JP2576983B2 - How to fix and connect anchor bolts - Google Patents

Description

The present invention relates to a method for fixing and connecting anchor bolts and the like.

(B) Conventional technology Conventionally, anchor bolts are fixed and connected to foundations in the general civil engineering and construction fields, and rock bolts are inserted and fixed in rock using NATM, which is one of the tunnel construction methods.
The connection work is performed by first drilling a bolt insertion hole in a foundation or a bedrock, inserting an anchor bolt or a lock bolt into the insertion hole, and then filling and solidifying the mortar in the hole.

(C) Problems to be solved by the invention However, the fixing of such anchor bolts to a foundation, etc.
The linking work still had the following problems.

That is, the mortar filled in the bolt insertion hole did not have sufficient adhesive force to concrete or rock which forms the foundation or the like, and the mortar did not have sufficient adhesive force to anchor bolts or the like.

For this reason, the mortar has been roughened from concrete, bedrock, and anchor bolts, and groundwater and the like have penetrated along the roughened surface, causing corrosion of the anchor bolts.

Therefore, the fixing / connecting strength of various structures constructed on the foundation or the like is remarkably reduced, and the structures are in an unstable state, and the wall surfaces of the tunnel are separated or dropped.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for fixing and connecting anchor bolts and the like that can solve the problems of the prior art.

(D) Means for Solving the Problems The present invention is to mix a main polymer mainly composed of silicon oxide, calcium oxide and iron oxide with a composite polymer emulsion mainly composed of carboxy-modified styrene butadiene and cyclohexyl methacrylate. Filler made of the mixed material produced above, or mortar to which the composite polymer emulsion is added, or concrete to which the composite polymer emulsion is added is filled in the bolt insertion hole into which the anchor bolt or the like is inserted, and solidified by a hydration reaction. Accordingly, the present invention relates to a method for fixing and connecting an anchor bolt or the like, wherein the anchor bolt or the like is integrally connected to a foundation or the like.

(E) Action and effect The filler is a mixture of a carboxy-modified styrene-butadiene having a strong adhesive force and a composite polymer emulsion containing cyclohexyl methacrylate as a main component. It adheres strongly to the bedrock, reliably preventing so-called flaking, and the anchor bolts and the like can be strongly integrated with the foundation or the like.

In addition, the filler mixed with the composite polymer emulsion containing carboxy-modified styrene butadiene and cyclohexyl methacrylate as the main components, as described above, strongly adheres to the concrete and bedrock forming the foundation, etc.
It can completely prevent groundwater, etc. from entering the filling material, the boundary surface between the filling material and the foundation, or the boundary surface between the filling material and the anchor bolts, and can exhibit high corrosion resistance and can be used for many years. , Tunnels and the like can be supported in a stable state.

Since the filler is solidified by the hydration reaction, it can be filled after the anchor bolt or the like is inserted into the bolt insertion hole and the positioning is reliably performed, so that the work is easy and the work efficiency is good.

(F) Embodiment Hereinafter, the present invention will be described in detail based on an embodiment shown in the accompanying drawings.

[First Embodiment] This embodiment relates to a method of fixing and connecting an anchor bolt used to support a structure on a foundation to a foundation.

In FIG. 1, reference numeral 10 denotes chestnut stone, 11 denotes abandoned concrete formed on the chestnut stone 10, and a foundation 12 made of concrete is placed on the abandoned concrete 11, and the foundation 12 is, in this embodiment, The upper end surface is flush with the floor surface F.

Further, as shown in the figure, the base 12 has a bolt insertion hole 13 extending vertically downward from an upper end surface at an upper portion thereof, and a lower end of the anchor bolt 14 is inserted into the bolt insertion hole 13. Have been.

A is a filler to be filled in the bolt insertion hole 13. Such a filler A, in this embodiment, a composite polymer emulsion containing carboxy-modified styrene butadiene and cyclohexyl methacrylate as main components, silicon oxide, It is composed of a mixed material formed by mixing with a main agent mainly composed of calcium oxide and iron oxide.

Here, a composite polymer emulsion containing carboxy-modified styrene butadiene and cyclohexyl methacrylate as main components was used.

Two examples of blending examples and blending order of such a composite polymer emulsion are described below. Example 1) (Weight) Carboxy-modified styrene butadiene 13% Cyclohexyl methacrylate-styrene polymer 56% Fatty acid soda soap 1% Water 30% First, a fatty acid soda soap was added and dissolved in distilled water or soft water, then carboxy-modified styrene-butadiene was gradually added, mixed and stirred, and then cyclohexyl methacrylate-styrene-butadiene copolymer latex was gradually added. , And mixed to form a dispersion of each polymer in water.

Example 2) (Weight) Carboxy-modified styrene butadiene 13% Styrene 28% Cyclohexyl methacrylate 28% Fatty acid soda soap 1% Water 30% This mixing order is as follows. First, fatty acid soda soap is dissolved in distilled water or soft water and dissolved. Styrene-butadiene is gradually added to the mixture, followed by mixing and stirring. Then, styrene latex is added and stirred. Then, cyclohexyl methacrylate is gradually added, followed by mixing and stirring to obtain a dispersion of each polymer in water.

In addition, a description will be given of a compounding example and a compounding procedure of a main agent to be mixed with the composite polymer emulsion. The compounding example is as follows: (weight) white cement 18.0% silica sand (SiO ₂ ) 71.0% iron powder (Fe ₃ O ₄ ) 0.2% fly ash 10.0% Zinc white (ZnO) 0.1% Titanium white (TiO ₂ ) 0.1% Glycine and other 0.6%, the component weight ratio of the above white cement is (weight) CaO 65.4% SiO ₂ 23.1% Fe ₂ O ₃ 0.2% Igloss _{2.7% insol 0.2% Al 2 O} 3 4.3% MgO 0.6% SO 3 2.8% for others 0.7%, procedure compounding the base resin removes the organic matter is first baked silica sand, established a granularity 50 to 150 [mu] m, the silica sand Into a mixer, gradually add white cement and fly ash to mix, and further add iron powder (Fe ₃ O ₄ ), zinc white (ZnO), titanium white (TiO ₂ ), glycine, etc. in that order. And mix until uniform.

In addition, Portland cement can be used instead of white cement.

Next, an example of a method for producing the filler A by mixing the above-mentioned main ingredient and the composite polymer emulsion will be described.
The mixing sequence is as follows: the mixing order is as follows: first, the composite polymer emulsion is put into a mixer and stirred, and then the mixture is stirred for 3 to 5 minutes while gradually adding the base material. Alternatively, it is produced by adding an appropriate amount of soft water or tap water, diluting and stirring.

The solid content of each latex is about 40 to 50%.

The filler A thus produced strongly adheres to the anchor bolt 14 and the foundation 12 made of concrete by the strong adhesion of the composite polymer emulsion and the base material to the strong iron and concrete. 14 was able to be strongly connected to the foundation 12 integrally.

Further, by such an integral connection, flaking between the filler A and the anchor bolt 14 or the foundation 12 can be reliably prevented.

Moreover, since the filler A is solidified by the hydration reaction, it can be filled after the anchor bolts 14 and the like are inserted into the bolt insertion holes 13 and the positioning is reliably performed. good.

In addition, since the test was performed regarding the physical characteristics of the filler A according to the present example, the results are shown below.

(Adhesion test)

To iron 25.1kgf / cm ² versus concrete 11.0~25.1kgf / cm ² (Although attempted to test for even versus iron for mortar, the mortar and the iron could not be measured adhesion is weak.) [A Embodiment 2 This embodiment relates to a method for connecting and fixing a lock bolt to a rock forming an inner surface of a tunnel.

 FIG. 2 shows a tunnel B excavated in the bedrock 21.

When constructing such a tunnel B, first, a lock bolt 23 is inserted into a bolt insertion port 22 drilled in the bedrock 21 in the normal direction.
And the filler material A is filled and solidified in the bolt insertion hole 22 to integrate the lock bolt 23 with the bedrock 21.

As in the first embodiment, such a filler A is formed by mixing a composite polymer emulsion containing at least an acrylate copolymer as a main component with a base material containing silicon oxide, calcium oxide and iron oxide as main components. It consists of mixed materials.

The filler A enables the lock bolt 23 to be strongly integrated into the bedrock 21 due to the strong adhesion between the composite polymer emulsion and the base material.

Further, by such a strong integral connection, flaking between the filler A and the rock bolt 23 or the bedrock 21 can be reliably prevented.

Thereafter, a mortar layer 24 is formed by mortar spraying on the entire inner surface of the excavation of the bedrock 21. The mortar layer 24 is
A temporary lining is formed in cooperation with the shoring 25, and the temporary lining can hold a cavity excavated integrally with the bedrock 21.

In the drawing, reference numeral 26 denotes a waterproof sheet made of synthetic fiber or the like stretched on the surface of the mortar layer 24, and both ends of the waterproof sheet 26 are connected to drain grooves 28 provided at both ends of the roadbed 27 of the tunnel B. I have. In addition, with such a configuration, the drain holes and drainage channels provided in the mortar layer 24 may overflow, or water that has passed through the mortar layer 24 due to some factor may be drained.
Can be effectively guided and discharged.

Next, a secondary lining is constructed inside the waterproof sheet 26 in order to enhance the safety of the tunnel B.

The secondary lining installs the formwork 30 inside the waterproof sheet 26,
A concrete layer 29 is cast in the gap between the waterproof sheet 26 and the formwork 30.

The concrete layer 29 is formed of a mixture of a composite polymer emulsion admixture having high adhesion, waterproofness and flexibility, or a mortar or concrete to which a composite polymer emulsion is added, similarly to the filler A filled in the bolt insertion hole 22. By doing so, the mortar or concrete is given waterproof performance, and it is possible to prevent water arriving at the back of the secondary lining from leaking into the inside of the tunnel due to some factor. In addition, the adhesiveness and flexibility prevent cracks due to shrinkage of concrete or mortar, and are also effective in preventing cracks due to external force generated after lining.

The mortar layer 24 is also made of a mixture or a composite polymer emulsion having a high adhesion, waterproofness, and flexibility and a mixture of the composite polymer emulsion having the above-described composition, similarly to the filler A filled in the bolt insertion hole 22. By using the added mortar, the adhesiveness imparted by the properties of the composite polymer emulsion can reduce the loss due to scattering at the time of spraying construction and shorten the construction time.

[Brief description of the drawings]

FIG. 1 is an explanatory view of a method of fixing and connecting anchor bolts and the like according to a first embodiment of the present invention, and FIG. 2 is an explanatory view of a method of fixing and connecting anchor bolts and the like of a second embodiment. In the figure, A: Filler 10: Kuriishi, 11: Discarded concrete 12: Foundation, 13: Bolt insertion hole 14: Anchor bolt, 21: Rock 22: Bolt insertion hole, 23: Rock bolt

Claims (1)

(57) [Claims] A mixed material formed by mixing a main polymer mainly composed of silicon oxide, calcium oxide and iron oxide with a composite polymer emulsion mainly composed of carboxy-modified styrene-butadiene and cyclohexyl methacrylate, or the same composite polymer Filling the mortar containing the emulsion or the concrete containing the same composite polymer emulsion into the bolt insertion hole into which the anchor bolt or the like is inserted, and solidifying the cement using the hydration reaction of cement, A method for fixing and connecting anchor bolts and the like, wherein the bolts and the like are integrally connected to a foundation or the like.