KR20020025575A - Method for controlling concrete cure temperature and apparatus thereof - Google Patents

Abstract

PURPOSE: A method for controlling concrete surface curing temperature is provided to secure the best quality by constructing to be the most suitable for specifications and to reduce construction expenses by restraining unnecessary supply of vapor. CONSTITUTION: The method comprises the steps of: covering up a space around a concrete structure when curing the concrete surface to be isolated from the outside, stocking up the boiler(60) to compose optimum temperature and humidity in the covered space compulsively to keep quality suitable for specifications; installing temperature sensors(42,43) to each section to sense temperature of the covered space and the outside respectively; and controlling the vapor in the covered space to exhaust by controlling the supply of steam by a time slot to rise, keep and drop a variation of inner temperature stably according to specifications by detecting temperature of each section sensed by the inner and outer temperature sensor(42,43).

Description

Method for controlling concrete curing temperature and apparatus thereof

The present invention relates to a method for controlling concrete curing temperature and a device therefor, and in particular, when a concrete structure is to be constructed, construction can be optimized to a specification of the standard, thereby ensuring the best quality, and reducing construction costs by suppressing unnecessary steam supply. The present invention relates to a method for controlling concrete curing temperature and apparatus thereof.

In general, when constructing a concrete structure, the environmental conditions such as temperature and humidity have a great influence on the quality after construction of the concrete structure. In other words, when the construction is performed in the summer or winter, the strength of the concrete structure may be reduced and cracks may be caused by inadequate temperature and humidity conditions.

In fact, according to the specification, the maximum temperature at the time of construction is prescribed to maintain 60-70 degreeC, and the temperature rise and fall slope in the process of concrete curing are kept within 15-20 degreeC / hr.

When the concrete is cured under the above conditions, it is possible to maintain the quality of the concrete capable of sufficiently exhibiting strength, durability, neutralization and waterproof resistance.

Conventional concrete curing temperature control method to satisfy these temperature conditions is shielded so that the surrounding space of the construction of the concrete structure can be isolated from the outside during the concrete curing, and the boiler is operated to force the appropriate temperature and humidity in the shielded space The method of composition is used.

However, in the conventional temperature control method, since the amount of steam supplied from the boiler is always kept constant, the boiler maintains the proper temperature and humidity by manually controlling the valve to supply or block the steam. Boiler had to manage continuously for a period of about 40 hours.

In addition, in order to maintain the concrete curing temperature, as shown in the internal temperature change curve (c) shown by the dashed-dotted line in FIG. However, it is very difficult to handle this operation depending on the manual control method of the valve of the boiler. In the figure, reference numeral c3 denotes a temperature change width when feedback is required due to external influences.

Therefore, according to the conventional temperature control method, not only the temperature in the shielded space cannot be kept constant according to the external environmental conditions, but also the temperature increase step (I), which is the initial time of the concrete curing process, and the temperature decrease step, which is the final time of the curing process. As the temperature gradient in (III) cannot be kept constant, rapid heating (c1) and quenching (c2), respectively, during the initial and end stages of the curing process, prevented construction according to the specification. There was a problem.

The present invention has been proposed in order to solve the above problems, the object of the construction is to be able to optimize the specifications when the concrete structure when you want to ensure the best quality, unnecessary steam supply It is to provide a concrete curing temperature control method and apparatus to reduce the construction cost by suppressing.

1 is a block diagram schematically showing the configuration of a concrete curing temperature control apparatus according to the present invention.

Figure 2 illustrates a graph output by the recorder applied to the present invention, a time-temperature graph showing a preferred internal temperature change over time compared with the internal temperature change according to the prior art.

<Description of Symbols for Main Parts of Drawings>

I; Temperature rise step Ⅱ; Temperature Maintenance Step

III; Temperature lowering step a; Internal temperature change curve according to the present invention

b; External temperature change curve c; Internal temperature change curve according to the prior art

c1; Rapid heating step c2; Quench stage

c3; Width of temperature change according to external temperature change

One ; Concrete structure 10; Controller

20; Converter 30; Recorder

31; Printer 40; Shielding tent

41; External temperature sensor 42; Internal temperature sensor

43; Structure temperature sensor 50; Air compressor

60; Boiler 61; Steam Control Valve

62; Steam delivery tube 70; heater

Concrete curing temperature control method according to the present invention for achieving the above object, the shielding process so that the construction surrounding space of the concrete structure can be isolated from the outside during the concrete curing and operating the boiler appropriate temperature and humidity in the shielded space In the concrete curing temperature control method to maintain the quality in accordance with the specification by forcibly forming a step, the step of installing a temperature sensor in each part so as to sense the temperature of the shielded space and the outside, respectively, By measuring the temperature of each part sensed by the external temperature sensor, by controlling the amount of steam in each time zone so that the internal temperature change can be stably risen, maintained and lowered according to the specification of the standard, steam is sent out in the shielded space. Characterized in that it comprises a step of controlling.

Here, the steam delivery control step, so that the internal temperature change in the initial and end of the concrete curing process rises and falls with a slope within 15 to 20 ℃ / hr, respectively, and the internal temperature change in the middle time period of the process is 60 It is preferable to control so that it can be maintained at the temperature within -70 degreeC.

On the other hand, the concrete curing temperature control apparatus according to the present invention for achieving the above object, the shielding tent is installed to seal the construction surrounding space so as to isolate the concrete structure from the outside during the curing of the concrete and the predetermined quality In the concrete curing temperature control device equipped with a boiler for supplying steam of a suitable temperature in the shielded space so as to ensure, the steam discharge pipe of the boiler communicates with the inside of the shielded space and the steam supplied through the steam discharge pipe A steam flow control valve installed to control the flow of the air, an air compressor for controlling the steam flow control valve, internal and external temperature sensors disposed at each part to sense the temperature of the shielded space and the outside thereof, After analyzing the temperature of each part detected by the internal and external temperature sensor, the air compressor A controller is provided between the internal and external temperature sensor and the controller to variably adjust the steam amount control valve by a pre-programmed program so that an appropriate amount of steam is discharged into the shielded space by transmitting and operating an electrical signal. And a converter for converting the temperature sensed by the sensor into an electrical signal.

In addition, the steam amount control valve is preferably provided with a heater that can heat the outside of the steam amount control valve to a predetermined temperature to prevent freezing when the external temperature is 0 ° C or less.

In addition, the converter continuously outputs a graph so that the contractor can check and record each temperature change detected by the internal and external temperature sensors, and converts the state into an electrical signal through the converter and sends it to the controller. It is desirable to mount a recorder that can.

In addition, it is preferable to further arrange a structure temperature sensor embedded in the concrete structure so as to recognize the temperature of the concrete structure itself in addition to the internal and external temperature sensor.

Hereinafter, a concrete curing temperature control method and apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are for explaining a concrete curing temperature control method and apparatus according to the present invention, Figure 1 is a block diagram schematically showing the configuration of the concrete curing temperature control apparatus according to the present invention, Figure 2 A graph output by the recorder 30 applied to the present invention is a time-temperature graph showing a preferable internal temperature change over time compared with a temperature change according to the prior art.

Here, a thick solid line represents the internal temperature change curve of the present invention, b of the thin double-dot chain line represents an external temperature change curve of the present invention, and c of the thin single-dotted line illustrates the internal temperature change curve of the prior art, respectively.

As shown in the drawings, the concrete curing temperature control apparatus according to the present invention, it is possible to supply the appropriate amount of steam by the automatic control method in a space shielded from the external environment, the controller programmed to enable automatic control ( 10), the converter 20 for converting the external input value into an electrical signal, the shielding tent 40 for blocking the concrete structure (1) from the external environment, the temperature sensor for sensing the temperature of the external environment and the shielding space ( 41) 42, an air compressor 50 operated by a signal transmitted from the controller 10, a boiler 60 for generating steam having a capacity capable of maintaining a maximum temperature on a specification basis, and the air compressor ( The basic configuration of the structure is provided with a steam amount control valve 61 connected to 50 to limit the flow of steam generated from the boiler (60).

That is, the concrete curing temperature control apparatus according to the present invention, the boiler 60 for supplying steam of an appropriate temperature and the concrete structure 1 to be cured so as to ensure a predetermined quality during concrete curing can be isolated from the outside. The shielding curtain 40 is installed in the space surrounding the construction so that the vapor discharge pipe 62 of the boiler 60 communicates with the shielded space formed by the shielding curtain 40 and the vapor discharge pipe 62 A steam amount control valve 61 installed to control the flow of steam supplied through the air, an air compressor 50 for adjusting the steam amount control valve 61, and a temperature of the shielded space and the outside thereof, respectively. The air compressor 50 after analyzing the internal and external temperature sensors 42 and 41 disposed in the respective parts and the temperature detected by the internal and external temperature sensors 42 and 41. When operating by sending out electrical signal And a controller 10 for variably adjusting the steam amount control valve 61 by a pre-programmed program so that an appropriate amount of steam is discharged into the shielded space, and the internal and external temperature sensors 42 and 41 and the controller. It is provided between the (10) is configured to include a converter 20 for converting the temperature sensed from each of the temperature sensor (41, 42) into an electrical signal.

In the configuration of the present invention as described above, the steam amount control valve 61 can heat the outside of the steam amount control valve 61 to a predetermined temperature to prevent freezing when the external temperature is 0 ° C or less. The heater 70 which is provided is provided.

In addition, the converter 20 continuously outputs a graph so that a contractor can check and record each temperature change detected by the internal and external temperature sensors 42 and 41, and displays the state of the converter ( 20 is equipped with a recorder (30) capable of converting the electrical signal through the controller (10), the recorder (30) is equipped with a printer (31) for printing the temperature change in a continuous graph ) Is provided.

On the other hand, in addition to the temperature sensor 41, 42 may be considered to additionally arrange the structure temperature sensor 43 embedded in the concrete structure (1) to recognize the temperature of the concrete structure (1) itself. have. In this case, since the temperature change of the concrete structure 1 can be directly detected, more precise construction work is possible.

Referring to the temperature control method by the concrete curing temperature control apparatus of the present invention constituting the configuration as described above are as follows.

Concrete curing temperature control method according to the present invention, the shielding process so that the construction surrounding space of the concrete structure (1) when the concrete curing is isolated from the outside and operates the boiler 60 to force the appropriate temperature and humidity in the shielded space In the existing concrete curing temperature control method to maintain the quality according to the specification by the composition, the temperature sensor (41, 42) is installed in each part so as to sense the temperature of the shielded space and the outside, respectively. And measuring the temperature of each part detected by the internal and external temperature sensors 42 and 41 so that the internal temperature change can be stably raised, maintained, and lowered according to the specification. It is achieved by sequentially performing the step of controlling the supply of steam in the shielded space by adjusting the supply.

That is, when the temperature of the inside and the outside of the shielding space is sensed by each of the temperature detecting sensors 42 and 41 installed inside and outside the shielding tent 40, the respective physical quantities are converted into electrical signals through the converter 20. In addition to being converted and transmitted to the controller 10, a printout is output as a graph as illustrated in FIG. 2 through the recorder 30 connected to the converter 20.

The controller 10 analyzes the received data and controls the air compressor 50 according to a pre-programmed program to adjust the steam amount control valve 61, and the high temperature that is sent from the boiler 60 into the shielded space. You can automatically adjust the amount of steam.

At this time, the steam delivery control step is maintained at a constant temperature gradient within 15 ~ 20 ℃ / hr in the temperature rise step (I) of the concrete curing process early and end time period and the temperature drop step (III) of the end of the curing process. It can be controlled, so that the change in the internal temperature in the middle time of the process can be maintained at a temperature within 60 ~ 70 ℃.

Therefore, as shown in FIG. 2, the internal temperature change curve (a) according to the present invention maintains the initial rising stage of the constant slope, the medium-term constant temperature maintenance stage, and the last falling stage of the constant slope, and concrete curing is performed.

According to the concrete curing temperature control method and apparatus according to the present invention as described above, when you want to construct a concrete structure, the amount of steam control by the automatic control method in the state of installing a shielding tent that can shield the surrounding space of the concrete structure By adjusting the valve to supply the appropriate amount of steam into the shielded space, the construction can be optimized according to the specification, ensuring the best quality, and the change of the internal temperature in the early, middle and late periods of the concrete curing process. It can be maintained in accordance with the specification, it is not necessary to operate the boiler excessively, of course, there is an effect that can reduce the construction cost by suppressing unnecessary steam supply.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, this may be regarded as exemplary, and those skilled in the art may conceive various modifications and equivalent embodiments therefrom. It should be understood that such equivalent embodiments are also included within the claims of the present invention. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

Claims (6)

The concrete curing temperature control to maintain the quality according to the specification by shielding the construction space of the concrete structure to be isolated from the outside during concrete curing and forcibly creating the appropriate temperature and humidity in the shielded space by operating the boiler. In the method, Installing a temperature sensor at each part to detect the temperature of the shielded space and the outside thereof; And By measuring the temperature of each part detected by the internal and external temperature sensor, by adjusting the amount of steam at each time zone so that the internal temperature change can be stably risen, maintained and lowered according to the specification of the temperature, Concrete curing temperature control method characterized in that comprises a; controlling to be sent. The method of claim 1, In the steam delivery control step, the internal temperature change in the initial and end of the concrete curing process to rise and fall with a slope within 15 to 20 ℃ / hr, respectively, the internal temperature change in the intermediate time period is 60 to 70 Concrete curing temperature control method characterized in that the control to be maintained at a temperature within ℃. When curing concrete, a shielding tent is installed to seal the surrounding space of the construction so that the concrete structure can be isolated from the outside, and concrete curing is equipped with a boiler that supplies steam at an appropriate temperature in the shielded space to ensure a predetermined quality. In the temperature control device, A steam flow control valve installed in the shielded space so as to communicate with the steam discharge pipe of the boiler and regulate a flow of steam supplied through the steam discharge pipe; An air compressor for adjusting the steam amount control valve; Internal and external temperature sensors disposed at each part to sense the temperature of the shielded space and the outside thereof; After analyzing the temperature of each part detected by the internal and external temperature sensors, the steam amount control valve is set by a program inputted to send an appropriate amount of steam into the shielded space by transmitting and operating an electrical signal to the air compressor. A controller for variably adjusting; And And a converter installed between the internal and external temperature sensors and a controller for converting the temperature detected by each temperature sensor into an electrical signal. The method of claim 3, wherein The steam amount control valve is a concrete curing temperature control device, characterized in that provided with a heater for heating the outside of the steam amount control valve to a predetermined temperature to prevent freezing when the outside temperature is 0 ℃ or less. The method of claim 3, wherein The converter outputs a graph continuously so that the contractor can check and record each temperature change detected by the internal and external temperature sensors, and converts the state into an electrical signal through the converter and sends it to the controller. Concrete curing temperature control device characterized in that the recorder is mounted. The method of claim 3, wherein In addition to the internal and external temperature sensor, the concrete curing temperature control device, characterized in that the additional structure temperature sensor embedded in the concrete structure so as to recognize the temperature of the concrete structure itself.