JPH05186281A - Method for concrete and apparatus therefor - Google Patents

Abstract

PURPOSE:To provide a method for concreting concrete capable of reducing labor required for the operation, shortening the operation time and a term of the works and reducing cost owing to saving labor, and an apparatus therefor. CONSTITUTION:Arbitrary amounts of materials for concrete are continuously stirred and blended using a continuous mixer 2 to produce a concrete for concreting curable in a short time and during the production of the concrete, the concrete is jetted and concreted from a jetting apparatus 3 into a site to be concreted while giving an auxiliary material such as water glass or a quick setting material of a proper amount thereto to instantaneously harden the concrete for concreting. In this time, the hardening rate is controlled by heating or cooling of the concrete.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a concrete placing method and a concrete placing apparatus used in the placing method.

[0002]

2. Description of the Related Art Conventionally, when pouring concrete, a concrete pouring frame is first assembled and then concrete is poured into the same frame. At that time, the work of assembling and removing the formwork, the production of concrete for casting, and the work of placing were all entrusted to the manual work of the workers.

[0003]

In the conventional concrete pouring work, most of the work is entrusted to the manual work of the worker, so that a lot of labor and a long work time are required. However, there was a problem that the construction period was extended and the construction cost was increased. Particularly in recent years, labor shortage has become a major social problem, and there has been a demand for promotion of labor saving at construction sites.

The present invention has been proposed in view of such circumstances, and the purpose thereof is to save labor in concrete placing work, reduce labor required for concrete placing work, and reduce work time. It is a point to provide concrete pouring work and its equipment that can shorten the construction period, shorten the construction period, and save the cost.

[0005]

In order to achieve the above-mentioned object, according to the concrete pouring method of the present invention, a concrete having a low water bond ratio and being easily hardened in a short time is produced at a pouring place. The concrete is instantly cured by adding a quick-setting material while pouring and pouring an appropriate amount.

The concrete pouring device according to the present invention is a stirring and mixing device for concrete which has a function of heating and cooling concrete material and has a low water bonding ratio, a concrete injection device connected to the device, and the same injection device. And a quick-linking material supply device connected to the.

[0007]

According to the present invention, first, an arbitrary amount of concrete material is continuously stirred and mixed, and when this is poured into the pouring place while giving an appropriate amount of quick-setting material,
The cast concrete is instantly hardened, and by injecting and pouring while hardening the concrete in this way, the concrete is cast into a desired shape without assembling the formwork.

The concrete pouring device according to the present invention is provided with a concrete injection device connected to a concrete agitating and mixing device having heating and cooling functions for the concrete material and having a low water binding ratio, and a quick-setting material for the agitating and mixing device. Since the concrete pouring method is smoothly performed by connecting the supply device, the setting speed of the concrete is controlled by the heating and cooling mechanism provided in the injection device.

[0009]

The present invention will be described below with reference to the illustrated embodiments. The concrete material hopper 1 is connected with a continuous mixer 2 which constitutes a stirring device for the concrete material.
Is connected to the injection device 3. Thus, the injection device 3 and the continuous mixer 2 are provided with a container 4 equipped with a heating / cooling device.
Built into.

In the figure, M ₁ and M ₂ are motors for driving the mixer 2 and the injection device 3, respectively. The material hopper 1 is connected to a cement storage tank 6, a gravel storage tank 7, a sand storage tank 8 and an admixture storage tank 9 via a pipe 5. Materials such as cement, gravel, sand, and admixtures are put into the continuous mixer 2 from the respective storage tanks through the pipe 5 and the material hopper 1 and agitated and mixed.

The concrete thus agitated and mixed is sent to the injection device 3 in the container 4, and while being heated and cooled, the quick-setting material is supplied from the quick-setting material supply device 11 through the pipe 10. The quick setting material and the agitated and mixed concrete are mixed and then injected. The injected concrete solidifies immediately and exerts sufficient strength for shape retention, so the construction can be done in three dimensions, that is, in any shape vertically or horizontally, and the formwork It becomes unnecessary.

The trowel a receives the concrete injected from the injection device 3, the trowel a is molded while sliding, and the concrete injection device 3 and the trowel a are three-dimensionally formed as the molding progresses. Moving. The storage and supply device for the concrete material does not necessarily have to be adjacent to the concrete pouring place. It suffices if the material can be conveyed to the injection device 3 within a possible distance.

It has a function of stirring / mixing and heating / cooling the materials sent as described above, and also has a function of kneading and mixing and further mixing / heating and cooling of concrete. A concrete injection device 3, a movement control member 12 for automatically moving the injection device 3 two-dimensionally as needed, and a trowel a capable of receiving the injected concrete and further sliding can be automatically two-dimensionally supplied as required. The part installed with the device having the movement control member 13 that can be moved physically is a part where concrete is directly placed and constructed. In addition to the quick-connecting material, compressed air is supplied to the above-mentioned portion via a pipe 10 connected to the injection device 3,
Water and admixture are delivered.

The concrete sprayed from the concrete spraying device 3 is water supplied through the pipe 10,
It is an admixture and a quick-setting admixture that have been stirred, mixed, heated and cooled. The concrete injection device 3 receives supply of compressed air from the supply device 11 through a pipe 10.

The concrete spraying device 3 is connected to a frame-shaped movement control member 12. The trowel a is connected to a frame-shaped movement control member 13. The members 12 and 13 are connected to a frame-shaped control member 14, the member 14 is connected to a frame-shaped movement control member 15, and the member 15 is connected to a frame-shaped control member 16. The member 16 is connected to a frame-shaped control member 17, and a self-propelled device is attached to the member 17.

The concrete produced by the continuous mixer 2 in the injection device 3 in this embodiment is as follows. That is, basically, a water binder having a low ratio (for example, 20% or less) is used, which is hardened in about 5 minutes after stirring and mixing. This kind of material is hard to be cured in a short time, so that it is not used in the past. Further, the strength after curing is extremely high. For example, water binder
Concrete having a (cement + silica fume) ratio of 20% can obtain a compressive strength of about 1,500 kg / cm ² . The compressive strength of about 1,500 kg / cm ² is obtained by the conventional construction (test) method. This concrete becomes hard 5 minutes after it is mixed, and it is not substantial in the conventional construction method. Since the concrete used in the present invention is constructed by the injection method, a vibrator or the like cannot be used unlike the conventional construction method. Further, in the present invention, a quick-setting material is used to further accelerate the hardening rate of concrete. The concrete of the present invention is 1,500 / 3 = 500 even from the viewpoint of the filling property by the injection method.
A compressive strength of kg / cm ² can be guaranteed. This strength is the current value, and can be increased by accumulating more experience. According to the experiment, 600 kg / c
A compressive strength of m ² has been confirmed.

The operation will be described based on the above configuration. First, materials such as cement, gravel, sand, and admixtures are stored in each storage tank6.
It is sent to the material hopper 1 of the injection device 3 from 7, 8, and 9.
These materials are stirred and mixed with water and an admixture in the continuous mixer 2 below the material hopper 1 to become ready-mixed concrete. This green concrete is injected with a quick-setting material, which is agitated / mixed, heated, cooled by an injection device 3 below the continuous mixer 2. The quick-setting material accelerates the hydration reaction of the injected concrete and accelerates the setting. By the time it is jetted and hits the iron a, it has hardened to a sufficient degree for shape retention, but the hydration reaction has not ended. The setting speed depends on the type of quick-setting material and the amount used, but also on the temperature of the concrete. For this reason, the injection device 3 is provided with a heating / cooling function.

Since the concrete injected from the injection device 3 is hardened to a sufficient degree of shape retention at the moment of injection, any form can be obtained by appropriately setting the injection speed, the injection direction and the injection method. Can also be molded. The reason for using the trowel a is to make the construction easier. As described above, according to this embodiment, the following effects can be obtained.
First, it is possible to reduce the labor required for the concrete placing work, to reduce the labor required for the work, to shorten the working time, and to shorten the construction period and the cost. In other words, it is configured such that the work is automatically performed in an almost unmanned state from the preparation of the poured concrete to the final pouring.

Further, since the concrete for casting is hardened immediately after it is placed, it is not necessary to use a temporary material such as a formwork as in the conventional case, and the work can be simplified correspondingly. Therefore, the construction period can be shortened. Also, the cost can be reduced more effectively, and the amount of material can be reduced. The present invention is not limited to the above embodiment. Any concrete, mortar, paste, etc. can be used. Whether it is used or not can be determined by checking whether it is sent to the concrete injection device 3 through the pipe 5.

Next, another embodiment of the present invention will be described. Injector 3 for materials such as cement, gravel, sand, and admixtures
If the materials such as cement, gravel, sand, admixture, etc. are mixed and kneaded without being directly sent to the material hopper 1 of the above-mentioned material hopper 1, and sent to the material hopper 1 of the injection device 3 through the pipe 5, further kneading effect and injection device Weight reduction of 3 is achieved.

Next, examples of concrete mixes used in the present invention will be given below. a) Wet unit cement amount C; 560 kg Admixture (silica fume) Si; C × 20% Unit water amount; (C + Si) × 26% Admixture; Fluidizer Aggregate; Hard crushed stone / crushed sand S / A; 40% Quick setting Material; C × 10.5% .......
-55 "(trade name) (NMB Co., Ltd.) was used. b) Dry type unit cement amount C; 650 kg unit water amount; C × 82% Aggregate; Hard crushed stone / sand crushed S / A; 40% Rapid setting material; C × 15% ・ ・ ・ ・ ・ As quick setting material, “QP-5
5 ”(trade name) (NMB Co., Ltd.) was used.

[0022]

As described above, according to the concrete placing method and the concrete placing apparatus of the present invention, since a series of operations can be performed almost automatically, the labor saving of concrete placing operations can be effectively achieved. Therefore, it is possible to reduce the labor required for the work, the work time, the work period, and the cost. In addition, since the poured concrete hardens immediately after it is poured, temporary materials such as formwork are unnecessary, which also facilitates the work.
The amount of work required can be reduced.

[Brief description of drawings]

FIG. 1 is an explanatory view showing the outline of the configuration of an embodiment of a concrete pouring device according to the present invention.

FIG. 2 is an explanatory diagram showing a stirring / mixing and injection unit of concrete.

[Explanation of symbols]

 1 Material Hopper 2 Continuous Mixer 3 Injection Device 4 Continuous Mixer and Injection Device Container 5 Piping 6 Cement Storage Tank 7 Gravel Storage Tank 8 Sand Storage Tank 9 Admixture Storage Tank 10 Piping 11 Rapid Binding Material Supply Device 12 Movement Control Member 13 Movement Control Member 14 Movement Control member 15 Movement control member 16 Movement control member 17 Movement control member a Trowel

Claims (2)

[Claims] Claim: What is claimed is: 1. Immediately hardening a cast concrete by adding a quick-setting material while injecting an appropriate amount into a casting place while manufacturing a concrete having a low water-bonding ratio and easily hardened in a short time. Concrete placing method characterized by. 2. An agitating and mixing apparatus for concrete having a low water-bonding ratio, which has a heating and cooling function for concrete materials, a concrete injection apparatus connected to the apparatus, and a quick-setting material supply apparatus connected to the injection apparatus. A concrete pouring device comprising: