JPH11324324A - Method and device for mixing carbon dioxide with concrete - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and a device for mixing carbon dioxide with concrete by which carbon dioxide can be quickly dispersed and mixed in concrete to easily obtain a uniform mixture of concrete and carbon dioxide. SOLUTION: A mixing device comprises a pressure control device 14 communicated with a carbon dioxide storage facility through a communicating pipe 13 for controlling the pressure of liquefied carbon dioxide force-fed from a carbon dioxide storage facility 4.9 kg/cm or less to be made into powdered dry ice, and a nozzle device 12 communicated with the pressure control device 14 through a force-feed pipe 15 and opened in the concrete 11 to blow out the powdered dry ice into the concrete 11 to be mixed in. In this case, concrete is placed while carbon dioxide is uniformly mixed in the concrete 11 by the blown-out powdered dry ice.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mixing method and a mixing apparatus for mixing carbon dioxide into concrete.

[0002]

2. Description of the Related Art Concrete is a mixture of water, cement, aggregates such as sand and crushed stone, and various admixtures and admixtures added as necessary. By mixing using a kneading mixer or the like according to the design blend, it is manufactured as fresh concrete in a state that has not yet set, with fluidity and viscosity to ensure the prescribed workability, that is, easy work. The material is transported to the casting site via a pressure feed pipe, a concrete bucket, or the like, and is cast. After the casting, curing is performed until the concrete is hardened to obtain a concrete structure having a desired shape.

[0003] On the other hand, for the purpose of accelerating the hardening of such fresh concrete to increase the speed of developing the initial strength, or to reduce the temperature of the fresh concrete to prevent cracking due to a rise in temperature after hardening. A method of mixing carbon dioxide into concrete and placing the concrete is described in, for example, Japanese Patent Application No. 10-109564 filed by the present applicant.

[0004] That is, carbon dioxide gas is preferably mixed into concrete in a solid or liquid state. The sensible heat or latent heat of the carbon dioxide gas enables the fresh concrete to be efficiently cooled and the mixed carbon dioxide gas. By the action of the gas, NaCl or K ₂ SO ₄
As in the case of adding lime, the lime saturation ratio in the liquid phase is increased at an early stage, and the hydration of C ₃ S is promoted. As a result, the expression of early strength of concrete is improved.

[0005]

However, according to the above-mentioned conventional method of mixing carbon dioxide into concrete and placing the concrete, the carbon dioxide has a large difference in specific gravity with respect to viscous concrete. Because it was mixed as liquefied carbon dioxide or solid dry ice, it was difficult to obtain a uniform mixture in a short time, especially when mixing carbon dioxide into concrete being pumped through a concrete pumping pipe. However, there is a problem that a special mixing machine needs to be provided in the pressure feed pipe.

Therefore, the present invention has been made in view of such conventional problems, and a carbon dioxide gas is rapidly dispersed and mixed in concrete to easily obtain a uniform mixture of concrete and carbon dioxide gas. It is an object of the present invention to provide a mixing method and a mixing apparatus for mixing carbon dioxide into concrete capable of being mixed.

[0007]

SUMMARY OF THE INVENTION The present invention has been made to achieve the above-mentioned object, and a gist of the invention is a mixing method for mixing carbon dioxide gas into concrete, which is pumped from a carbon dioxide gas storage facility. A method for mixing carbon dioxide gas into concrete, characterized in that the pressure of the liquefied carbon dioxide gas to be produced is controlled to lower to obtain powdery dry ice, and then this powdery dry ice is blown out into concrete and mixed.

[0008] The mixing method of the present invention is preferably used for concrete being pumped through a concrete pumping pipe.

Further, in the mixing method of the present invention, there is provided a gas reservoir provided on an inner wall surface of the concrete pumping pipe, and an excess carbon dioxide gas generated by vaporizing the powdery dry ice blown into the concrete, and communicating with the gas reservoir. It is preferable to carry out mixing while removing through a degassing hose.

On the other hand, another gist of the present invention is a mixing apparatus for mixing carbon dioxide into concrete, wherein the pressure of liquefied carbon dioxide supplied from a carbon dioxide storage facility is increased by 4.
A pressure controller communicating with the carbon dioxide gas storage facility via a first pipe and controlling the pressure to 9 kg / cm ² or less to produce powdery dry ice, and communicating with the pressure controller via a second pipe; And a nozzle portion that opens into the concrete and blows out and mixes the powdered dry ice into the concrete.

In the mixing apparatus according to the present invention, it is preferable that a heating element is mounted around the second pipe and / or the nozzle.

According to the mixing method of the present invention, since the powder is easily dispersed and mixed in the concrete, the dry ice is mixed with the concrete by mixing carbon dioxide gas as the powdery dry ice into the concrete. Since the mixture is easily and uniformly dispersed and vaporized therein, a uniform mixture of concrete and carbon dioxide gas can be easily obtained, and early development of concrete strength and concrete cooling can be efficiently achieved.

[0013] Further, if powdered dry ice is blown out to the concrete being pumped through the concrete pumping pipe, the powdered dry ice can be agitated at the time of pumping without a special mixing machine being provided in the pumping pipe. It can be easily dispersed and mixed in concrete.

Further, even when excess carbon dioxide gas is generated by the vaporization of the powdered dry ice mixed with the concrete being pumped, a gas reservoir and a degassing hose communicating with the gas reservoir can be provided around the concrete pumping pipe. In this case, concrete can be poured while removing the excess carbon dioxide gas.

According to the mixing apparatus of the present invention, the above mixing method can be easily performed.

If a heating element is mounted around the second pipe and / or the nozzle portion of the mixing device, even if the dry ice causes clogging, such clogging is easily eliminated. be able to.

[0017]

Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings. According to this embodiment, as shown in FIG. 1, for example, in order to place shotcrete or secondary-wound concrete on the inner wall surface of the tunnel, the concrete is not yet solidified while being pumped through the concrete pumping pipe 10. This is adopted for mixing carbon dioxide gas in the fresh concrete 11.

According to this embodiment, a nozzle device 12 for blowing out powdery dry ice is disposed inside the concrete pumping tube 10, and the nozzle device 12 is connected to the peripheral wall of the concrete pumping tube 10. Is communicated with a carbon dioxide gas pressure control device 14 through a communication pipe 13 as a second pipe penetrating the carbon dioxide gas, and the pressure control device 14 stores carbon dioxide gas through a pressure feed pipe 15 as a first pipe. It is connected to a facility such as a tank truck.

Here, the nozzle device 12 is disposed at a substantially central portion in cross section of the concrete pumping pipe 10 with its outlet facing forward in the pumping direction of the concrete 11.
The powdery dry ice generated by the pressure control device 14 can be blown into the concrete 11 being pumped by the injection pressure from the pressure control device 14.

A planar heating element 19, which is an example of a heating element, is provided around the nozzle device 12 and the communication pipe 13. Even when these are clogged by dry ice, such clogging can be prevented. It can be resolved.

On the other hand, the pressure control device 14 is generally
The liquefied carbon dioxide gas stored and transported at a pressure of about g / cm ² and at a temperature of about −20 ° C. is received via the pressure feed pipe 15 and the pressure is controlled to 4.9 kg / cm ² or less to obtain powder. It produces dry ice in a shape and is equipped with a compressor and the like, and injects the generated powdery dry ice at high pressure from the nozzle device 12 to the concrete 11 being pumped. It is known that when the pressure of liquefied carbon dioxide gas is generally 4.9 kg / cm ² or less, it becomes dry ice.

Further, according to this embodiment, as shown in FIG. 2, near the discharge portion 18 of the concrete pumping pipe 10, a gas reservoir 16 projecting outward from the inner wall surface of the concrete pumping pipe 10, and A flexible hose 17 for venting gas that is open to the atmosphere in communication with the air is provided.

According to this embodiment, when the fresh concrete 11 is pumped through the concrete pumping pipe 10, powdery dry ice is blown out from the nozzle device 12 into the concrete 11 being pumped and mixed therewith. The concrete 11 is cast.

Here, since the mixed dry ice is in the form of powder, it is easily and uniformly dispersed and mixed in the concrete 11 as the concrete 11 is pumped, and this is vaporized to form a mixture of the concrete 11 and the carbon dioxide gas. A uniform mixture is easily obtained, and by casting the concrete 11 mixed with carbon dioxide gas in this way, it is possible to efficiently achieve the early development of the strength of the concrete 11 and the prevention of cracks due to cooling of the concrete 11. Will be possible.

Further, even when excess carbon dioxide gas is generated by vaporization of the dry ice mixed in the concrete 11, the excess carbon dioxide gas is supplied through the gas reservoir 16 and the flexible hose 17 provided near the discharge portion 18. To prevent the concrete 11 and the carbon dioxide gas as a gas from being discharged together from the discharge portion 18,
Efficiency of the casting work can be easily improved,
For example, when casting concrete in water, turbidity in water can be avoided.

The present invention is not limited to the embodiment of the above embodiment, but can be variously modified and adopted within the scope of the constitution described in each claim. For example, the present invention is not limited to concrete being pumped through a concrete pumping pipe, but can also be used when mixing carbon dioxide into concrete being kneaded in a mixer, and also in a tunnel. The present invention can be applied not only to shotcrete and secondary-wound concrete on the wall surface but also to various other concrete placing operations.

[0027]

As described above in detail, according to the carbon dioxide mixing method of the present invention, the pressure of the liquefied carbon dioxide supplied from the carbon dioxide storage facility is controlled to be reduced to obtain powdery dry ice. Since the powdery dry ice is blown into the concrete and mixed, the carbon dioxide gas can be quickly dispersed and mixed in the concrete, and a uniform mixture of the concrete and the carbon dioxide gas can be obtained quickly and easily.

Also, if powdered dry ice is blown onto the concrete being pumped through the concrete pumping tube, the powdered dry ice is stirred by the pumping operation without providing a special mixing machine in the pumping tube. It can be easily dispersed and mixed in concrete.

On the other hand, according to the mixing apparatus of the present invention, the above mixing method can be easily carried out.

[Brief description of the drawings]

FIG. 1 is a schematic sectional view illustrating a mixing method and a mixing apparatus according to an embodiment of the present invention.

FIG. 2 is a schematic cross-sectional view illustrating a gas reservoir and a degassing hose provided in a concrete pumping pipe.

[Explanation of symbols]

 REFERENCE SIGNS LIST 10 Concrete pumping pipe 11 Fresh concrete 12 Nozzle device 13 Communication pipe 14 Pressure control device 15 Pumping pipe 16 Gas reservoir 17 Flexible hose (gas release hose) 19 Planar heating element

Claims (5)

[Claims] 1. A mixing method for mixing carbon dioxide gas into concrete, comprising: controlling the pressure of liquefied carbon dioxide gas fed from a carbon dioxide gas storage facility to be reduced to dry ice powder; A method for mixing carbon dioxide into concrete, characterized by blowing ice into the concrete and mixing it. 2. The method of mixing carbon dioxide into concrete according to claim 1, wherein the concrete mixed with carbon dioxide is concrete being pumped through a concrete pumping pipe. 3. An excess carbon dioxide gas generated by vaporization of the powdery dry ice blown into the concrete is passed through a gas reservoir provided on the inner wall surface of the concrete pumping pipe and a gas release hose communicating with the gas reservoir. The method for mixing carbon dioxide into concrete according to claim 2, wherein the mixing is performed while removing the carbon dioxide. 4. A mixing device for mixing carbon dioxide gas into concrete, wherein the pressure of liquefied carbon dioxide gas fed from a carbon dioxide gas storage facility is controlled to 4.9 kg / cm ² or less and powdered dry ice and A pressure control unit communicating with the carbon dioxide storage facility via a first pipe, and communicating with the pressure control unit via a second pipe, and opening the powdered dry ice to condense the powdery dry ice. A device for mixing carbon dioxide into concrete, comprising: a nozzle portion which blows out and mixes into concrete. 5. The apparatus for mixing carbon dioxide into concrete according to claim 4, wherein a heating element is mounted around the second pipe and / or the nozzle portion.