JP2002047043A - Spraying material and spraying method using the same - Google Patents

Abstract

(57) [Summary] [Problem] To prevent sagging of concrete immediately after spraying and to prevent slippage from a slope, and to allow time for ironing, it is possible to secure the beautiful appearance of the slope surface, and particularly to the slope. Material for spraying cement concrete to prevent landslides, etc., and also for spraying sloping slopes, for example, to a frame skeleton arranged in a grid and a slope spraying method using the same To provide. SOLUTION: A spraying material containing a polyalkylene oxide, particularly a bisphenol-based condensate having an average molecular weight of 5,000 to 30,000, and alkali metal carbonates, and a spraying material containing cement, particularly cement and polyalkylene This is a spraying method in which cement concrete containing oxide, a bisphenol-based condensate, and alkali metal carbonates are mixed immediately before spraying.Reinforcing bars are placed on the slope to form a frame skeleton, and blown to the slope. The slope spraying method is used to spray the material.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blasting material and a blasting method using the same, particularly a blasting material for cement concrete applied to prevent landslides on a slope, and a sloping surface which is easily collapsed. For example, the present invention relates to a spraying material sprayed on a frame skeleton arranged in a lattice (cross-girder shape) and a slope spraying method using the same. It should be noted that the cement concrete referred to in the present invention is a general term for mortar and concrete. Parts and% referred to in the present invention are based on mass unless otherwise specified.

[0002]

2. Description of the Related Art Slope means highways, dams,
It refers to an inclined surface made of cut soil or embankment around a steep slope. If this slope is left as it is, it may be eroded by natural weathering or heavy rain, and may collapse due to landslides. Therefore, it is necessary to protect the slope.

Conventionally, concrete has been directly sprayed to prevent collapse of the slope. Recently, however, a wire frame or a plurality of reinforcing bars have been arranged on the slope in a grid-like (cross-girder) manner. Is formed to increase the reinforcement effect, and after driving an anchor at the intersection, the concrete is sprayed to make a reinforced concrete frame to stabilize the slope (Japanese Patent Publication No. 58-058493). . Above all, a free frame method in which a deformable wire mesh or reinforcing bar is arranged directly on a slope is often used. At that time, a simple plant is created at the construction site, hard concrete with a slump of 0 cm is prepared, sprayed, and then the surface is ironed to complete the construction.
However, this method has a problem that the construction efficiency is as low as about 2 m ³ / hr, and the compounding of the material requires labor, resulting in an increase in cost.

[0004] For this reason, it has been considered that the construction efficiency is increased by increasing the spraying speed and concrete is supplied from the ready-mixed plant, the number of manpower is reduced, and the cost is reduced. In order to increase the spraying speed, it is necessary to increase the slump of the concrete. However, when the slump is large, there is a problem that the concrete flows down from the slope when spraying.

Therefore, it is necessary to increase the viscosity of the concrete immediately after spraying to reduce the slump and prevent the concrete from slipping off. The use of a quick-setting binder during spraying can prevent concrete from sliding down, but the hardening of the sprayed concrete is so rapid that ironing cannot be performed, and there is a problem that the aesthetic appearance of the slope surface is impaired. .

[0006] Thus, there has been a demand for a spraying material that mixes with concrete at the time of spraying to prevent the concrete from slipping down and to secure a pot life enough to allow ironing.

The inventor of the present invention has made intensive studies to solve the above-mentioned problems, and as a result, obtained the finding that the above-mentioned problems can be solved by using a specific spraying material, thereby completing the present invention. Was.

[0008]

That is, the present invention relates to a spray material containing a polyalkylene oxide, a bisphenol-based condensate, and an alkali metal carbonate, wherein the bisphenol-based condensate has an average molecular weight of 5,000 to 30,000. The spraying material, which is a spraying material containing cement and the spraying material, wherein the spraying material contains 1 to 5 parts of alkali metal carbonates in terms of solid content with respect to 100 parts of cement. A spraying method using the spraying material, wherein a cement concrete containing cement and a part of the spraying material is mixed with the remainder of the spraying material immediately before spraying, and spraying is performed. A cementing method containing cement and polyalkylene oxide, a bisphenol-based condensate, and alkali metal carbonates mixed immediately before spraying. A spraying method to attach,
This is a slope spraying method in which rebars are arranged on a slope to form a frame skeleton, and the spray material is sprayed on the slope to construct a cement concrete frame containing reinforcing steel.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail.

According to the present invention, even when concrete having a large slump is used for the purpose of increasing the spraying speed and improving the construction efficiency, the concrete is mixed with the concrete at the time of spraying, thereby preventing the concrete from slipping off and finishing the iron. And a slope spraying method using the same.

The polyalkylene oxide (hereinafter referred to as PAO) used in the present invention gives viscosity to cement concrete by interaction with a bisphenol-based condensate,
This prevents the cement concrete from dripping or slipping immediately after spraying. Examples of PAO include polyethylene oxide, polypropylene oxide, and polybutylene oxide. Of these, polyethylene oxide is preferred because of its large effect.
The average molecular weight of PAO is preferably 1,000,000 to 5,000,000. If it is less than 1,000,000, the effect of preventing sagging and slippage may be small, and if it exceeds 5,000,000, the pumpability of cement concrete may be reduced. The amount of PAO used is 10 cement.
0.001-0.5 part is preferable with respect to 0 part, and 0.005-0.3 part is more preferable. If less than 0.001 part, the viscosity of the cement concrete is small, dripping occurs when spraying, and the cement concrete may flow down from the slope,
Exceeding the portion may increase the viscosity of the cement concrete, which may hinder pumpability.

The bisphenol-based condensate used in the present invention is obtained by subjecting a bisphenol, an aromatic aminosulfonic acid, and formaldehyde to a condensation reaction, and a commercially available product can be used. Specific examples of bisphenols include, for example, 4,4'-dihydroxydiphenylsulfone, 4,4'-dihydroxybenzophenone, 4,4'-dihydroxydiphenylmethane, 2,2-
Bis (4-hydroxyphenyl) propane, 2,2-bis (4-hydroxyphenyl) butane, 4,4′-dihydroxydiphenyl ether, 4,4′-dihydroxydiphenyl sulfide, 4,4′-dihydroxybiphenyl, and these Isomers and the like can be mentioned, and these can be used in combination.
Further, specific examples of the aromatic aminosulfonic acid include 4-aminobenzenesulfonic acid, 2-amino-5-methylbenzenesulfonic acid, and isomers thereof. The average molecular weight of the bisphenol condensate used in the present invention is preferably 5,000 to 30,000. Average molecular weight
If it is less than 5,000, the effect of preventing the cement concrete from slipping off may be small, and if it exceeds 30,000, the strength development may be reduced. The amount of the bisphenol-based condensate to be used is preferably 0.1 to 1.0 part, more preferably 0.2 to 0.5 part, per 100 parts of cement. If it is less than 0.1 part, the effect of preventing the cement concrete from slipping may be small, and if it exceeds 1.0 part, the slipping may increase.

The alkali metal carbonates used in the present invention
(Hereinafter referred to as alkali carbonate) is to reduce the slump by mixing with cement concrete, to prevent dripping and slippage of the cement concrete immediately after spraying, and to be used in combination with PAO, bisphenol-based condensate However, the effect of preventing dripping and slippage of the cement concrete immediately after spraying is greater than when each of them is used alone. Examples of the alkali carbonate include sodium carbonate, potassium carbonate, sodium hydrogen carbonate, potassium hydrogen carbonate, and the like.A powdery one and an aqueous solution obtained by dissolving the same in water are available. It is preferable to use it as an aqueous solution from the viewpoint of good mixing with cement concrete.
The amount of the alkali carbonate to be used is preferably 1 to 5 parts, more preferably 2 to 4 parts in terms of solid content (anhydride) based on 100 parts of cement. If the amount is less than 1 part, the effect of preventing the cement concrete from sliding down may be small. If the amount exceeds 5 parts, the setting and hardening of the cement concrete may be promoted, and it may not be possible to secure time for ironing.

[0014] The cement used in the present invention is not particularly limited, and various portland cements such as ordinary, fast, super fast, moderate heat and low heat, and blast furnace slag, fly ash, Any of limestone fine powder, various mixed cements mixed with silica, and expanded cement or colloid cement can be used.

In the present invention, in addition to the above materials and aggregates such as sand and gravel, a water reducing agent, an AE agent, fibers, fine powder and the like are used in combination within a range that does not substantially impair the object of the present invention. Is possible.

As the water reducing agent, naphthalene sulfonic acid formalin condensate, melamine sulfonic acid formalin condensate, polycarboxylic acid type polymer compound and the like can be used. The AE agent prevents frost damage of cement concrete. Further, the fibers are particularly effective for preventing cracks in the anchor portion. Then, the fine powder fills the voids to form a dense structure, and achieves high strength.
Silica fume or the like can be used.

In the slope spraying method using the spray material of the present invention, the spray material may be sprayed directly on the slope, but in order to increase the reinforcing effect, reinforcing bars and the like are arranged. It is preferable to form a frame skeleton, and a free frame method is more preferable.

Here, the reinforcing bars are made of a wire mesh, a reinforcing bar, or the like. The reinforcing bars are combined to form a frame skeleton, and the cement concrete is sprayed to obtain a reinforcing concrete-containing cement concrete frame.

The method of arranging the reinforcing steel used in the free frame method is not particularly limited.
Wire mesh of width 30-60cm, length 1-3m (corrugated reinforcing steel φ1
3mm) are arranged in parallel with each other at the same interval as the width of the wire mesh, and the longitudinal direction is arranged along the inclined surface, and the two are added. A frame skeleton is formed by using spacers such as reinforcing steel bars on two parallel wire nets. When extending the frame skeleton in the vertical and horizontal directions, it is preferable to drive an anchor into the intersection.
It is also possible to use an intersection frame skeleton at the intersection of the frame skeleton. It is possible to maintain the beautiful appearance of the frame by performing spraying on the frame skeleton arranged in this manner using a spraying material, and ironing the portion of the frame skeleton protruding from the reinforcing steel.

As the slope spraying method used in the present invention, any commonly used spraying method such as a dry method and a wet method can be used. Among them, the wet spraying method is preferable because the amount of generated dust is small.

The slope spraying method of the present invention includes PAO
Is preliminarily mixed with cement concrete, and the bisphenol-based condensate and alkali carbonate are preferably mixed with cement concrete mixed with PAO before the spray nozzle, for example, with a mixing pipe. When a bisphenol-based condensate and an alkali carbonate are mixed with cement concrete mixed with PAO, slump is reduced and pumpability is reduced. Therefore, when mixed at a location other than the above, blockage or pulsation may occur. . When a bisphenol-based condensate and an alkali carbonate are mixed with cement concrete mixed with PAO, the bisphenol-based condensate and alkali carbonate can be separately mixed with cement concrete mixed with PAO. It is also possible to mix the material and alkali carbonate and mix it with cement concrete mixed with PAO.

[0022]

Hereinafter, the present invention will be described in more detail based on experimental examples.

EXPERIMENTAL EXAMPLE 1 A shotcrete having a unit cement amount of 450 kg / m ³ , W / C = 45%, and s / a = 70% was prepared, and this was supplied to a concrete pumping machine “Aliver 280” at 4 m ³ / cm3. hr pumping speed, 0.4MPa
Pneumatic pumping. Cement in concrete
PAO shown in Table 1 was previously mixed with concrete for 100 parts. In preparing the concrete, the amount of the water reducing agent was adjusted so that the slump was about 20 cm. In addition, pump the bisphenol-based condensate a and alkali carbonate with a pump to
Then, 0.2 parts and 2 parts (in terms of solid content) were respectively injected into the mixing pipe attached in front of the nozzle together with compressed air so as to be 0.2 part and 2 parts (solid content conversion), mixed with concrete and sprayed. The results are also shown in Table 1.

<Materials Used> Cement: ordinary Portland cement, commercial product, density 3.16 g / cm ³ fine aggregate: river sand from Himekawa, Niigata prefecture, surface dry density 2.62 g / cm ³ coarse aggregate: Himekawa from Niigata prefecture , Surface dry density 2.65 g / cm ³ water reducing agent: polycarboxylic acid-based high-performance AE water reducing agent, commercial product PAO: polyethylene oxide (PEO), average molecular weight 2 million, commercial product bisphenol-based condensate A: average molecular weight 20,000, commercial Product Alkaline carbonate: sodium carbonate, 20% aqueous solution, commercial product

<Measurement Method> Sag, etc .: A frame skeleton of 30 cm width × 30 cm thickness was crossed and placed on the slope to observe the condition when concrete was sprayed on the frame skeleton. × when many drippings and slips were seen, △ when slightly seen, ○ when not seen at all. Pot life ： The time from spraying the spray material until the dents disappeared by finger touch Workability: Workability when spraying concrete onto a frame skeleton of 10 cm wide x 40 cm long x 10 cm thick, finishing the surface of the frame skeleton with an iron and molding. ○: easy molding, △: force required for molding, ×: unable to form even with force. Pumpability: Measures the pressure in the pumping tube when pumping shotcrete. When the pressure is 0.40 to 0.55 MPa, ○, and when the pressure inside the pumping pipe becomes 0.40 to 0.55 MPa by applying an impact to the pumping pipe even if it becomes 0.60 MPa or more even if the pressure becomes 0.60 MPa or more, the pumping pipe closes. If the pressure is not 0.40 to 0.55MPa even when the pipe is impacted, compressive strength: Concrete is sprayed on a frame skeleton of 50cm wide x 50cm long x 20cm thick, and a 5cm diameter x 10cm long specimen Coring, curing at 20 ℃ and 80% RH

[0026]

[Table 1]

Experimental Example 2 PEO was added at 0.0 to 100 parts of cement in concrete.
The same procedure as in Experimental Example 1 was carried out except that one part was mixed and the bisphenol-based condensate shown in Table 2 was used. The results are also shown in Table 2.

<Materials used> Bisphenol-based condensate b: average molecular weight 5,000, commercially available bisphenol-based condensate C: average molecular weight 10,000, commercially available bisphenol-based condensate d: average molecular weight 30,000, commercially available

[0029]

[Table 2]

Experimental Example 3 PEO was added to 0.0 part of cement in concrete for 100 parts.
One part was mixed, and the same procedure as in Experimental Example 1 was carried out except that 0.2 parts of bisphenol-based condensate a and alkali carbonate (in terms of solid content) shown in Table 3 were used. The results are also shown in Table 3.

[0031]

[Table 3]

[0032]

According to the spraying material of the present invention and the spraying method using the same, the spraying speed can be increased and the construction efficiency can be increased. Therefore, even when concrete having a large slump is used, the concrete immediately after spraying can be used. In addition to preventing dripping and falling off the slope, the time for performing ironing can be secured, so that the beautiful appearance of the slope surface can be secured.

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Claims (8)

[Claims] 1. A spraying material containing a polyalkylene oxide, a bisphenol-based condensate, and an alkali metal carbonate. 2. The bisphenol-based condensate has an average molecular weight of
2. The spray material according to claim 1, wherein the amount is from 5,000 to 30,000. 3. A spray material comprising cement and the spray material according to claim 1. 4. The spraying material according to claim 3, wherein the alkali metal carbonates are contained in an amount of 1 to 5 parts in terms of solid content based on 100 parts of cement. 5. A spraying method using the spraying material according to claim 3 or 4. 6. A cement concrete containing a part of the spraying material according to claim 1 or 2 and the remaining portion of the spraying material according to claim 1 or 2 are mixed and sprayed immediately before spraying. A spraying method characterized by the following. 7. A spraying method characterized in that cement concrete containing cement and polyalkylene oxide, a bisphenol-based condensate, and alkali metal carbonates are mixed and sprayed immediately before spraying. 8. A skeleton is formed by arranging rebars on a slope, and the spray material according to claim 3 or 4 is sprayed on the slope to construct a cement concrete frame containing rebars. Slope spraying method.