JP3408346B2 - Mixing correction device for ready-mixed concrete material - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for correcting the mixture of ready-mixed concrete materials. 2. Description of the Related Art In general, ready-mixed concrete has a predetermined mixing ratio of materials so that the compression strength after solidification, the consistency at the time of casting, and the amount of air become predetermined values. When kneading ready-mixed concrete materials such as water, cement, gravel (coarse aggregate) and sand (fine aggregate), the surface water content of the aggregate is corrected or the grain size is corrected, and the compressive strength, consistency, The air amount or the like is set to a predetermined value. On the other hand, ready-mixed concrete has the following properties. [0004] 1) The higher the mixing temperature of the ready-mixed concrete, the larger the amount of unit water required to obtain the same consistency (the mixing temperature ± 20 ° C).
When the temperature increases or decreases by 10 ° C., the unit water amount needs to be increased or decreased by ± 1 to 4%). 2) After kneading, the slump drop (slump drop) with the lapse of time increases as the temperature increases (based on 20 ° C., the slump drop value is 1 cm at 30 ° C.). ~ 2cm increase,
In order to correct this, it is necessary to increase the amount of water by 2 to 5% in unit water amount or use an increased amount of AE water reducing agent). 3) When the temperature of the ready-mixed concrete increases,
To obtain the same strength, it is necessary to reduce the water / cement ratio somewhat. [0007] 4) As the mixing temperature of the ready-mixed concrete increases, the air entrainment property decreases (concrete 20).
When the kneading temperature increases by 10 ° C. based on the case of ° C., the amount of air decreases by about 20%). [0008] 5) As the temperature of the ready-mixed concrete increases, the amount of air in the ready-mixed concrete decreases over time (air drops increase). Conventionally, as a means for suppressing a change in the properties of ready-mixed concrete caused by temperature and time as described above, there is an apparatus for correcting the amount of mixture of ready-mixed concrete material disclosed in Japanese Patent Publication No. 4-34923. In this apparatus, the unit water amount of the ready-mixed concrete material is adjusted by using the ready-mixed temperature of the ready-mixed concrete, the temperature, and the transport time of the ready-mixed concrete as disturbance information. "Slump drop" is corrected. However, in the above-mentioned conventional apparatus, the slump at the time of kneading due to the temperature of the ready-mixed concrete, the correction of the amount of air, the compressive strength after solidification, and the drop of the amount of ready-mixed air are reduced. Correction was not considered at all, and was insufficient to stabilize the quality of concrete and ensure the quality required by users. [0012] The present invention has been made in view of the above-described circumstances, and the compression strength after solidification of ready-mixed concrete is optimized when the mix correction of the ready-mixed concrete material is performed in accordance with the conditions of the temperature and the transport time. It is intended to be. [0013] In order to achieve the above object, in a fresh concrete material blending correction apparatus according to the present invention, a temperature data output device 2 for outputting a temperature data signal 30 is provided.
9 and a time data setter 31 for outputting a time data signal 32; a mixing ratio temporary memory 28 for temporarily storing a mixing ratio data signal 27 of a predetermined ready-mixed concrete material input from the outside; A first correction data storage unit 33 storing, as a first data signal 34, a correction amount data of a unit water amount necessary for setting a slump of ready-mixed concrete having various mixing ratios to a predetermined value; The first data signal 3 output from the first correction data storage 33
4. Based on the mixing ratio data signal 27 stored in the mixing ratio temporary storage unit 28 and the temperature data signal 30 output from the temperature data output unit 29, a correction value for the unit water amount of the ready-mixed concrete material to be kneaded is obtained and the correction is performed. The value of the first correction signal 36
And a correction amount data of a water / cement ratio necessary for setting the compressive strength at the time of solidification of the ready-mixed concrete having various mixing ratios according to temperature conditions to a predetermined value. A second correction data storage 37 stored as a second data signal 38 and a second correction data storage 3
7, the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28, and the temperature data signal 30 output from the temperature data output unit 29. A second correction calculator 39 for obtaining a correction value of the water / cement ratio and outputting the correction value as a second correction signal 40, and an air amount of the ready-mixed concrete having various mixing ratios are predetermined for each temperature condition. A third correction data storage 41 storing the correction amount data of the amount of the AE agent necessary for setting the value as a third data signal 42, and a third correction data storage 41 output from the third correction data storage 41. Based on the data signal 42, the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28, and the temperature data signal 30 output from the temperature data output unit 29, the AE agent amount of the ready-mixed concrete material to be kneaded is determined. A third correction calculator 43 for obtaining a positive value and outputting the correction value as a third correction signal 44; and a slump at a point in time when a certain period of time has elapsed after the completion of kneading of the ready-mixed concrete having various mixing ratios according to temperature conditions. A fourth correction data storage unit 45 storing a correction amount data of a unit water amount or an admixture amount necessary to obtain a predetermined value as a fourth data signal 46, and a fourth correction data storage unit 4;
5, the fourth data signal 46 output from the fifth, the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28, the temperature data signal 30 output from the temperature data output unit 29, and the output from the time data setting unit 31. A fourth correction calculator 47 for obtaining a correction value of the unit water amount or admixture amount of the ready-mixed concrete material to be kneaded based on the time data signal 32 and outputting the correction value as a fourth correction signal 48; A fifth data signal 50 is used as the fifth data signal 50 to correct the amount of AE agent necessary to bring the air amount to a predetermined value at a point in time after the completion of kneading of the ready-mixed concrete of various mixing ratios according to time conditions. The stored fifth correction data storage 49, the fifth data signal 50 output from the fifth correction data storage 49, and the combination ratio data signal stored in the mixture ratio temporary storage 28. 27, a correction value for the AE agent amount of the ready-mixed concrete material to be kneaded is determined based on the temperature data signal 30 output from the temperature data output device 29 and the time data signal 32 output from the time data setting device 31. Is output as a fifth correction signal 52, and the correction calculators 35, 39, 43, 47,
The respective correction signals 36, 40, 4 output from 51
4, 48, 52 and the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28.
And a corrected mixing ratio calculator 53 that outputs a corrected mixing ratio data signal 54 obtained by correcting the above. When performing the correction of the mixture of the ready-mixed concrete material,
Temperature data is input to a temperature data output unit 29, and the correction data units 35, 39, 43, 4 are output from the temperature data output unit 29.
7 and 51, the temperature data signal 30 is transmitted to the time data setter 31, and the time data setter 31 sends the time data signal 32 to each of the correction calculators 47 and 51.
At the same time, and mix ratio data signal 27 of the ready-mixed concrete material is stored in mix ratio temporary memory 28. Based on the first data signal 34, the mixing ratio data signal 27, and the temperature data signal 30 output from the first correction data storage 33, the first correction computing unit 35 And outputs the first correction signal 36 to the corrected blending ratio calculator 53. Based on the second data signal 38, the mixture ratio data signal 27, and the temperature data signal 30 output from the second correction data storage 37, the second correction operation unit 39 And outputs a second correction signal 40 to the corrected blending ratio calculator 53. Based on the third data signal 42, the mixture ratio data signal 27, and the temperature data signal 30 output from the third correction data storage 41, the third correction operation unit 43 And outputs a third correction signal 44 to the corrected blending ratio calculator 53. A fourth correction calculator 47 kneads the fourth data signal 46, the mixture ratio data signal 27, the temperature data signal 30, and the time data signal 32 output from the fourth correction data storage 45. The correction value of the unit water amount or the admixture amount of the ready-mixed concrete material to be obtained is obtained, and the fourth correction signal 48 is output to the corrected mixing ratio calculator 53. The fifth correction arithmetic unit 51 performs kneading based on the fifth data signal 50, the mixture ratio data signal 27, the temperature data signal 30, and the time data signal 32 output from the fifth correction data storage 49. A of ready-mixed concrete material to be
A correction value for the amount of the E agent is obtained, and a fifth correction signal 52 is output to a corrected mixture ratio calculator 53. Further, the correction mixture ratio calculator 53 includes correction signals 36, 40, 44, 48, and 5 output from the correction calculators 35, 39, 43, 47, and 51, respectively.
2. Based on the mixing ratio data signal 27, a corrected mixing ratio data signal 54 obtained by correcting the mixing ratio data signal 27 is output. Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a ready-mixed concrete production facility to which an embodiment of a ready-mixed concrete material blending correction apparatus according to the present invention is applied. Reference numeral 1 denotes a mixer, which is driven by a motor 2. Reference numeral 3 denotes a gravel storage tank, and 4 denotes a gravel measuring hopper. The gravel measuring hopper 4 measures the gravel (coarse aggregate) 5 cut out from the gravel storage tank 3, and removes the gravel 5 which has been measured. The mixer 1 is configured to be charged. 6 is a sand storage tank, 7 is a sand weighing hopper,
The sand weighing hopper 7 is configured to measure the sand (fine aggregate) 8 cut out from the gravel storage tank 6 and to input the weighed sand 8 to the mixer 1. 9 is a cement storage tank, 10 is a cement weighing hopper, and the cement weighing hopper 10 measures the cement 11 cut out from the cement storage tank 9,
The cement 11 whose measurement has been completed is charged into the mixer 1. Reference numeral 12 denotes a water storage tank, and 13 denotes a water measuring hopper. The water measuring hopper 13 measures water 15 cut out from the water storage tank 12 and supplies the measured water 15 to the mixer 1. It is configured as follows. Reference numeral 18 denotes an admixture storage tank, and reference numeral 21 denotes an admixture measuring hopper. The measuring hopper 21 supplies the admixture 19 cut out from the admixture storage tank 18 to the water measuring hopper 13. Reference numeral 22 denotes an AE agent storage tank; and 25, an AE agent weighing hopper. The weighing hopper 25 supplies the AE agent 23 cut out from the AE agent storage tank 22 to the water weighing hopper 13. I have. Numeral 26 denotes a mixing ratio setting device, in which mixing ratios of various ready-mixed concrete materials are stored as mixing ratio data signals 27. This mixing ratio data signal 27 is Is output to the outside by a manual operation. It is preferable that the mixing ratio setting device 26 be incorporated in a control panel of a batcher plant together with a batcher plant control device 55 described later. The compounding ratio setting unit 26 preliminarily sets the compounding ratio based on data such as the particle size, particle size distribution, and surface water content of the gravel (coarse aggregate) 5 and sand (fine aggregate) 8 input from the outside. A function of modifying the data signal 27 may be added. Numeral 28 denotes a mixture ratio temporary storage unit, which is configured to temporarily store the mixture ratio data signal 27 output from the mixture ratio setting unit 26. . Reference numeral 29 denotes a temperature data output device. The temperature data output device 29 is configured to output a temperature data signal 30. The temperature data output device 29 basically receives an estimated temperature at which the concrete is kneaded. Alternatively, the temperature data output device 29 may be configured so that the measured air temperature is changed to the kneading temperature by human operation and input as temperature data. Alternatively, the temperature may be automatically measured, and the measured value may be changed to a kneaded temperature and input as temperature data. Reference numeral 31 denotes a time data setting device, which is configured to output time data (estimated time of transport of ready-mixed concrete) input by a human operation as a time data signal 32. I have. It is preferable that the combination ratio temporary storage unit 28, the temperature data output unit 29, and the time data setting unit 31 are also incorporated in the operation panel of the batcher plant, similarly to the combination ratio setting unit 26 described above. Reference numeral 33 denotes a first correction data storage unit (a slump correction data storage unit for each temperature). The first correction data storage unit 33 has various ratios of ready-mixed concrete for different mixing temperature conditions of the ready-mixed concrete. The correction amount data of the unit water amount necessary to make the slump of the predetermined value,
It is stored as a first data signal 34. Reference numeral 35 denotes a first correction operation unit (unit water amount correction operation unit). The first correction operation unit 35 outputs the first data signal 3 outputted from the first correction data storage unit 33.
4. Based on the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28 and the temperature data signal 30 output from the temperature data output unit 29, the correction value (dW ₁₎ of the unit water amount of the ready-mixed concrete material to be kneaded. ), And the correction value (d
W ₁ ) is output as the first correction signal 36. Reference numeral 37 denotes a second correction data storage unit (temperature-dependent intensity correction data storage unit). The second correction data storage unit 37 stores various types of ready-mixed concrete having various mixing ratios depending on the mixing temperature conditions of the ready-mixed concrete. The data of the water / cement ratio necessary for setting the compressive strength at the time of solidification to a predetermined value is stored as a second data signal 38. Reference numeral 39 denotes a second correction operation unit (water / cement ratio correction operation unit).
Based on the second data signal 38 output from the correction data storage 37, the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28, and the temperature data signal 30 output from the temperature data output unit 29. Determine the correction value (dW / C) of the water / cement ratio of the ready-mixed concrete material to be kneaded,
The correction value (dW / C) is output as a second correction signal 40. Reference numeral 41 denotes a third correction data storage device (air-specific correction data storage device for each temperature). The third correction data storage device 41 has various mixing ratios depending on the mixing temperature conditions of the ready-mixed concrete. The data of the AE agent correction amount necessary for setting the air amount of the concrete to a predetermined value is stored as the third data signal 42. Reference numeral 43 denotes a third correction operation unit (AE agent amount correction operation unit). The third correction operation unit 43 outputs the third data signal 4 output from the third correction data storage unit 41.
2. Based on the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28 and the temperature data signal 30 output from the temperature data output device 29, the correction value (dAE) of the AE agent amount of the ready-mixed concrete material to be kneaded. ₁ ), and outputs the correction value (dAE ₁ ) as the third correction signal 44. Reference numeral 45 denotes a fourth correction data storage (a temperature / time-dependent slump correction data storage). The fourth correction data storage 45 stores the temperature condition of the ready-mixed concrete and the progress after the mixing. The data of the unit water amount or the admixture amount necessary for setting the slump to a predetermined value at the time when a certain time has elapsed after the completion of kneading of the ready-mixed concrete having various mixing ratios according to the time conditions is output to the fourth data signal 46. It is remembered as. Reference numeral 47 denotes a fourth correction calculator (a unit for correcting the amount of water or an admixture), and the fourth correction calculator 4
7 is the fourth correction data output from the fourth correction data storage 45.
Data signal 46, the mixture ratio data signal 27 stored in the mixture ratio temporary storage unit 28, the temperature data signal 30 output from the temperature data output unit 29, and the time data setting unit 31
Based on the time data signal 32 to be more output, the correction value of the unit water or admixture of fresh concrete material to be kneaded (dW ₂ or DAD) determined, the correction value (dW ₂ or DAD) a fourth correction It is configured to output as a signal 48. Reference numeral 49 denotes a fifth correction data storage unit (temperature / time-based air amount correction data storage unit). The fifth correction data storage unit 49 stores the kneading temperature condition of the ready-mixed concrete and the kneading after the kneading. The data of the amount of AE agent necessary to bring the air amount to a predetermined value at the time when a certain time has elapsed after the completion of kneading of the ready-mixed concrete having various mixing ratios according to the elapsed time conditions is used as a fifth data signal 50. I remember. Reference numeral 51 denotes a fifth correction operation unit (AE agent amount correction operation unit). The fifth correction operation unit 51 outputs the fifth data signal 5 output from the fifth correction data storage 49.
0, kneading based on the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28, the temperature data signal 30 output from the temperature data output unit 29, and the time data signal 32 output from the time data setting unit 31. The correction value (dAE ₂ ) of the AE agent amount of the ready-mixed concrete material to be obtained is obtained, and the correction value (dAE ₂ ) is output as the fifth correction signal 52. Numeral 53 denotes a corrected mixing ratio calculator. The corrected mixing ratio calculator 53 includes the correction calculators 35 and 39 described above.
The respective correction signals 3 output from 43, 47 and 51
6,40,44,48,52 and blending ratio temporary memory 28
Is configured to output a corrected blending ratio data signal 54 obtained by correcting the blending ratio data signal 27 based on the blending ratio data signal 27 stored in. Reference numeral 55 denotes a batcher plant control device.
The batcher plant control device 55 includes a corrected blending ratio data signal 54 output from the corrected blending ratio calculator 53, and a load detection signal output from each of the weighing hoppers 4, 7, 10, 13 and 21, 25 described above. Based on each storage tank 3,6
Signals for operating the cut-out gates 9, 12, 18, 22 and the motor 2 of the mixer 1 are output. The operation of this embodiment will be described below. When producing ready-mixed concrete, the temperature data output unit 29 outputs the temperature data signal 30 and the time data setting unit 31 outputs the time data signal 3.
2 to output the temperature data signal 30 to each correction arithmetic unit 3
5, 39, 43, 47, and 51, and the time data signal 32 is transmitted to each of the correction calculators 47 and 51. When the temperature data output unit 29 sets the temperature by a human operation, the temperature is input and set when the temperature data signal 30 is output. The set value of the time data setting unit 31 is
The transfer time required from the batcher plant that manufactures ready-mixed concrete to the place where the ready-mixed concrete is placed is set. Further, by appropriately operating the compounding ratio setting device 26, the compounding ratio temporary storage device 2 is stored in the compounding ratio setting device 26.
Then, a predetermined mix ratio data signal 27 of the ready-mixed concrete material is output to 8 and the mix ratio data signal 27 is stored in the mix ratio temporary storage 28. First correction calculator (unit water flow correction calculator)
Reference numeral 35 denotes a first data signal 34 output from a first correction data storage 33, a mixing ratio data signal 27 stored in a mixing ratio temporary storage 28, and temperature data output from a temperature data output unit 29. Based on the signal 30, a correction value (dW ₁ ) of the unit water amount of the ready-mixed concrete material to be kneaded is obtained, and a first correction signal 36 corresponding to the correction value (dW ₁ ).
Is output to the corrected mixture ratio calculator 53. The second correction calculator (water / cement ratio correction calculator) 39 stores the second data signal 38 output from the second correction data storage 37 and the mixing ratio temporary storage 28. Based on the mixing ratio data signal 27 and the temperature data signal 30 output from the temperature data output device 29, a correction value (dW / C) of the water / cement ratio of the ready-mixed concrete material to be kneaded is obtained, and this correction value (dW / C) is obtained. / C) is output to the correction mixture ratio calculator 53. Third correction arithmetic unit (AE agent amount correction arithmetic unit)
Reference numeral 43 denotes a third data signal 42 output from the third correction data storage 41, the mixing ratio data signal 27 stored in the mixing ratio temporary storage 28, and the temperature data output from the temperature data output unit 29. Based on the signal 30, a correction value (dAE ₁ ) of the amount of AE agent of the ready-mixed concrete material to be kneaded is obtained, and a third correction signal 44 corresponding to the correction value (dAE ₁ ) is sent to the correction mixing ratio calculator 53. Output. The fourth correction calculator (unit water amount or admixture amount correction calculator) 47 includes a fourth correction data storage unit 45.
A fourth data signal 46 output from the controller, a mixing ratio data signal 27 stored in the mixing ratio temporary storage unit 28, a temperature data signal 30 output from the temperature data output unit 29, and an output from the time data setting unit 31. Time data signal 32
Based on the correction value of the unit water or admixture of fresh concrete material to be kneaded seeking (dW ₂ or DAD), fourth modified compounding ratio correction signal 48 in accordance with the correction value (dW ₂ or DAD) Output to the arithmetic unit 53. Fifth correction arithmetic unit (AE agent amount correction arithmetic unit)
Reference numeral 51 denotes a fifth data signal 50 output from the fifth correction data storage 49, a mixing ratio data signal 27 stored in the mixing ratio temporary storage 28, and temperature data output from the temperature data output unit 29. Signal 30, time data setter 3
1, the correction value (dA) of the AE agent amount of the ready-mixed concrete material to be kneaded based on the time data signal 32 output from
E ₂ ) is obtained, and a fifth correction signal 52 corresponding to the correction value (dAE ₂ ) is output to the corrected mixture ratio calculator 53. Further, the correction mixture ratio calculator 53 includes correction signals 36, 40, 44, 48, and 52 output from the correction calculators 35, 39, 43, 47, and 51, respectively.
And a modified mixture ratio data signal 54 obtained by modifying the mixture ratio data signal 27 based on the mixture ratio data signal 27 stored in the mixture ratio temporary storage 28.
5 is output. The batcher plant control unit 55 outputs the modified mixture ratio data signal 5 output from the modified mixture ratio calculator 53.
4. Each of the weighing hoppers 4, 7, 10, 13, and 2 described above.
Based on the load detection signal and the flow rate detection signal output from 1, 25, a signal for operating the cutout gate of each storage tank 3, 6, 9, 12, 21, 25, the motor 2 of the mixer 1, and the like are output. Thus, the gravel (coarse aggregate) 5, the sand (fine aggregate) 8, the cement 11, the water 15, the admixture 19, and the AE agent 23 of the mixing ratio according to the corrected mixing ratio data signal 54 The concrete is supplied to the mixer 1 in order, and a ready-mixed concrete having a slump, a water / cement ratio, and an air amount according to the assumed temperature of the concrete kneading and the transport time is manufactured. As described above, in the present embodiment, the mixing data (mixing ratio data signal 27) of the ready-mixed concrete material and the estimated concrete kneading temperature (temperature data signal 30) are used.
And the assumed transport time (time data signal 32), the slump is corrected by increasing or decreasing the unit water amount, the compressive strength after solidification is corrected by changing the water / cement ratio, and the air is increased or decreased by the AE agent. Since the mixing ratio of the ready-mixed concrete material is corrected by correcting the amount, the quality of the ready-mixed concrete is stabilized. It should be noted that the blending correction device for ready-mixed concrete material of the present invention is not limited to the above-described embodiment, and it is needless to say that various changes can be made without departing from the gist of the present invention. As described above, according to the apparatus for correcting the mixture of a ready-mixed concrete material of the present invention, various excellent effects as described below can be obtained. (1) The slump is corrected by increasing or decreasing the unit water amount based on the mixture data of the ready-mixed concrete material, the temperature data, and the time data, and the compressive strength after solidification is corrected by changing the water / cement ratio. Since the mixing ratio of the ready-mixed concrete material is corrected by correcting the amount of air by increasing or decreasing the amount of the AE agent, the quality of the ready-mixed concrete is stabilized. (2) Since the quality of the ready-mixed concrete is stabilized, the production cost of the ready-mixed concrete can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a conceptual diagram showing an example of a ready-mixed concrete production facility to which an embodiment of a mixing correction device for ready-mixed concrete material of the present invention is applied. [Description of Signs] 27 Mixing ratio data signal 28 Mixing ratio temporary storage 29 Temperature data output device 30 Temperature data signal 31 Time data setting device 32 Time data signal 33 First correction data storage 34 First data signal 35 1st correction calculator 36 1st correction signal 37 2nd correction data storage 38 2nd data signal 39 2nd correction calculator 40 2nd correction signal 41 3rd correction data storage 42 3rd Data signal 43 Third correction operation unit 44 Third correction signal 45 Fourth correction data storage unit 46 Fourth data signal 47 Fourth correction operation unit 48 Fourth correction signal 49 Fifth correction data storage unit 50 Fifth data signal 51 Fifth correction calculator 52 Fifth correction signal 53 Corrected mixture ratio calculator 54 Corrected mixture ratio data signal

──────────────────────────────────────────────────続 き Continuation of the front page (56) References Japanese Patent Publication No. 4-34923 (JP, B2) (58) Fields surveyed (Int. Cl. ⁷ , DB name) B28C 7/04

Claims (1)

(1) A temperature data output device (29) for outputting a temperature data signal (30) and a time data setting device (31) for outputting a time data signal (32). A mixing ratio temporary memory (28) for temporarily storing a predetermined mixing ratio data signal (27) of a ready-mixed concrete material input from the outside; and a slump of ready-mixed concrete having various mixing ratios for each temperature condition are predetermined. The first data signal (34) storing the correction amount data of the unit water amount necessary to obtain the set value.
And a first correction data storage (33) output from the first correction data storage (33).
Based on the data signal (34), the mixing ratio data signal (27) stored in the mixing ratio temporary storage (28), and the temperature data signal (30) output from the temperature data output unit (29). A first correction calculator (35) for obtaining a correction value of the unit water amount of the concrete material and outputting the correction value as a first correction signal (36); and for solidifying fresh concrete having various mixing ratios depending on temperature conditions. A second correction data storage (37) storing, as a second data signal (38), a correction amount data of a water / cement ratio necessary for setting the compressive strength of the second to a predetermined value; The second output from the correction data storage (37)
Based on the data signal (38), the mixing ratio data signal (27) stored in the mixing ratio temporary storage (28), and the temperature data signal (30) output from the temperature data output unit (29). A second correction calculator (39) for obtaining a correction value of the water / cement ratio of the concrete material and outputting the correction value as a second correction signal (40); A third correction data storage (41) storing, as a third data signal (42), correction amount data of an AE agent amount necessary for setting the air amount to a predetermined value; The third output from the data storage (41)
Based on the data signal (42), the mixing ratio data signal (27) stored in the mixing ratio temporary storage (28), and the temperature data signal (30) output from the temperature data output unit (29). A third correction arithmetic unit (43) for obtaining a correction value of the AE agent amount of the concrete material and outputting the correction value as a third correction signal (44); A fourth correction data storage which stores, as a fourth data signal (46), correction amount data of a unit water amount or an admixture amount necessary for setting a slump to a predetermined value at a point in time after completion of the slump. And a fourth correction data storage (45) output from the fourth correction data storage (45).
, A mixing ratio data signal (27) stored in a mixing ratio temporary storage (28), a temperature data signal (30) output from a temperature data output unit (29), and a time data setting unit ( Based on the time data signal (32) output from 31), a correction value for the unit water amount or the admixture amount of the ready-mixed concrete material to be kneaded is obtained, and the correction value is set to the fourth value.
And a fourth correction calculator (47) for outputting as a correction signal (48), and an air amount at a point in time when a certain time has elapsed after completion of kneading of the ready-mixed concrete having various mixing ratios according to temperature and time conditions. A fifth correction data storage (49) storing the correction amount data of the amount of AE agent necessary to make the value as a fifth data signal (50), and an output from the fifth correction data storage (49) A fifth data signal (50), a mixing ratio data signal (27) stored in a mixing ratio temporary storage (28), a temperature data signal (30) output from a temperature data output unit (29), and a time. AE of ready-mixed concrete material to be kneaded based on time data signal (32) output from data setter (31)
A correction value for the amount of the drug is obtained, and the correction value is set to a fifth correction signal (5
A fifth correction calculator (51) that outputs as 2), and each of the correction calculators (35) (39) (43) (47)
Each correction signal (36) output from (51)
(40) A corrected mixing ratio data signal obtained by correcting the mixing ratio data signal (27) on the basis of the mixing ratio data signal (27) stored in the mixing ratio temporary storage (28). Corrected mixture ratio calculator (5) that outputs (54)
3) A blending correction device for ready-mixed concrete material, comprising: