing the adhesive member is formed on the mounting surface of the existing structure to which the adhesive margin portion of the fixing material is attached.
It is characterized by
Or
Reinforcing the existing structure by attaching a bracket to the mounting surface of the existing structure and reinforcing the existing structure.
The mounting of the bracket uses a fixing material for fixing the bracket, the fixing material is composed of a fixing portion for fixing the bracket and a glue margin portion of the fixing material composed of the remaining portion after fixing,
On the mounting surface side of the existing structure, a storage groove for storing the adhesive margin part front and back surfaces of the fixing material is provided, and the adhesive margin partial front and back surface portions are stored in the storage groove and bonded to the storage groove. Filled with members, attached and fixed brackets to existing structures,
It is characterized by
Or
The mounting surface of the existing structure is a side surface of the existing structure,
It is characterized by
Or
The fixing material is a covering material that covers the bracket.
It is characterized by
Or
When mounting the bracket, a shear key is formed between the mounting surface of the existing structure and the mounting surface of the bracket in contact with the mounting surface.
It is characterized by and.
Or
The fixing member and the bracket are bonded with an adhesive,
It is characterized by this.

According to the present invention, there is no great concern about a decrease in the proof stress of an existing concrete structure based on drilling, and there is a risk of interference between the PC steel material, the reinforcing bar, and the drilling position inside the existing concrete structure such as an existing concrete girder. In addition, when a new load application point is intentionally provided on an existing structure such as an existing concrete structure, for example, when a reinforcing bracket is provided on the side surface, the load is applied from the bracket. The structure that transmits to the structure can be easily adopted, and it can be used for the external cable reinforcement method of the existing bridge, the falling bridge prevention device installation method, the edge widening method, etc. There is an effect.

It is explanatory drawing (1) explaining the structure of 1st Example of this invention. It is explanatory drawing (2) explaining the structure of 1st Example of this invention. It is explanatory drawing (1) explaining the structure of 2nd Example of this invention. It is explanatory drawing (2) explaining the structure of 2nd Example of this invention. It is explanatory drawing explaining the conventional drilling state. It is explanatory drawing (1) explaining the structure of 3rd Example of this invention. It is explanatory drawing (2) explaining the structure of 3rd Example of this invention. It is explanatory drawing (1) explaining the structure of 4th Example of this invention. It is explanatory drawing (2) explaining the structure of 4th Example of this invention. It is explanatory drawing (1) explaining the structure of 5th Example of this invention. It is explanatory drawing (2) explaining the structure of 5th Example of this invention. It is explanatory drawing (1) explaining the structure of 6th Example of this invention. It is explanatory drawing (2) explaining the structure of 6th Example of this invention. It is explanatory drawing explaining the 7th Example of this invention. It is explanatory drawing (1) explaining the conventional structure. It is explanatory drawing (2) explaining the conventional structure. It is explanatory drawing explaining the shape of a bracket.

  Hereinafter, the present invention will be described based on embodiments shown in the drawings.

1 and 2 show a first embodiment.
In FIG. 1 and FIG. 2, reference numeral 2 denotes a bridge, which indicates its main girder. In the figure, an example in which an outer cable reinforcement method is implemented to reinforce the bridge 2 is shown.

  By the way, as described above, conventionally, for example, in order to apply the outer cable reinforcement method to the main girder of the bridge 2, as understood from FIGS. 15 and 16, the PC steel bar 3 is provided on the side surface 6 of the bridge 2. A through-hole 4 that penetrates is drilled, a PC steel rod 3 is passed through the through-hole 4, brackets 8 and 8 are attached and fixed to both side surfaces of the bridge 2, and an external cable 5 is connected via the bracket 8, 5 was installed. However, as described above, this conventional method has various problems.

  Therefore, in this embodiment, the adhesive 7 is attached to the side surface 6 of the bridge 2, the mounting surface 9 of the bracket 8 is attached via the adhesive 7, and the bracket 8 is attached to the side surface 6 of the bridge 2. It was supposed to be fixed.

  Here, an epoxy or acrylic adhesive 7 is used as the adhesive 7, and examples thereof include use of epoxy resin mortar, polymer cement mortar, and cement mortar.

  Although not shown, in order to further improve the adhesive strength at this time, the side surface 6 of the bridge 2 and the mounting surface 9 of the bracket 8 are formed as a rough surface in advance, and the adhesive 7 is applied to the rough surface, Therefore, it is preferable to bond both. When the bracket 8 is made of a steel bracket, it is conceivable that only the side surface 6 of the bridge 2 is formed as a rough surface.

  Thus, although the material of the bracket 8 is not limited at all, a concrete bracket is generally used. However, as already mentioned, steel brackets may be used.

  The shape of the bracket 8 is not limited at all. Therefore, it may be a rectangular parallelepiped shape or a rectangular parallelepiped shape, or may be a trapezoidal shape, a polygonal shape, or a triangular shape (see FIG. 17).

Although this embodiment has been described as an example applied to the side surface 6 of the bridge 2 when the bracket 8 is attached, the present embodiment is not limited to the application of the side surface 6, It is also conceivable to apply this to the upper surface, for example, the upper surface or the lower surface.

3 and 4 show a second embodiment.
In the second embodiment, when the bracket 8 is attached, a covering material 10 for covering the bracket 8 is used.

  In other words, the bracket 8 attached in contact with the side surface 6 of the bridge 2 is covered with the covering portion of the covering material 10 by bonding, for example, and the adhesive margin portion 11 of the covering material 10 covering the bracket 8 is covered with the bridge 2. It is fixed by adhering to the side surface 6.

  That is, the adhesive 21 is interposed between the adhesive margin portion 11 of the covering material 10 constituted by the remaining portion after covering the bracket 8 and the side surface 6 of the bridge 2, and the bracket 8 is attached to the side surface 6 of the bridge 2. It is to be fixed.

  Here, examples of the covering material 10 include fiber reinforced sheets such as carbon fibers and aramid fibers, fiber reinforced plastics (FRP), and steel plates.

Further, in the case of using a fiber reinforced sheet, there is no limit to the number of laminated covering materials 10 (fiber reinforced sheets) covering the bracket 8, but it is usually composed of one layer, and in some cases, several layers and There is a case. Furthermore, the direction of the fiber is the load direction, the direction perpendicular to the load direction, or both directions when there are a plurality of laminated sheets.
However, this is not the case when a biaxial fiber reinforced sheet is used.

  As the adhesive 21 used in this embodiment, an epoxy or acrylic adhesive 21 having an impregnation property is used. In order to affix a continuous fiber reinforcing sheet such as a carbon fiber sheet, a technique of impregnation adhesion is generally used. That is, this is because the adhesive 21 is impregnated in the gaps between the fibers and then adhered to the concrete.

  The present embodiment is also described as an example applied to the side surface 6 of the bridge 2 when the bracket 8 is attached. However, the present embodiment is not limited to the application of the side surface 6 and other surfaces. For example, it may be applied to the upper surface or the lower surface.

  Further, in the present embodiment, the covering material 10 is used and the bracket 8 is also attached to and fixed to, for example, the side surface 6 of the bridge 2 so as to cover the upper surface of the bracket 8. However, the present invention is not limited to this configuration. For example, a fixing material that fixes the side surface of the bracket 8 and the side surface 6 of the bridge 2 without covering the upper surface of the bracket 8 may be used. In this case, it is necessary to fix the side surface of the bracket 8 and the fixing material with an adhesive.

In addition, between the bracket 8 and the covering member 10, there may be a case where the two are bonded with an adhesive or a case where they are not bonded with an adhesive.

6 and 7 show a third embodiment.
In the third embodiment, the bracket 8 is attached between the side surface 6 of the bridge 2 and the mounting surface 9 of the bracket 8 in contact with the side surface 6 and between the side surface 6 of the bridge 2 and the side surface 6. Adhesive 7 and adhesive 21 are interposed between the adhesive portion 11 of the covering material 10 constituted by the remaining portion of the covering material 10 after covering 8 and the bracket 6 is attached to the side surface 6 of the bridge 2. 8 is attached and fixed. Thus, since it has adhered on both sides, a strong adhesive force can be expected.

  Here, the type of the covering material 10 used, or the types of the adhesive 7 and the adhesive 21 are substantially the same as those described in the first and second embodiments.

  As described above, most of the material of the fiber reinforced sheet constituting the covering material 10 can be a so-called uniaxial sheet in which the fibers are aligned in one direction to form a sheet, but the fiber direction is arbitrarily set. Or a multiaxial fiber sheet may be used.

  Although the present embodiment has been described as an example applied to the side surface 6 of the bridge 2 when the bracket 8 is attached, the present embodiment is not limited to the application of the side surface 6, for example, an upper surface or It may be applied to any surface such as the lower surface.

  Also in this embodiment, the covering material 10 is used, and the bracket 8 is also attached to and fixed to the side surface 6 of the bridge 2 so as to cover the upper surface of the bracket 8. Instead, for example, a fixing material of a type that fixes the side surface of the bracket 8 and the side surface 6 of the bridge 2 may be used. In this case, it is necessary to fix the side surface of the bracket 8 and the fixing material with an adhesive.

In addition, between the bracket 8 and the covering member 10, there may be a case where the two are bonded with an adhesive or a case where they are not bonded with an adhesive.

8 and 9 show a fourth embodiment.
In this embodiment, for the attachment of each bracket 8, 8 to the both side surfaces 6, 6 of the bridge 2, the covering material 10 that covers each bracket 8, 8 is provided with only the covering portion that covers the bracket 8, It was configured with no glue margin 11.

  Further, the both side surfaces 6 and 6 of the bridge 2 and the mounting surfaces 9 and 9 of each bracket 8 and 8 in contact with the both side surfaces 6 and 6 and the both side surfaces 6 and 6 of the bridge 2 and the both side surfaces 6 and 6 are provided. An adhesive 7 and an adhesive 21 are interposed between the covering materials 10 and 10 to be attached to each other, or a connecting member 12 is provided to connect the covering materials 10 and 10 to each other. The brackets 8 and 8 are attached and fixed to both side surfaces 6 and 6 of the mounting and bridge 2.

  Although this embodiment is also described as an example applied to the side surface 6 of the bridge 2, the present embodiment is not limited to the application of the side surface 6, for example, on any surface such as an upper surface or a lower surface. It may be applied.

  Also in this embodiment, the covering material 10 is used, and the bracket 8 is also attached to and fixed to the side surface 6 of the bridge 2 so as to cover the upper surface of the bracket 8. Instead, for example, a fixing material of a type that fixes the side surface of the bracket 8 and the side surface 6 of the bridge 2 may be used. In this case, it is necessary to fix the side surface of the bracket 8 and the fixing material with an adhesive.

In addition, between the bracket 8 and the covering member 10, there may be a case where the two are bonded with an adhesive or a case where they are not bonded with an adhesive.

10 and 11 show a fifth embodiment.
In this embodiment, a plurality of grooves 13... For storing the adhesive 21 are formed on the side surface 6 side of the bridge 2 to which the adhesive margin 11 of the covering material 10 is attached, and the grooves 13. The adhesive 7 is stored to increase the adhesive strength between the covering material 10 and the side surface 6 of the bridge 2.

  Here, this embodiment can also be applied to the second to third embodiments. That is, if the adhesive margin portion 11 of the covering material 10 is of a type in which it is brought into contact with the side surface 6 of the bridge 2, a plurality of grooves 13 ... are provided on the side surface 6 side, and the adhesive 21 is placed in the grooves 13 ... If the water is stored and adhered, the adhesive force can be further improved.

  Although the present embodiment has been described as an example applied to the side surface 6 of the bridge 2 when the bracket 8 is attached, the present embodiment is not limited to the application of the side surface 6, for example, the top surface It may be applied to any surface such as the bottom surface.

  Also in this embodiment, the covering material 10 is used, and the bracket 8 is also attached to and fixed to the side surface 6 of the bridge 2 so as to cover the upper surface of the bracket 8. Instead, for example, a fixing material that fixes the side surface of the bracket 8 and the side surface 6 of the bridge 2 without covering the upper surface of the bracket 8 may be used. In this case, the side surface of the bracket 8 and the fixing material are also fixed with an adhesive.

In addition, between the bracket 8 and the covering member 10, there may be a case where the two are bonded with an adhesive or a case where they are not bonded with an adhesive.

FIGS. 12 and 13 show a sixth embodiment.
In this embodiment, when the bracket 8 is attached, the covering material 10 that covers the bracket 8 is covered with the covering portion that covers the side face 6 of the bridge 2 and the bracket 8 attached to the side face 6. It is comprised by the margin part 11 of the coating | covering material 10 comprised by the remaining part, and the accommodation groove | channel 15 in which the front and back surface part 14 of the margin part 11 of the said coating | coated material 10 is accommodated in the side surface 6 side of the said bridge | bridging material 10 is comprised. The front and back surface portions 14 of the adhesive margin portion 11 are stored in the storage groove 15 and the storage groove 15 is filled with an adhesive 21, and the bracket 8 is attached and fixed to the side surface 6 of the bridge 2. .

  Even in this embodiment, the adhesive 7 may or may not be interposed between the side surface 6 of the bridge 2 and the mounting surface 9 of the bracket 8.

  Although the present embodiment is also described as an example applied to the side surface 6 of the bridge 2, the present embodiment is not limited to the application of the side surface 6, and as described above, the upper surface, the lower surface, etc. It can be applied to any aspect of the above.

  Also in this embodiment, the covering material 10 is used, and the bracket 8 is also attached to and fixed to the side surface 6 of the bridge 2 so as to cover the upper surface of the bracket 8. Instead, for example, a fixing material of a type that fixes the side surface of the bracket 8 and the side surface 6 of the bridge 2 without covering the upper surface of the bracket 8 may be used. In this case, the side surface of the bracket 8 may be used. And the fixing material are also fixed with an adhesive.

In addition, between the bracket 8 and the covering member 10, there may be a case where the two are bonded with an adhesive or a case where they are not bonded with an adhesive.

FIG. 14 shows a seventh embodiment.
In this embodiment, a shear key 22 is formed between the side surface 6 of the bridge 2 which is an existing structure and the mounting surface 9 of the bracket 8 in contact with the side surface 6. The shear key 22 is intended to smoothly transmit force to the bridge 2 that is an existing structure.

  The shear key 22 indicates, for example, a structure that resists a shearing force in the horizontal direction (displacement of the interface). As an example, each mounting surface, for example, the side surface 6 of the bridge 2 and the bracket 8 in contact with the side surface 6 are mounted. For example, a configuration in which the surface 9 is formed in a substantially saw-tooth shape and engaged with each other can be considered.

  By forming such a shear key 22, it is possible to transmit a strong force, and thus to fix the strong bracket 8 and the side surface of the bridge 2.

  Although this embodiment is also described as an example applied to the side surface 6 of the bridge 2, the present embodiment is not limited to the application of the side surface 6, for example, on any surface such as an upper surface or a lower surface. It may be applied.

  Also in this embodiment, the covering material 10 is used, and the bracket 8 is also attached to and fixed to the side surface 6 of the bridge 2 so as to cover the upper surface of the bracket 8. Instead, for example, a fixing material that fixes the side surface of the bracket 8 and the side surface 6 of the bridge 2 without covering the upper surface of the bracket 8 may be used. In this case, it has already been described that it is necessary to fix the side surface of the bracket 8 and the fixing member with an adhesive.

In addition, between the bracket 8 and the covering member 10, there may be a case where the two are bonded with an adhesive or a case where they are not bonded with an adhesive.

2 Bridge 3 PC steel bar 4 Through hole 5 Outer cable 6 Bridge or main girder mounting surface 7 Adhesive 8 Bracket 9 Bracket mounting surface 10 Covering material 11 Glue margin portion of coating material 12 Connecting member 13 Groove 14 Table of glue margin Back surface whole portion 15 Storage groove 16 Existing rebar 17 Designed drilling position 18 Drilling position 19 on site 19 Existing rebar 20 Existing PC steel 21 Adhesive 22 Shear key

Claims (11)

An existing structure reinforcing structure that reinforces the existing structure by attaching a bracket to the existing structure mounting surface;
The mounting of the bracket is performed by interposing an adhesive member between the mounting surface of the existing structure and the mounting surface of the bracket in contact with the mounting surface, and adhesively mounting the existing structure and the bracket.
Reinforcing structure of existing structure characterized by that.
It is an existing structure reinforcement structure that reinforces an existing structure by attaching a bracket to the existing structure mounting surface.
The mounting of the bracket uses a fixing material for fixing the bracket, and the fixing material is composed of a fixing portion for fixing the bracket and an adhesive margin portion of the fixing material composed of the remaining portion after fixing, An adhesive member is interposed between the existing structure attachment surface and the adhesive margin portion of the fixing material attached to the attachment surface, and the bracket is attached and fixed to the existing structure.
Reinforcing structure of existing structure characterized by that.
It is an existing structure reinforcement structure that reinforces an existing structure by attaching a bracket to the existing structure mounting surface.
The mounting of the bracket uses a fixing material for fixing the bracket, and the fixing material is composed of a fixing portion for fixing the bracket and an adhesive margin portion of the fixing material composed of the remaining portion after fixing, Adhesive members are interposed between the mounting surface of the existing structure and the mounting surface of the bracket in contact with the mounting surface, and between the mounting surface of the existing structure and the adhesive margin portion of the fixing material attached to the mounting surface. And fix the bracket to the existing structure.
Reinforcing structure of existing structure characterized by that.
An existing structure reinforcement structure that reinforces an existing structure by attaching brackets to multiple mounting surfaces of the existing structure,
The mounting of each bracket uses a fixing material for fixing the bracket, the fixing material has a fixing portion for fixing the bracket,
Connect the fixing materials on both sides after fixing, and attach and fix the brackets on both sides of the existing structure,
Reinforcing structure of existing structure characterized by that.
An existing structure reinforcement structure that reinforces an existing structure by attaching brackets to multiple mounting surfaces of the existing structure,
The mounting of each bracket uses a fixing material for fixing the bracket, the fixing material has a fixing portion for fixing the bracket,
Between the plurality of mounting surfaces of the existing structure and the mounting surfaces of the brackets that are in contact with the plurality of mounting surfaces, and between the plurality of mounting surfaces of the existing structure and the two fixing members attached to the plurality of mounting surfaces. Each interposes an adhesive member, connects the two fixing members to each other, and fixes each bracket to a plurality of mounting surfaces of the existing structure.
Reinforcing structure of existing structure characterized by that.
A plurality of grooves for storing the adhesive member is formed on the mounting surface of the existing structure to which the adhesive margin portion of the fixing material is attached.
The reinforcing structure for an existing structure according to claim 2 or 3, wherein the reinforcing structure is provided.
Reinforcing the existing structure by attaching a bracket to the mounting surface of the existing structure and reinforcing the existing structure.
The mounting of the bracket uses a fixing material for fixing the bracket, the fixing material is composed of a fixing portion for fixing the bracket and a glue margin portion of the fixing material composed of the remaining portion after fixing,
On the mounting surface side of the existing structure, a storage groove for storing the adhesive margin part front and back surfaces of the fixing material is provided, and the adhesive margin partial front and back surface portions are stored in the storage groove and bonded to the storage groove. Filled with members, attached and fixed brackets to existing structures,
Reinforcing structure of existing structure characterized by that.
The mounting surface of the existing structure is a side surface of the existing structure,
The reinforcing structure for an existing structure according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, or claim 7.
The fixing material is a covering material that covers the bracket.
The reinforcing structure for an existing structure according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, claim 7, or claim 8.
When mounting the bracket, a shear key is formed between the mounting surface of the existing structure and the mounting surface of the bracket in contact with the mounting surface.
The reinforcing structure for an existing structure according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, claim 7, claim 8, or claim 9.
The fixing member and the bracket are bonded with an adhesive,
The reinforcement structure for an existing structure according to claim 2, claim 3, claim 4, claim 5, claim 6, claim 7, claim 8, claim 9 or claim 10.

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