JP6548953B2 - Concrete workability judgment method - Google Patents

Description

  The present invention relates to a method of determining the workability of concrete used for determining the workability of fresh concrete.

Conventionally, the slump test is most often used to determine the acceptability of fresh concrete.
In this slump test, fresh concrete sampled for each predetermined lot is packed in a slump cone, and the fall of the central part of the fresh concrete when the slump cone is pulled up is measured on a scale, and the consistency is used as an index evaluate.

In addition, Patent Document 1 proposes a new consistency evaluation method for fresh concrete that replaces such a slump test.
This concrete consistency evaluation method focuses on that when the internal vibrator is inserted to compact fresh concrete, the rotational momentum of the internal vibrator changes with compaction. In this method, the internal vibrator is added to fresh concrete. The consistency of fresh concrete is evaluated by inserting while vibrating and measuring the load torque.

JP, 2002-1721, A

However, in the conventional slump test, it is necessary to secure the labor and time for these operations at the construction site, such as collecting concrete from a fresh concrete pump car, filling the slump cone with concrete, installing measurement rods and cleaning various tools. In addition, in this test, concrete is compacted with a push rod, but in on-site construction, the method of compacting the concrete is different because the internal vibrator is used, and the concrete when the internal vibrator is used There is a problem in that it can not properly evaluate the workability of
Moreover, in the consistency evaluation method of fresh concrete described in Patent Document 1, fresh concrete is put in a container, inserted into the container while vibrating the internal vibrator, and a change in time history of current flowing in the internal vibrator is detected Although the torque is converted, there is a problem that it is difficult to quickly and appropriately determine the workability of concrete in the display format with such load torque.

  The present invention solves such conventional problems, and in the method of determining the workability of concrete of this type, it is possible to reduce the time and effort of evaluation of the workability and to make the determination promptly, and in line with the construction. An object of the present invention is to appropriately determine the workability when using an internal vibrator.

In order to achieve the above object, the present invention is
Optionally each formulation of the concrete used in construction of various concrete structures, in advance before the construction, substantially the same formulation as charged into a container for use in a construction site comprising the hopper of the concrete pump vehicle, substantially the same amount of concrete and the collected vessel, the insert the motor-driven rod-shaped internal vibrator used during construction, to start the vibration of the bar-shaped internal vibrator the bar-shaped inner vibration in the concrete of the container The load current value of the machine is measured, and the average value of the load current value at any time during the compaction process of the concrete is determined from the start of vibration of the rod-type internal vibrator, Through the process of measuring the slump of the concrete, the relationship between the average value of the load current value for the arbitrary time and the slump, and appropriate for the compaction of the concrete Leave in search of time,
Similarly, in the case of the construction, concrete is put into a container used at a construction site including a hopper of a concrete pump car, and the rod-shaped internal vibrator is inserted into the concrete in the container, and the rod-shaped start the vibration of the internal vibration machine to measure the load current value of the bar-shaped internal vibrator, the appropriate obtained prior to the construction in compaction process of the concrete from the vibration start of the bar-shaped internal vibrator the average value of the load current value at the time, based on the measurement result, the relationship between the average value and the slump of the load current value of the arbitrary time determined prior to the construction, the slump of the concrete To determine the acceptability of the workability,
Make it a gist.
In this case, the arbitrary time is preferably in the range of 5 seconds to 120 seconds.
Further, in this case, it is preferable to provide an expansion portion in the vibrating portion of the motor driven rod type internal vibrator to increase the resistance of the concrete.

According to the method of determining the workability of concrete of the present invention, as described above, for each mixing of the concrete used for the construction of various concrete structures, the concrete used in the container used at the construction site including the hopper of the concrete pump car was placed, by inserting the motor-driven rod-shaped internal vibrator into the concrete vessel, by measuring the load current value of the started oscillation of bar-shaped internal vibrator rod-shaped internal vibrator, the average value of the load current value of the appropriate time determined prior to the construction from the vibration start of bar-shaped internal vibrator, and the measurement result, the motor-driven rod obtained under the same conditions as construction site prior to the construction based on the relationship between the average value and the slump of the load current value of the arbitrary time form internal vibrator, estimates the slump of the concrete, to perform quality determination of workability Because, it is possible to quickly determine with less effort rating workability, it is possible to properly determine the workability in the case of using the motor-driven rod-shaped internal vibrator in line with the construction, The unique effect of the present invention is produced.

Diagram showing the previous steps of the method of determining the workability of concrete according to the present invention Diagram showing the process at the construction site of the method of determining the workability of the concrete The figure which shows the internal vibrator used for the workability determination method of the same concrete The figure which shows the measuring instrument used for the workability determination method of the concrete ((a) is a clamp type measuring instrument (b) measurement data recorder) The figure which shows PC used for the workability determination method of the same concrete with a measurement data recorder The figure which shows the example of a display of the average value of the load current value of the internal vibrator at arbitrary time displayed on the display screen of PC used for the workability determination method of the concrete, and the slump value estimated from the average value concerned The figure which shows the experimental result of the workability decision method of the concrete The figure which shows the experimental result of the workability decision method of the concrete

Next, an embodiment of the present invention will be described with reference to the drawings. 1 and 2 show a method of determining the workability of concrete, and FIGS. 3 to 5 show various devices used in this method.
The workability determination method of this concrete is carried out by the following steps (1) and (2) before the construction and the step (3) in the construction for each mixing of the concrete used for the construction of various concrete structures.
(Step 1)
As shown in FIG. 1, prior to the construction, concrete having substantially the same composition and substantially the same amount as that introduced into a container used at a construction site such as a hopper of a concrete pump car is collected in an arbitrary container 1 in advance. In addition, it is preferable to implement this step 1 at the time of the test kneading of the concrete before the said construction.
(Step 2)
Subsequently, the internal vibrator V is inserted into the concrete in the container 1, the vibration of the internal vibrator V is started, and the load current value generated in the internal vibrator V is measured. The average value of the load current value at any time during the compaction process of the concrete from the vibration start is determined, and the slump value of the concrete by the compaction at the arbitrary time is also measured, and after this process, any time The relationship between the average value of the load current value and the slump value, and the appropriate time suitable for the compaction of the concrete are determined.
In this case, an arbitrary time is in the range of 5 seconds to 120 seconds, and from this arbitrary time, an appropriate time is determined according to the type of concrete structure, the degree of softness of the concrete suitable for the construction method, and the viscosity. . The measurement of the slump value is based on the general slump test.
Further, in this case, a motor-driven rod-shaped internal vibrator having a circular vibration section is used as the internal vibrator V. In this case, in order to increase the sensitivity of the load current value of the internal vibrator V, an expansion portion may be provided in the vibrating portion of the internal vibrator V to increase the resistance of concrete. As shown in FIG. 3, this expanded portion is attached with an attachment A formed by connecting two rectangular flat plates and an intermediate plate interposed between these two flat plates with a bolt on the outer periphery of the vibrating portion V1. The vibration portion V1 may be expanded, or the cross-sectional circular outer diameter of the vibration portion may be expanded.
Furthermore, in this case, in order to measure the load current value of the internal vibrator V, as shown in FIG. 4, a clamp type measuring instrument S for measuring the current flowing in the power cable V2 of the internal vibrator V, and this clamp type A measurement data recording device (data logger) L for recording data measured by the measuring instrument S is adopted. In addition, as shown in FIG. 5, PC (personal computer) and general purpose application software are used for data processing such as data obtained by these measuring devices and slump value in the slump test. In this case, spreadsheet software (for example, Excel (manufactured by Microsoft Corporation (registered trademark)) generally used for tallying and analyzing numerical data is adopted as general purpose application software of PC. And, clamp type measuring instrument S and measurement data recording Device L is connected by a dedicated cable, measurement data recording device L and PC are connected via USB, load current of internal vibrator V measured by clamp type measuring instrument S and recorded in measurement data recording device L for any time Value and slump value by slump test are taken into spreadsheet software of PC, data processing is performed by applying predetermined processing etc. to these measurement data, load current value of internal vibrator V at any time The average value and the relationship between the average value and the slump value are determined, and based on this relationship, an arbitrary value of the internal vibrator V to be measured in the next step (3) The average value of the load current values between terms of slump value in advance so as to be displayed on the display screen on the PC. Shows the display example in Fig.
(Step 3)
As shown in FIG. 2, in the case of the above construction, the concrete is similarly introduced into the container 11 used at the construction site such as the hopper of a concrete pump car, and the internal vibrator V is inserted into the concrete in the container 11 The vibration of the internal vibrator V is started, the load current value of the internal vibrator V is measured, and the load at an appropriate time obtained before the construction in the process of compacting the concrete from the start of the vibration of the internal vibrator V Determine the average value of the current value. Then, based on the measurement results and the relationship between the average value of load current values for a given time obtained before construction and the slump value, the slump value of the concrete is estimated to determine the acceptability of the workability. .
In this case, as described above, the average value of the load current value of the internal vibrator V is measured using the clamp type measuring instrument S and the measurement data recording device L, and the measurement result is obtained by the PC before construction. Based on the relationship between the average value of the load current value at any given time and the slump value, it is converted to a slump value, and this is displayed on the display screen of the PC (see FIG. 6) to determine the acceptability of workability.
Therefore, at the construction site, the operator inserts the internal vibrator V into the concrete in the hopper and only measures the average value of the load current values generated in the internal vibrator V while compacting for an appropriate time. Therefore, workability at the construction site is facilitated, and since the average value of the load current values of the internal vibrator V is converted to a slump value well known to persons in charge of construction and civil engineering, determination of workability is performed. It is possible to quickly and easily judge the quality of the ability.

The present inventors conducted experiments on the above-described method of determining the workability of concrete.
In this experiment, first, in step 1 above, concrete of a predetermined composition is collected in a container having substantially the same amount as the hopper of the concrete pump car (see FIG. 1). Next, as step 2 above, pass the power cable of the internal vibrator used to compact this concrete through the clamp of the clamp measuring instrument (see Fig. 4 (a)), and use this clamp measuring instrument as the measurement data recording device After connecting (see FIG. 4 (b)) and connecting the measured data recording device and the PC (see FIG. 5), the internal vibrator is inserted into concrete in the container. After this internal vibrator is inserted, the internal vibrator is driven to start vibration compaction of concrete, and the clamp measurement of the average value of the load current values generated in the internal vibrator for 25 seconds as an arbitrary time from the start of vibration Of the concrete and the slump value of the concrete by compaction at this time (25 seconds). The results are shown in FIG. From this FIG. 7, it was confirmed that when the slump value is increased, the average value of the load current values of the internal vibrator linearly decreases and the correlation coefficient is also increased. Moreover, the flat attachment was attached to the vibration part of an internal vibrator as an extended part, and the same measurement was performed. The results are shown in FIG. From this FIG. 8, it was confirmed that the sensitivity is improved and the determination is facilitated if the attachment is attached to the internal vibrator to increase the resistance.
Then, as step 3 above, concrete of a predetermined composition is introduced into the hopper of the concrete pump car used at the construction site, and after inserting the vibrator into the concrete of this hopper in the same manner as step 2, concrete Vibration compaction is started, and the average value of the load current value generated in the internal vibrator is measured by the clamp type measuring device and the measurement data recording device for 25 seconds as an arbitrary time from the start of the vibration. When the slump value of the concrete by the compaction of 2) was measured (refer FIG. 2), it confirmed that the substantially same result as FIG. 1 was obtained. Moreover, also when attaching an attachment to the vibration part of an internal vibration machine, it confirmed that it became a result substantially the same as FIG.
Therefore, at the construction site, step 3 is performed by obtaining the relationship between the average value of the load current value and the slump value and the appropriate compaction time of the concrete in advance by the above steps 1 and 2 for each composition of concrete. It is possible to estimate the state of slump in the process of compaction of concrete simply by determining the average value of the load current value of the appropriate time which has been obtained in advance from the start of vibration of the internal vibrator before construction, and the acceptability of workability is judged quickly. be able to.

  As explained above, according to the method of determining the workability of concrete, the container used in the construction site including the hopper of the concrete pump car, for each mixing of concrete used for the construction of various concrete structures, is concrete The internal vibrator is inserted into the concrete in the container, the internal vibrator starts to vibrate, the load current value of the internal vibrator is measured, and the vibration of the internal vibrator starts before the construction. The average value of the load current values for the appropriate time determined is determined, and the relationship between the measurement results and the average value of the load current values for any time of the internal vibrator obtained under the same conditions as the construction site before construction and the slump Since the slump of the concrete is estimated based on the above and the judgment of the workability is made, the time and effort of the evaluation of the workability is reduced. Can be determined, it is possible to appropriately determine the workability in the case of using an internal vibrator in line with construction.

V Internal vibration machine V1 Vibration part V2 Power cable A Attachment S Clamp type measuring device L Measurement data recording device 1 container 11 container

Claims (3)

Optionally each formulation of the concrete used in construction of various concrete structures, in advance before the construction, substantially the same formulation as charged into a container for use in a construction site comprising the hopper of the concrete pump vehicle, substantially the same amount of concrete and the collected vessel, the insert the motor-driven rod-shaped internal vibrator used during construction, to start the vibration of the bar-shaped internal vibrator the bar-shaped inner vibration in the concrete of the container The load current value of the machine is measured, and the average value of the load current value at any time during the compaction process of the concrete is determined from the start of vibration of the rod-type internal vibrator, Through the process of measuring the slump of the concrete, the relationship between the average value of the load current value for the arbitrary time and the slump, and appropriate for the compaction of the concrete Leave in search of time,
Similarly, in the case of the construction, concrete is put into a container used at a construction site including a hopper of a concrete pump car, and the rod-shaped internal vibrator is inserted into the concrete in the container, and the rod-shaped start the vibration of the internal vibration machine to measure the load current value of the bar-shaped internal vibrator, the appropriate obtained prior to the construction in compaction process of the concrete from the vibration start of the bar-shaped internal vibrator the average value of the load current value at the time, based on the measurement result, the relationship between the average value and the slump of the load current value of the arbitrary time determined prior to the construction, the slump of the concrete To determine the acceptability of the workability,
A method of determining the workability of concrete characterized by   The method of determining workability of concrete according to claim 1, wherein the arbitrary time is in the range of 5 seconds to 120 seconds. The method of determining workability of concrete according to claim 1 or 2, wherein an extension portion is provided in a vibrating portion of a motor-driven rod-shaped internal vibrator to increase resistance of the concrete.