KR20170133069A - System and method for concrete construction nanagement - Google Patents

Abstract

The present invention relates to a concrete construction management system and method, and more particularly, to a concrete construction management system and a concrete construction method that can predict an optimum mixing ratio and a compression strength of a construction state according to kinds of an aggregate and a binder, Management system and method thereof.
The present invention also relates to a database in which information on a plurality of kinds of aggregates and binders, information on a mixing ratio between aggregates and binder materials, and information on the amount of change in compressive strength according to curing temperature are stored in advance, An input unit for inputting information on the aggregate, binder and curing temperature; a mixing unit for searching the database for the mixing ratio including the input aggregate and binder and calculating the compressive strength for the mixing ratio; And a result output unit for outputting the result, it is possible to provide information on the optimum mixing ratio and the compression strength of the constructed state depending on the aggregate and the binder to be used in the concrete construction.

Description

Technical Field [0001] The present invention relates to a concrete construction management system,

The present invention relates to a concrete construction management system and method, and more particularly, to a concrete construction management system and a concrete construction method that can predict an optimum mixing ratio and a compression strength of a construction state according to kinds of an aggregate and a binder, Management system and method thereof.

Generally, because the difference in compressive strength is caused by the mixing ratio of the aggregate and the binder, and the environmental conditions such as the placement temperature and the curing temperature, the construction management is very important for the construction of a more secure structure.

Especially, in recent years, the construction of structures and large-scale structures such as high-rise buildings and large structures has increased, and the construction of other special structures including nuclear power plants and LNG tanks is also increasing. Therefore, There is a need to construct accurate information for preliminary investigation to predict the compressive strength of concrete and maintenance after construction and to perform construction management.

Meanwhile, conventional construction management is generally performed based on the experience of a field worker or a designer, and the design stage and the construction stage are managed separately from each other, so that the integrated management from the pre-construction stage to the maintenance stage after the construction is performed There was a problem.

In addition, conventionally, information on a mixing design suitable for the characteristics of a structure to be installed, information on an optimum mixing ratio depending on the kind of the aggregate and binder, and information capable of predicting the compression strength of the applied state are constructed There is a problem that subsequent processes such as demolding the form at the correct timing are difficult to be efficiently operated.

Therefore, the concrete construction management system that can be used at all stages from the establishment of the safer structure to the post-management is urgently required.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a concrete construction management system and a method thereof that can be utilized at all stages from building construction to post construction management.

It is another object of the present invention to provide a concrete construction management system and a method thereof that provide information on an optimum blending ratio and a compressive strength in a construction state at the time of concrete construction.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, according to the present invention, information on a plurality of types of aggregate and binder, information on the mixing ratio between aggregates and binder materials, and information on the amount of change in compressive strength according to curing temperature, Stored databases; An input unit for inputting information on aggregate, binder and curing temperature to be applied; A mixture designing unit for searching, from the database, a mixing ratio including the input aggregate and binder and calculating a compression strength for the searched mixing ratio; And a result output unit outputting a result of being searched and calculated from the mixing design unit.

In a preferred embodiment, the mixing design section searches a plurality of mixing ratios in the database and selects a mixing ratio having the highest degree of similarity with the chemical components of the aggregate and the binding material.

In a preferred embodiment of the present invention, the mixing designing unit calculates the compressive strength according to the binder, the optimal mixing ratio, and the input curing temperature, and calculates a complementary mixing ratio in which the optimum mixing ratio is corrected based on the calculated compressive strength .

In a preferred embodiment, the mixing design section further calculates an aggregate mixture ratio when the kind of the aggregate is plural.

In a preferred embodiment, the mixing and designing unit searches the database for a mixing ratio including the input aggregate and binder using an artificial neural network algorithm.

In a preferred embodiment, the information stored in the database is normalized information.

In addition, the present invention provides a method of manufacturing a cement mortar composition, comprising the steps of: (1) pre-storing information on a plurality of kinds of aggregates and binders, information on the mixing ratio between aggregates and binders, ≪ / RTI > (2) the input unit receives information on the aggregate, binder, and curing temperature to be installed from the user; (3) searching the database for the mixing ratio including the aggregate and the binder, and calculating the compressive strength according to the searched mixing ratio; And (4) outputting a result of the search, and outputting a result of the search and calculation from the mixing and designing unit.

In a preferred embodiment, in the step (3), the formulation designing unit searches a plurality of compounding ratios in the database and selects the compounding ratio having the highest degree of similarity with the chemical components of the input aggregate and binder at an optimum compounding ratio .

In a preferred embodiment, in the step (3), the mixing designing unit calculates the compressive strength according to the binding material, the optimum compounding ratio and the input curing temperature, and calculates the optimum mixing ratio based on the calculated compressive strength Further calibrated complementary compounding ratios are calculated.

In a preferred embodiment, in the step (3), the mixing designing unit further calculates an aggregate mixture ratio when a plurality of kinds of aggregates are present.

In a preferred embodiment, in the step (3), the formulation designing unit searches the database for a mixing ratio including the input aggregate and the binder using an artificial neural network algorithm.

In a preferred embodiment, the information stored in the database of the step (1) is normalized and stored information.

According to the above-mentioned problem solving means, the present invention is characterized in that information on a plurality of types of aggregate and binder, information on a mixing ratio between aggregates and binder materials, and information on the amount of change in compressive strength according to curing temperature, An input unit for inputting information on an aggregate, a binder and a curing temperature to be applied; a mixing design unit for searching a database for a mixing ratio including input aggregate and binder and calculating a compressive strength for the mixing ratio; And a result output unit for outputting a result of the search and the computation. The present invention provides the information about the optimal mixing ratio and the compression strength of the applied state according to the aggregate and the binder to be used in the concrete construction.

In addition, the present invention can be used for concrete construction management at all stages from the pre-construction stage of the structure to the post-construction stage where the construction is completed.

1 is a view for explaining a concrete construction management system according to an embodiment of the present invention;
2 is a view for explaining a concrete construction management method according to an embodiment of the present invention.
3 is a view for explaining a calculation procedure of a mixing ratio and a compressive strength according to a concrete construction management method;

It should be understood that the specific details of the invention are set forth in the following description to provide a more thorough understanding of the present invention and that the present invention may be readily practiced without these specific details, It will be clear to those who have knowledge.

First, the concrete construction management system and method according to an embodiment of the present invention may be implemented in hardware, but preferably, it can be implemented through software operating in conjunction with hardware.

Here, the software may be stored in a computer-readable storage medium such as a hard disk drive, an SSD, a USB memory, and an SD card, and read from the computer to make the computer function. Or may be installed in a server device that is connectable via a wired, wireless communication network, or the Internet network.

The client may also include personal computers, smart phones and tablet PCs as well as industrial and personal computer devices that are specifically tailored to their use.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS. 1 to 3. FIG.

1 is a view for explaining a concrete construction management system according to an embodiment of the present invention.

Referring to FIG. 1, a concrete construction management system according to an embodiment of the present invention includes a database 110, an input unit 120, a mixing design unit 130, and a result output unit 140.

The database 110 stores information constructed through experiments and simulations in advance. Preferably, the database 110 stores information on a plurality of kinds of aggregates and binders, information on the mixing ratio between aggregates and binders, And a change amount of the compressive strength according to the curing temperature.

In addition, the database 110 may be configured to store the above-described information in a plurality of divided databases (DB), or may store all of the above-described information in one DB. Preferably, the information stored in the database 110 may be information stored as a normalized value.

In addition, the database 110 may further store information on the water reducing agent and the additive, and may further store information on experimental constants used in the calculation of the compressive strength in the compounding designing unit 130, which will be described later.

In addition, temperature information for calculating the adiabatic temperature may be constructed in the database 110, and the calculation result of the compressive strength may be stored.

Meanwhile, the information stored in the database 110 is inputted through the input unit 120 to be described later, and serves as a reference of input information to be subjected to mixing design.

The input unit 120 is for inputting information on aggregate, binder, and curing temperature to be installed. For example, the input unit 120 may be configured to receive information for setting the material characteristics, formulation design, and curing conditions of concrete from a user .

For this purpose, the input unit 120 may be provided with a predetermined interface capable of inputting information on aggregate, binder, and curing temperature. The interface may be configured to allow a user to directly input numbers or characters, Box or a toggle box.

In addition, through the input unit 120, the user can create a project to perform construction management, input or modify information about the generated project, and can input information such as evaluation type, design type, You can enter, modify, and save basic information.

Meanwhile, the compounding designing unit 130 calculates the compounding design and the compressive strength of the information input from the input unit 120, that is, the input information.

The mixing design unit 130 is for performing a mixing design and searches the database 110 for a mixing ratio including the aggregate and the binding material input from the input unit 120 and calculates a compression strength for the searched mixing ratio And to perform a function of calculating.

Preferably, the mixing designing unit 130 searches a plurality of mixing ratios in the database 110, and determines a specific mixing ratio having the highest similarity with the chemical components of the aggregate and the binder, Or the like. When the water reducing agent, the additive, and the experimental constant are inputted from the input unit 120, the mixing designing unit 130 selects the optimum mixing ratio by reflecting the input information.

At this time, the compounding designing unit 130 may search for the plurality of compounding ratios in the database 110 using an artificial neuron network algorithm, and select the optimal compounding ratio among the plurality of compounding ratios.

Thereafter, the mixing and designing unit 130 calculates the compressive strength according to the binder, the optimal mixing ratio, and the input curing temperature. At this time, the mixing designing unit 130 may calculate the compressive strength by reflecting the change amount of the compressive strength according to the curing temperature.

The mixture designing unit 130 may further calculate a complementation ratio in which the optimum mixing ratio is corrected based on the calculated compressive strength. When the number of types of aggregates is plural, the mixing ratio based on the block combination is used You can do more calculations.

Meanwhile, the optimum combination ratio, the complement ratio, and the compression strength found in the mixture design unit 130 may be output through the result output unit 140, which will be described later.

The result output unit 140 is for outputting the results retrieved and calculated from the formulation design unit 130. The result output unit 140 may include an optimum combination ratio, a complementation ratio, and a compression strength on an interface of a number, a character, a graph, a table, As shown in FIG.

Further, information input from the input unit 120 through the result output unit 140 may be further displayed.

Therefore, in the concrete construction management system according to an embodiment of the present invention, the aggregate and the binder to be used at the time of construction of the concrete are input, and information on the optimum compounding ratio and the compounding ratio and the information about the compression strength Can be provided.

By using this information, it is possible to efficiently operate the pre-inspection process, which is a pre-construction stage of the structure to be installed, and also, by using the information on the optimum compounding ratio, the compounding ratio and the compressive strength, This is a good basis for the concrete construction management.

FIG. 2 is a view for explaining a concrete construction management method according to an embodiment of the present invention, and FIG. 3 is a diagram for explaining a calculation procedure of a blending ratio and a compressive strength according to a concrete construction management method.

Referring to FIGS. 2 and 3, a concrete construction management method performed in the concrete construction management system according to an embodiment of the present invention will be described.

However, since the functions performed in the concrete construction management method shown in FIGS. 2 and 3 are all performed in the concrete construction management system described with reference to FIG. 1, all the functions described with reference to FIG. It should be noted that all functions performed in the concrete construction management method according to the preferred embodiment of the present invention and described with reference to FIGS. 2 and 3 are performed in the concrete construction management system according to the preferred embodiment of the present invention.

First, a database storing information on a plurality of kinds of aggregates and binders, information on a mixing ratio between aggregates and binder materials, and information on the amount of change in compressive strength according to curing temperature is constructed in advance (S110) .

At this time, the above-described information is normalized and stored in the database, and further information on the water reducing agent and the additive, information on an experimental constant used in calculating the compressive strength, and temperature information for calculating the adiabatic temperature may be further stored.

Next, the input unit receives information on the aggregate, binder, and curing temperature to be installed from the user (S120).

At this time, the input unit receives input information for setting the material characteristics, the mix design, and the curing condition of concrete from the user by providing the interface provided by the user directly in the form of a combo box or a toggle box .

Also, the input unit may generate a project to perform construction management, and input, modify, and store evaluation type, design type, and basic information.

Then, the compounding designing unit searches the database for the compounding ratio including the aggregate and the binding material input from the input unit, and calculates the compressive strength according to the compounding ratio searched (S130).

At this time, the mixing designing unit searches the database for a plurality of mixing ratios including the aggregate and the binder, which are input from the input unit using the artificial neural network algorithm (S131), and, from among the plurality of mixing ratios searched, (S132). [0031] In step S132, the compounding ratio of the chemical component and the chemical component of the chemical component is selected.

When the optimum mixing ratio is selected, the mixing designing unit calculates the compression strength according to the binding material, the optimum mixing ratio, and the input curing temperature (S133), and calculates the optimum mixing ratio based on the calculated compression strength The corrected supplemental blend ratio is further calculated (S134).

On the other hand, in the case of a plurality of types of aggregates, the mixing design section may further calculate the aggregate mixture ratio. At this time, the mixing designing unit repeats the process of inputting the mixing ratio according to the kind of the aggregate inputted from the input unit, calculating the block combination according to the mixing ratio, and determining whether the calculated block combining is within the predetermined upper limit value and the lower limit value . Through this process, the compounding design section can calculate the compounding ratio having the block combination closest to the predetermined median value after deriving the compounding ratios, as the aggregate mixing ratio.

Next, the result output unit outputs the results of searching and calculating from the mixing design unit (S140).

At this time, the result output unit may output results retrieved and calculated from the mixing design unit and information input from the input unit on an interface in the form of a number, a character, a graph, a table, or a diagram.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

110: Database
120: Input unit
130: mixing design section
140: Result output unit

Claims (12)

A database in which information on a plurality of kinds of aggregates and binders, information on the mixing ratio between the aggregates and the binder, and information on the amount of change in compressive strength according to the curing temperature are stored in advance;
An input unit for inputting information on aggregate, binder and curing temperature to be applied;
A mixture designing unit for searching, from the database, a mixing ratio including the input aggregate and binder and calculating a compression strength for the searched mixing ratio; And
And a result output unit for outputting a result of being searched and calculated from the mixing design unit.
The method according to claim 1,
Wherein the mixing and designing unit searches a plurality of mixing ratios in the database and selects a mixing ratio having the highest degree of similarity with the chemical components of the aggregate and the binder at an optimal mixing ratio.
3. The method of claim 2,
Wherein the mixing designing unit calculates a compression strength corresponding to the binder, the optimal mixing ratio and the input curing temperature, and further calculates a complementation ratio in which the optimum mixing ratio is corrected based on the calculated compression strength Concrete Construction Management System.
The method of claim 3,
Wherein the mixing designing unit further calculates an aggregate mixture ratio when a plurality of kinds of aggregates are present.
The method according to claim 1,
Wherein the mixing design unit searches the database for a mixing ratio including the aggregate and the binder using the artificial neural network algorithm.
The method according to claim 1,
Wherein the information stored in the database is normalized information.
(1) building a database by previously storing information on a plurality of types of aggregate and binder, information on a mixing ratio between aggregates and binder materials, and information on the amount of change in compressive strength according to curing temperature;
(2) the input unit receives information on the aggregate, binder, and curing temperature to be installed from the user;
(3) searching the database for the mixing ratio including the aggregate and the binder, and calculating the compressive strength according to the searched mixing ratio; And
(4) outputting a result of the search, and outputting a result of the search and calculation from the composition designing unit.
8. The method of claim 7,
Wherein in the step (3), the compounding designing section searches a plurality of compounding ratios in the database and selects the compounding ratio having the highest degree of similarity with the chemical components of the inputted aggregate and binder at an optimum compounding ratio How to manage.
9. The method of claim 8,
In the step (3), the mixing designing unit may calculate the compression strength according to the binding material, the optimum mixing ratio and the input curing temperature, and calculate a complementing ratio by correcting the optimal mixing ratio based on the calculated compression strength Wherein the concrete construction management method further comprises:
10. The method of claim 9,
Wherein in the step (3), the mixing designing unit further calculates an aggregate mixture ratio when the kind of the aggregate is plural.
8. The method of claim 7,
Wherein in the step (3), the formulation designing unit searches the database for a mixing ratio including the aggregate and the binder using the ANN algorithm.
The method according to claim 1,
Wherein the information stored in the database of step (1) is normalized and stored information.

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