KR101691896B1 - An apparatus for measuring consistency of fresh concrete and a method for measuring consistency of fresh concrete using the same - Google Patents

Abstract

The present invention is characterized in that " a lower flat plate made of a plate-shaped member; An upper flat plate made of a watertight plate member; And a lower end connected to an upper surface of the lower plate and an upper end coupled to a lower surface of the upper plate to allow the upper plate to be spaced apart from the upper portion of the lower plate and to be fixed in parallel; A cylindrical container coupled to an upper surface of the upper plate such that an opening thereof faces upward; And a vibrating device attached to a lower surface of the upper plate to cause the upper plate to vibrate, and an apparatus for measuring the consistency of a non-hardened concrete, 1. A method for measuring the consistency of concrete, comprising: (a) filling a cylindrical concrete container with a specimen of unfragged concrete of a predetermined weight; (b) placing a transparent disc having a diameter corresponding to an inner diameter of the cylindrical container on a specimen of a non-hardened concrete filled in the cylindrical container; And (c) measuring the time it takes for the vibration plate to vibrate the upper plate to cause the transparent plate to be completely wetted by the mortar floating on the concrete specimen of unfragged concrete having a predetermined weight, and A method of measuring the consistency of unreinforced concrete ".

Description

[0001] The present invention relates to an apparatus for measuring the consistency of a concrete, and a method for measuring the consistency of a non-solid concrete using the same,

The present invention relates to an apparatus for measuring the consistency of unhardened concrete and a method for measuring the consistency of unhardened concrete using the same. More particularly, the present invention relates to a method for measuring the consistency of a hardened concrete using a pre-cast high-strength concrete pile Quantitatively measuring the kneading, ie, consistency, of unreinforced concrete used in the manufacturing of factories such as Pole, Sleeper, Box Culvert, Hume Pipe and Channel. The present invention relates to a non-solid concrete consistency measuring device and a method of measuring the unconfined concrete using the same.

As a conventional method for measuring the consistency of unhardened concrete, there is a KS F 2427 (a method for testing the unbonded concrete kneading test), and a test apparatus for carrying out the test is shown in FIG. A concrete test method using the test apparatus of Fig. 1 is as follows. First, place the dough gauge horizontally, fix the container A on the shaking table G with a nut, place the mold B in the container A while moistening it, and then place the funnel D on the mold. Next, fill the mold (B) with the funnel (D) through the funnel (D), fix it with the compaction rod, align the upper surface of the concrete with the upper surface of the mold (B), lift the mold vertically, C) and then start the vibrator. Finally, the concrete is built up by the vibrator from the start of vibration, and the time from when the mortar comes into contact with the entire surface of the transparent disc (C) is measured.

It is difficult to obtain consistent test data with the above conventional KS F 2427. This is because when the specimen collapses due to vibration, it tends to be tilted in one direction, so that the time taken for the transparency to completely wet by the mortar is not influenced only by the concrete consistency used in the actual test specimen. As a result, the data obtained by the conventional KS F 2427 does not have accurate linearity and fluctuates greatly.

This problem becomes more remarkable when measuring the consistency of concrete used in factories for the production of PHC files and the like because the flowability of concrete used in factories for producing PHC files is low. Therefore, in the field, when the admixture is mixed with the concrete for the production of the PHC file and the like, the constructor roughly grasps the viscosity of the concrete which is not hardened by the naked eye. This is an undesirable factor in the quality control of concrete products.

Registered Patent No. 0953942 "Concrete Flow Tester and Method for Measuring Concrete Consistency Using It ", 2010. 04. 22.

KS F 2427 (Test method for unbonded concrete)

The present invention quantitatively measures the consistency of unhardened concrete used in the manufacture of a factory such as a PHC file, a pole, a sleeper, a box culvert, a hume pipe, and a channel. And a method for measuring the continuity of unhardened concrete using the same.

In order to solve the above-described problems, the present invention is characterized in that: the lower flat plate made of a plate-like member; An upper flat plate made of a watertight plate member; A lower plate coupled to an upper surface of the lower plate, and an upper plate coupled to a lower surface of the upper plate to allow the upper plate to be spaced apart from the upper portion of the lower plate, A cylindrical container coupled to an upper surface of the upper plate such that an opening thereof faces upward; And an oscillating device attached to a lower surface of the upper plate to cause the upper plate to vibrate. The present invention also provides a device for measuring the continuity of a non-hardened concrete.

At this time, the apparatus for measuring the continuity of unhardened concrete according to the present invention may further include an electronic control display unit including a load cell for sensing the weight of the leg, and measuring and sensing the weight detected by the load cell of the leg As shown in FIG.

The present invention further provides a method for measuring the consistency of unreinforced concrete using the apparatus for measuring the continuity of unhardened concrete according to the present invention, the method comprising the steps of: (a) filling a test specimen of a predetermined amount of uncured concrete into the cylindrical vessel; (b) placing a transparent disc having a diameter corresponding to an inner diameter of the cylindrical container on a specimen of a non-hardened concrete filled in the cylindrical container; And (c) measuring the time taken for the vibration plate to vibrate the upper plate to cause the transparent plate to be completely wetted by the mortar floating on the concrete specimen of unfragged concrete having a predetermined weight, and A method of measuring the concrete of unconstrained concrete "is provided.

The apparatus for measuring the consistency of unhardened concrete according to the present invention and the method for measuring the consistency of unhardened concrete have the following effects.

Consistent and reliable quantitative data can be obtained in the measurement of the unconsolidated concrete consistency.

2. It is possible to obtain objective data on the consistency of unhardened concrete used for manufacturing PHC files, etc., which can not be reliably judged based on the visual and experience of the conventional worker.

[Fig. 1] is a test apparatus used for a conventional KS F 2427 (a method of testing a untreated concrete kneader).
FIG. 2 is an embodiment of an apparatus for measuring the consistency of unhardened concrete according to the present invention.
3 is a photograph of each step of the method for measuring the consistency of the uncured concrete according to the present invention.
FIG. 4 is a graph comparing test data obtained by the present invention with KS F 2427 (a method of testing a untreated concrete kneader).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for measuring the consistency of a non-solid concrete according to the present invention and a method for measuring the uncontinuous concrete using the same will be described in detail with reference to the accompanying drawings.

1. Consistency measurement device of unhardened concrete

3 shows an embodiment of an apparatus for measuring the consistency of unhardened concrete according to the present invention.

The apparatus for measuring the continuity of the uncured concrete shown in the embodiment of FIG. 3 includes a lower plate 10, an upper plate 20, four legs 30, a vibration device 50, and an electronic control display 60 .

The lower plate 10 is a plate-shaped member, and is a base part of the apparatus for measuring the continuity of uncured concrete according to the present invention. In the embodiment shown in Fig. 3, it is a rectangular flat plate.

The upper plate 20 is made of a water-tight plate member and is vibrated by the vibration device 50. Since the upper plate 20 is in direct contact with the test body, the upper plate 20 must be watertight and may have various shapes. In the embodiment of FIG. 3, the upper plate 20 is a rectangular plate consist of.

The lower leg is coupled to the upper surface of the lower plate 10 and the upper end of the leg 30 is coupled to the lower surface of the upper plate 20 so that the upper plate 20 is coupled to the lower plate 10 So that they can be arranged and fixed in parallel. 3, four legs 30 are arranged on the lower flat plate 10 so that the upper flat plate 20 having a rectangular shape can be spaced apart and fixed in parallel on the lower flat plate 10 having the same shape. And the upper plate 20, respectively. The number of the legs 30 does not necessarily have to be the same as in the embodiment of FIG. 3 and may vary depending on the shape of the lower plate 10 and the upper plate 20, have.

The cylindrical container 40 is an upper portion of the upper plate 20, which is coupled to the upper surface of the upper portion of the upper plate 20 so as to face upward. The cylindrical container 40 is also formed of a water-tight member like the upper plate 20.

The vibrating device 50 is attached to a lower surface of the upper plate 20 and vibrates the upper plate 20. This vibration induces the mortar to float in the concrete specimen filled in the cylindrical container (40). Since the legs 30 are formed of dampers as described above, vibration is efficiently transmitted to the upper plate 20 by the vibration device 50. [

The electronic control display unit 60 has a function of measuring and displaying the weight sensed by the load cell of the leg 30 when the leg 30 includes a load cell sensing the weight . The apparatus for measuring the consistency of a non-hardened concrete according to the present invention is configured to directly fill a cylindrical body 40 with a predetermined weight. This is because the conventional method using the mold (slump cone) makes the test body based on the volume of the concrete, so that it is difficult to accumulate accurate relative comparison data among the concrete having different specific gravity. Accordingly, it is preferable that the apparatus for measuring the continuity of the unhardened concrete according to the present invention includes the load cell in the legs 30 and the electronic control display unit 60.

2. Method of measuring the unconsolidated concrete consistency

FIG. 3 is a photograph showing each step of the method for measuring the consistency of the uncured concrete according to the present invention.

The method of FIG. 3 is performed by using the apparatus for measuring the continuity of unhardened concrete according to the present invention. The method of filling the cylindrical container 40 with a predetermined weight of unreinforced concrete, (Step (b)) of placing a transparent disc having a diameter corresponding to the inner diameter of the cylindrical container 40 on a specimen of unhardened concrete of a predetermined weight filled in the cylindrical container 40, 50) to cause vibration on the upper plate 20, and measuring the time taken for the transparent plate to be completely wetted by the mortar floating on the concrete specimen of unfragged concrete (step (c)) .

In the step (a), unlike the conventional method, the cylindrical container 40 is filled with a specimen of a non-hardened concrete having a predetermined weight without using a mold (slump cone). As can be seen from this step, according to the present invention, since the test is performed based on the weight of the test body, it is not necessary to use a mold (slump cone). Therefore, unlike the conventional method in which a specimen is made of a cone-shaped body, there is no fear that the specimen tilts to one side during the vibration process, which leads to accurate data acquisition.

In the step (b), a transparent disc having a diameter corresponding to the inner diameter of the cylindrical container 40 is placed on a specimen of a non-hardened concrete filled in the cylindrical container 40. In this step, the transparent disc placed on the test specimen comes into contact with the front surface of the specimen, but the contact surface is kept wet.

In the step (c), the vibrating device 50 is operated to cause vibration in the upper plate 20, and the time required for the transparent plate to be completely wetted by the mortar floating in the concrete specimen . When the vibrating device 50 is operated in this step, the vibration caused by the vibrating device 50 is transmitted to the upper plate 20. As a result, the mortar is floated on the test body in the test body which is filled in the cylindrical container 40, It is wetted by the mortar in the same manner as the original plate is wetted with muddy water. In this step, the time from the starting time of the vibration device 50 to the time when the transparent base plate is completely wetted by the mortar floating on the test piece is measured to calculate the consistency of the test piece.

4 shows a graph comparing the test data obtained by the present invention with the conventional KS F 2427 (a method of testing the untreated concrete kneader). In FIG. 4, the conventional measurement method is based on the conventional KS F 2427, and the present invention is based on the development method.

The data in [Fig. 4] was obtained using concrete for PHC file production as a test body. Specifically, in the case of the test according to the conventional KS F 2427, the test was carried out according to the relevant standard. In the test according to the present invention, the test was carried out with 12.8 kg of the test specimen. In each test, The relationship between the amount of sludge generated during centrifugal rotation for file production was derived. In the case of the test according to the conventional KS F 2427, an error due to tilting occurred in the process of collapse of the test specimen, but no error due to the cause occurred in the test according to the present invention. As a result, R ² of the data obtained by the present invention was 0.97, while R ² of the data obtained by the test according to the conventional KS F 2427 was 0.70. Thus, it can be seen that the linearity of the data is more clearly revealed according to the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

10: lower plate 20: upper plate
30: Leg 40: Cylindrical container
50: Vibrating device 60: Electronic control display part

Claims (3)

A lower flat plate 10 made of a plate-shaped member;
An upper plate 20 made of a watertight plate member;
The lower plate is coupled to the upper surface of the lower plate 10 and the upper plate is coupled to the lower surface of the upper plate 20 so that the upper plate 20 is spaced apart from the upper portion of the lower plate 10. [ A leg (30) provided with a load cell for detecting the weight of the upper part so as to be arranged and fixed in parallel;
A cylindrical container (40) coupled to an upper surface of the upper plate (20) with an opening facing upward; And
A vibration device (50) attached to a lower surface of the upper plate (20) to cause vibration of the upper plate (20); And
An electronic control display unit 60 for measuring and displaying the weight detected by the load cell of the leg 30; Wherein the non-rigid concrete comprises a plurality of coaxial cables.
delete A method for measuring the consistency of unhardened concrete using the apparatus for measuring the consistency of unhardened concrete according to claim 1,
(a) filling the cylindrical container (40) with a specimen of a non-hardened concrete of a predetermined weight;
(b) placing a transparent disc having a diameter corresponding to the inner diameter of the cylindrical container (40) on a specimen of unfragrant concrete of a predetermined weight filled in the cylindrical container (40); And
(c) activating the vibrating device (50) to induce vibration in the upper plate (20), measuring the time taken for the transparent plate to fully wet by the mortar floating in a concrete specimen of a fixed weight; Of the concrete.

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