JPH02208564A - Method and apparatus for measuring workability of concrete - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method and apparatus for measuring the workability of ultra-high strength concrete.

(Prior Art) Conventionally, a slump test method has been used as a test method for concrete workability.

The slump test was conducted using a 10 cm inner diameter at the upper end placed on a base plate.
A conical slump cone (a) (see Figures 5 and 6) with a lower end inner diameter of 201 cm and a height of 30 cm is filled with three layers of concrete, and a round bar with a diameter of 16 mm and a length of 50 cm is filled. After thoroughly pounding the slump cone with a dowel with a hemispherical tip, measure the drop 1 (St) of the concrete in the slump cone when the slump cone is pulled out vertically, and this measured value is taken as the slump value. The larger the slump, the softer the concrete is. (See Figure 4) (Problem to be solved by the invention) However, ultra-high strength concrete depends on the type of aggregate, particle size, cement)! This fresh concrete is obtained by selectively mixing admixtures and adopting new concrete production management technology.The fresh concrete has a high viscosity and is a worker-friendly concrete that combines the characteristics of resistance to aggregate separation, fluidity, and viscosity. The properties of compatibility are different from conventional concrete, and even with the same slump, the properties are different.

Fresh concrete, which is ultra-high strength concrete with a high viscosity, cannot be evaluated for rheological properties such as workability by conventional slump tests.

The present invention was proposed in view of the problems of the prior art, and its purpose is to provide a measuring method and device that can easily measure and evaluate the workability of ultra-high strength concrete. It is in the point of doing.

(Means for Solving the Problems) In order to achieve the above object, the workability measuring method according to the present invention uses a vertical cylinder having both ends open and a concrete dam plate removably inserted in the middle. After filling the upper part of the dam plate in the vertical cylindrical pipe in a boot-shaped cylindrical pipe formed by communicating an inclined cylindrical pipe with open ends at the lower end of the pipe, the open base temporary is removed from the vertical cylindrical pipe. The concrete on the dam plate is dropped onto the inclined cylindrical pipe, and the length and flow rate of the concrete from the free end opening of the inclined cylindrical pipe and the vertical direction of the concrete in the vertical cylinder are determined. This method is characterized by measuring the amount of displacement.

Furthermore, in order to smoothly carry out the above measurement method, the concrete workability measuring device according to the present invention has both ends open and a dam plate that temporarily dams the concrete inserted in the middle in a removable manner. The lower end of a vertical cylindrical tube is connected to an inclined cylindrical tube that is open at both ends.

(Function) According to the present invention, a dam plate is inserted into the vertical cylindrical tube of the boot-shaped cylindrical tube, and the upper part of the dam plate in the vertical cylindrical tube is filled with ultra-high strength concrete, and then the dam plate When the concrete in the vertical cylindrical pipe is pulled out and allowed to fall into the inclined cylindrical pipe that communicates with the vertical cylindrical pipe, the fallen concrete flows down the inclined cylindrical pipe and a portion flows out from the free end of the pipe. do.

Measure the length and amount of concrete flowing out at this time, and the distance between the top of the vertical cylindrical pipe and the fallen concrete on the inclined cylindrical pipe immediately below the open pipe, that is, the amount of vertical displacement of the concrete. Accordingly, it is possible to comprehensively evaluate each workability characteristic of fresh ultra-high strength concrete, that is, resistance to aggregate separation, fluidity, and viscosity.

(Example) The present invention will be described below with reference to the illustrated embodiments.

The prisoner is a boot-shaped cylindrical tube installed on a horizontal platform (B), with a vertical cylindrical tube (1) that is open at both ends, and an inclined cylindrical tube (2) that is open at both ends attached to the same cylindrical tube (1). The inclined cylindrical tube (2) is connected in a sliding manner, and the inclined stabilizer (3) is installed at the bottom of the inclined cylindrical tube (2).
) is fixed and the boot-shaped cylindrical tube is installed on a horizontal platform (Bl), the inclined cylindrical tube (2) is fixed at an angle of inclination θ of the stable platform (3) with respect to the horizontal platform (Bl). It is configured to be tilted and supported at equal angles.

The middle part of the vertical cylindrical tube (1) is cut obliquely to the central axis of the same cylindrical tube (1), and upper and lower divided vertical cylindrical tubes (la) (lb) are required to be located across the cut plane. A dam plate (6) with a handle (5) is connected to the cylindrical pipes (la) and (lb) through a hinge-like joint fitting (4) so as to face each other with a thickness of It is designed so that it can be inserted and removed freely.

The vertical cylindrical tube (1) and the inclined cylindrical tube (2) constituting the shoe-shaped cylindrical tube wall are each made of transparent glass or synthetic resin so that the condition of the concrete inside each tube can be visually observed.

When measuring the workability of fresh ultra-high strength concrete using the measuring device, a dam plate (6
) into the upper vertical cylindrical pipe (1a), and then pour fresh concrete (O) into the upper vertical cylindrical pipe (1a) through the upper opening of the vertical cylindrical pipe (1). When the plate (6) is pulled out from the vertical cylindrical tube (1), the fresh concrete (O) in the upper vertical cylindrical tube (1a) falls into the inclined cylindrical tube (2), and the same cylindrical tube (
2), the flow slides down along the lower slope of (C' in Fig. 3).
), it flows out from the free end of the cylindrical tube (2).

The resistance of the fresh concrete (HC) to aggregate separation was visually determined, and the upper end of the concrete (HC) located directly below the vertical cylindrical pipe (1) in the inclined cylindrical pipe (2) was determined. Same vertical cylindrical tube (1)
(C'
) By measuring the runoff length Lb and runoff IQ, the workability characteristics of the concrete can be determined using the measured values and a correlation formula determined in advance through experiments, etc.
That is, in addition to the resistance to aggregate separation, fluidity and viscosity can be comprehensively evaluated.

At this time, the vertical cylindrical tube (1) and the inclined cylindrical tube (2)
) are made of transparent glass or synthetic resin tubes, it is possible to visually check the condition of the concrete inside each cylindrical tube (1) and (2), which is convenient for measurement, and also makes it possible to check the condition of the concrete. Resistance to aggregate separation can be easily determined.

(Effects of the Invention) According to the present invention, the upper part of the dam plate removably fitted into the vertical cylindrical tube with both ends open in the boot-shaped cylindrical tube is filled with concrete. The dam plate is pulled out, and the concrete that has been dammed by the dam plate is allowed to fall into an inclined cylindrical pipe that is open at both ends and communicates with the vertical cylindrical pipe, and is caused to flow along the inclined lower bottom surface of the slanted cylindrical pipe. The workability of the concrete is determined by causing the concrete to flow out from the free end opening of the inclined cylindrical pipe and measuring the length and amount of the concrete flowing out from the opening and the vertical displacement of the concrete in the vertical cylindrical pipe. It is possible to comprehensively evaluate each of the characteristics of concrete, namely resistance to aggregate separation and fluid viscosity, which facilitates quality control and construction management of ultra-high-grade concrete.

The invention of claim 2 provides a boot-shaped cylindrical tube in which a slanted cylindrical tube with both ends open is connected to a lower end of a vertical cylindrical tube with both ends open, and a boot-shaped cylindrical tube is formed in the middle of the vertical cylindrical tube. A concrete workability measuring device is constructed by removably inserting a dam plate that temporarily dams the loaded concrete, and the measuring method is smoothly carried out by the device.

According to the third aspect of the invention, the vertical cylindrical tube and the inclined cylindrical tube in the workability measuring device are made of transparent glass or synthetic resin cylinders, so that it is possible to visually check the condition of the concrete in each of the cylindrical tubes. This makes measurement easy and allows for the detection of concrete's resistance to aggregate separation.

The invention according to claim 4 is characterized in that the intermediate portion of the vertical cylindrical tube is cut obliquely to the axis of the cylindrical tube, and the upper and lower divided vertical cylindrical tubes facing each other across the cut portion have a gap of a predetermined thickness. The dam plate is joined with a joining metal fitting so as to face each other, and the dam plate can be easily fitted into and removed from the vertical cylindrical pipe using the same gap.

In the invention of claim 5, an inclined stabilizer is fixed to the lower surface of the lower inclined cylindrical tube in the boot-shaped cylindrical tube, the cylindrical tube is installed to have a required inclination angle, and the concrete flows smoothly inside the cylindrical tube. This allows the workability to be easily measured.

[Brief explanation of the drawing]

Fig. 1 is a perspective view showing an embodiment of a concrete workability measuring device for carrying out the method of the present invention, and Figs. 2 and 3 show the process of concrete workability measuring method using the same measuring device. FIG. 4 is an explanatory diagram of a conventional slump test, and FIGS. 5 and 6 are a vertical cross-sectional view and a plan view, respectively, of a slump cone used in the slump test. ^・-boot-shaped cylindrical pipe, (Q-・fresh concrete, (1)・-vertical cylindrical tube, (2)-slanted cylindrical tube,
(3) - One stable stand, (4)... - Hinge-shaped joint fitting, (6) - One dam plate. Agent: Patent Attorney Shigefumi Okamoto Figure 2 Figure 3

Claims (5)

[Claims] (1) The vertical cylinder in a boot-shaped cylindrical tube formed by connecting an inclined cylindrical tube with both ends open and the lower end of the vertical cylindrical tube with both ends open and a concrete dam plate removably inserted in the middle. After filling the upper part of the dam plate in the pipe with concrete, the dam plate is removed from the vertical cylindrical pipe, and the concrete on the dam plate is allowed to fall onto the inclined cylindrical pipe. A method for measuring concrete workability, comprising measuring the length and amount of the concrete flowing out from the free end opening and the amount of vertical displacement of the concrete in the vertical cylinder. (2) An inclined cylindrical pipe with both ends open and connected to the lower end of a vertical cylindrical pipe with a dam plate that is open at both ends and a dam plate that temporarily dams concrete temporarily inserted in the middle, connected to the lower end of the vertical cylindrical pipe. A concrete workability measurement device featuring: (3) The concrete workability measuring device according to claim 2, wherein each of the cylindrical tubes is made of a transparent glass or synthetic resin cylinder. (4) The middle part of the vertical cylindrical tube is cut obliquely to the center axis of the cylindrical tube, so that the vertical cylindrical tubes divided into upper and lower parts facing each other across the cut part face each other with a gap of a predetermined thickness. 3. The concrete workability measuring device according to claim 2, wherein said dam plate is connected to said gap with a connecting fitting, and said dam plate is removably inserted into said gap. (5) The workability measuring device according to claim 2, wherein the inclined cylindrical tube has an inclined stabilizer fixed to the lower surface thereof.