KR200341450Y1 - Apparatus for Wireless Temperature Measurement Unit - Google Patents

Abstract

The present invention relates to a wireless temperature measuring device, and in particular, by receiving the temperature of the poured concrete wirelessly so that the current pouring concrete temperature data can be grasped from the place where the temperature measuring device is installed, it is easy to check the curing level in terms of construction management. The present invention relates to a wireless temperature measuring device, which is characterized by being able to predict and help a lot in planning subsequent work.

A temperature sensor using a dummyster element having a measurement range of -30 degrees to 100 degrees; A signal processor comprising a constant voltage unit for operating the temperature sensor and a filter circuit unit for removing noise; A CPU board incorporating an analog digital converter, digitally processing and inputting data acquired through the signal processing unit, and integrally forming a wireless modem to wirelessly output the data; A reception modem for receiving data information output from the wireless modem; It is characterized by consisting of a PC that is connected to the receiving modem via the RS232C cable to display data.

Description

Wireless Temperature Measurement Unit {Apparatus for Wireless Temperature Measurement Unit}

The present invention relates to a wireless temperature measuring device, and in particular, by receiving the temperature of the poured concrete wirelessly so that the current pouring concrete temperature data can be grasped from the place where the temperature measuring device is installed, it is easy to check the curing level in terms of construction management. The present invention relates to a wireless temperature measuring device, which is characterized by being able to make predictions and help a lot in planning subsequent work.

In most cases, thermometer measurement is carried out for the purpose of curing management to ensure the proper quality of cast-in-place concrete. Especially, in the case of winter-poured concrete and mass concrete including low temperature, the importance of thermometer control is more important.

On the other hand, the common thermometer measuring method used in existing construction sites is a method using a thermo-hygrometer or a thermo-meter, which records temperature on a tape-type paper or at regular intervals. Go to the place where the temperature meter is installed and read it with your eyes.

In addition, it is difficult for a person to check the measured temperature by hand or take the data stored in the data logger and read it on a computer. Therefore, it is difficult to immediately cope with the change in the surrounding conditions of concrete. There was a limit to planning subsequent work.

The present invention is to solve the above problems, to provide a wireless temperature measurement system incorporating a wireless modem capable of two-way remote transmission and reception when the temperature is measured after concrete pouring, the measured temperature data through the wireless modem of the field office Its purpose is to improve the existing concrete temperature measurement method by transmitting the computer to monitor the temperature of concrete in real time.

As a means for achieving the above object,

The present invention is a temperature sensor using a dummyster element measuring range of -30 to 100 degrees; A signal processor comprising a constant voltage unit for operating the temperature sensor and a filter circuit unit for removing noise; A CPU board incorporating an analog digital converter, digitally processing and inputting data acquired through the signal processing unit, and integrally forming a wireless modem to wirelessly output the data; A reception modem for receiving data information output from the wireless modem; It is characterized by consisting of a PC that is connected to the receiving modem via the RS232C cable to display data.

1 is a configuration of the temperature sensor and data logger of the present invention.

2 is a block diagram of the measurement operating device of the present invention.

3 is a flow chart of the operation of the data logger of the present invention.

Figure 4 is an exemplary view of the screen output of the temperature data measured by the present invention.

Explanation of symbols on the main parts of the drawings

10: temperature sensor 20: signal processor

30: data logger 40: constant voltage supply

50: storage battery 60: power control unit

70: receive modem 80: computer

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a configuration of the temperature sensor and data logger of the present invention.

2 is a configuration diagram of the measurement operating device of the present invention,

Looking at the main configuration of the present invention, the temperature sensor 10, the signal processing unit 20, the data logger 30, the receiving modem 70, the PC 80 and the configuration means related to the power supply (40, 50, 60).

Although the temperature sensor 10 is various, in the present invention, a dummyster is used, and the measurement range of the temperature to which the dummyster is applied is between -30 degrees (℃) and 100 degrees (℃).

For reference, unlike the general metal, the dummyster has a characteristic of a negative resistance temperature coefficient, in which the resistance value decreases with increasing temperature, which is called a negative temperature coefficient thermistor (NTC). Structurally, it is classified into direct heat type, heat dissipation type, and delay type, and its appearance is various from enlightenment to the size of a coin. Because of the rapid resistance change, it is widely used as a sensor for temperature control.It is used for measuring thermometers, thermometers, hygrometers, barometers, anemometers, microwave power meters, compensation of characteristic changes by the temperature of communication devices, automatic gain adjustment of communication lines, etc. The field of use is wide.

The signal processor 20 includes a constant voltage unit and a filter unit. The constant voltage unit relays a power supply for operating a temperature sensor, and the filter unit removes a noise signal transmitted from the temperature sensor.

The data logger 30 includes a CPU board, a power board, and a wireless modem.

The CPU board includes an analog digital converter (ADC), a CPU, a flash ROM, and an SDRAM, and digitally converts data passed through the signal processor.

The power board is designed to proceed with a power saving mode, and thus, power can be supplied only at the time of processing data, thereby saving electricity.

The wireless modem serves to wirelessly transmit the temperature data provided from the CPU board, and since the maximum transmission / reception distance is 300 meters, the wireless modem can receive the temperature data at the field office.

In addition, the devices for power supply are installed, such as a constant voltage supply 40, a storage battery 50, a power control unit 60 and the like.

The storage battery 50 is a 12 volt DC battery, and the constant voltage supply 40 removes ripple from the voltage provided to the storage battery 50 and converts the signal into a stable DC voltage, thereby processing the signal processor 20, the CPU board, and the power board. Provided to, the power control unit 60 is a configuration installed to minimize the power consumption according to the use of the built-in battery.

In addition, the receiving modem 70 serves to receive the temperature data transmitted through the transmitting modem built in the data logger 30, the receiving modem 70 is an office computer (PC) and RS232C cable By connecting through the computer 80 to check the temperature of the site.

Hereinafter, the operation of the present invention will be described.

First, a plurality of temperature sensors 10 are installed in the poured concrete, and the wires are extended by a predetermined length to be connected to the signal processing unit 20.

The signal processor 20 provides a constant voltage for operating the temperature sensor 10, passes the temperature data received from the temperature sensor 10 through a filter circuit, removes noise, and delivers the noise to the data logger 30. .

The CPU board constituting the data logger then digitizes the temperature data transmitted as an analog signal and emits it as a wireless signal through the wireless modem.

Subsequently, the reception modem 70 transmits data output by the wireless modem, and transmits the data to the computer 80 through an RS232C cable.

Temperature data can be checked in real time through a separate developed program (see FIG. 4), and stored in a file in the form of a computer for later analysis.

Therefore, since it is possible to receive temperature data through a personal computer, it is very easy to manage curing of the poured concrete.

3 shows a concept of power saving operation of the data logger 30,

Initializing the CPU and receiving operation information to measure temperature (S1); Transmitting the resultant value of the thermometer side through a wireless modem (S2); Performing a power saving mode after transmitting the result of the temperature measurement (S3); The operation information is checked to determine whether there is operation information, and if the operation information is released, step S4 is performed.

In particular, this difference from the existing products is not a hardware or software enhancement of the linearity of the temperature sensor in the conventional way, but the accuracy of measurement by 1: 1 correspondence of the resistance change caused by temperature change with the output bit of the analog digital converter. Further improved.

For reference, the power board supplies 5VDC power to the CPU and ± 5VDC power to the signal processing board, and the maximum power consumption is about 2W, and adopts a power saving mode to minimize power consumption due to battery use, and operates only at a set uptime. The power of the wireless modem was controlled.

When the present invention is used, the quality control of the concrete and the field construction management are performed by promptly taking necessary measures according to the situation while checking the curing temperature of the concrete in the field structure for the sudden change of the outside temperature during the concrete construction and mass concrete curing in winter. It provides an effect that can be performed smoothly.

Although the present invention has been described in connection with the above-mentioned preferred description, various other modifications and variations may be made without departing from the spirit and scope of the present invention. Accordingly, the appended claims may be determined to include such modifications and variations as fall within the true scope of the present invention.

Claims (1)

A temperature sensor using a dummyster element having a measurement range of -30 degrees to 100 degrees; A signal processor comprising a constant voltage unit for operating the temperature sensor and a filter circuit unit for removing noise; A CPU board incorporating an analog digital converter, digitally processing and inputting data acquired through the signal processing unit, and integrally forming a wireless modem to wirelessly output the data; A reception modem for receiving data information output from the wireless modem; Wireless reception device, characterized in that consisting of a PC that is connected to the receiving modem via the RS232C cable to display data.