KR200384189Y1 - Complex environment control digital thermo-hygrometer - Google Patents

Abstract

 The present invention relates to a composite environmental control digital temperature and humidity meter, and more particularly, to a composite environmental control digital temperature and humidity meter in which the highest and lowest temperature and humidity are displayed on one screen window.

According to the present invention, not only the current temperature and humidity but also the highest and lowest temperature and humidity are displayed on the 7-segment digital display on one screen such as an LCD display window, so that the temperature and humidity can be viewed at a glance.

Description

Complex environment control digital thermo-hygrometer

 The present invention relates to a composite environmental control digital temperature and humidity meter, and more particularly, to a composite environmental control digital temperature and humidity meter in which the highest and lowest temperature and humidity are displayed on one screen window.

 The ratio of temperature and humidity in the human living environment is sometimes as absolute as air, so the influence of temperature and humidity on the manufacturing process and the production or production of various industrial products that dominate many environments around us or provide convenience for living. Can't be ignored.

Thermometers are widely used as tools for measuring the temperature, temperature and water temperature of objects as well as human body temperature for industrial and domestic purposes.

These thermometers should be easy to use and easy to read the measurement temperature under the assumption of the general public.

As a conventional thermometer, a thermometer using mercury or alcohol has a dense scale and is rough so that the public cannot easily read the temperature value.

Recently developed thermometers display the measured temperature numerically on the LCD, allowing the user to read the number to determine the measured temperature.

In addition, in the thermometer, it is carried out to memorize a plurality of measured temperatures, but there is a drawback that it is not possible to immediately know what temperature the stored temperature is just by simply storing the temperature.

That is, one display unit usually displays the current temperature, and the highest and lowest temperatures are alternately displayed as the key is pressed.

On the other hand, the humidity measurement in the general living environment can be made by various methods including a wet and dry sphere hygrometer which can be easily encountered in the vicinity of us, but it is used in a process requiring control such as manufacturing process of industrial products or production and storage of agricultural products. For the application, continuous measurements must be made and the measurements can be converted to digital signals and output.

However, even though the conventional method cannot be used for the control of the process by the manual method or the electrical signal can be output by the continuous measuring method, the installation environment is very limited in most cases.

 The present invention has been made to solve the above-mentioned problems, and in addition to displaying the measured temperature by digital number, in addition to the present temperature and humidity of the 7-segment, The purpose of the present invention is to provide a digital environment-controlled digital hygrometer which is digitally displayed and can output digital signals by a continuous measuring method so that the temperature and humidity can be seen at a glance.

 In order to achieve the above object, the present invention provides a temperature sensor and a humidity sensor for measuring temperature and humidity, an A / D converter for converting an analog signal of the measured temperature and humidity into a digital signal, and inputting the digital signal. A one-chip processor that receives the comparison operation and outputs the result to the display driver, a display driver that drives the display of temperature and humidity by data input from the one-chip processor, and a display unit that displays the measured temperature and humidity in a 7-segment digital form, and the measurement. The present invention aims to provide a complex environment-controlled digital hygrometer comprising a memory for storing the temperature and humidity at a predetermined time interval, and a key input unit for allowing the user to set the temperature and humidity and the storage interval from the outside.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is an overall block diagram of a complex environmental control digital thermo-hygrometer according to the present invention.

The temperature sensor 10 and the humidity sensor 20 measure temperature and humidity and are installed in a barn, a plastic house, a cultivation greenhouse, and a factory.

In the present invention, as the humidity sensor 20, a semiconductor thin film type relative humidity sensor is used.

The amplifiers 12 and 22 amplify the weak analog signals measured by the temperature sensor 10 and the humidity sensor 20.

The A / D converter 30 converts the amplified analog signal into a digital signal and outputs it to the one-chip processor 40.

The one-chip processor 40 compares and processes the input digital signal to the display driver 62 and outputs it to the display driver 62, and the display driver 62 drives to digitally display the temperature or humidity measured by the data signal.

The display unit 64 indicates temperature or humidity under the control of the one chip processor 40.

2 is a block diagram illustrating an example of the content displayed on the display unit of the present invention.

As shown, the display driver 62 includes a first display driver 62a and a second display driver 62b, and the display unit 64 includes a current temperature display unit 64a and a maximum temperature display unit 64b. And a minimum temperature display section 64c and a current humidity display section 64d.

Each of the temperature display units 64a, 64b, and 64c is composed of three digits 7-segment digital, and the current humidity display unit 64d is composed of two digits 7-segment digital. .

In one embodiment of the present invention, the present temperature and the maximum temperature are displayed by the driving of the first display driver 62a and the minimum temperature and the current humidity are displayed by the driving of the second display driver 62b. It goes without saying that various modifications can be made in the display of the temperature and humidity according to 62a and 62b.

In FIG. 2, the display unit may be configured to display the current, highest and lowest humidity, and the current temperature.

The drive for displaying the respective temperature and humidity is by outputting data made by the comparison operation of the one-chip processor 40.

In FIG. 1, the key input unit 70 allows the user to set the temperature and humidity and the storage interval from the outside.

The temperature and humidity measured by the key input unit 70 and the storage interval, the temperature and humidity measured by the temperature sensor 10 and the humidity sensor 20 are stored in the memory 90, the memory 90 and the battery backup RAM 92 It consists of an EEPROM 94.

The battery backup in the battery backup RAM 92 uses a battery to maintain the operation of the circuit when the main power is cut off. For example, a RAM that preserves important system information between sessions, including an internal clock. There is an electrical circuit that powers the area.

The temperature and humidity set by the key input unit 70 and the measured temperature and humidity are stored in the battery backup RAM 92, and the measured temperature and humidity are stored in a predetermined byte unit (for example, 64 bytes) before being added to the battery backup RAM 92. Next, it is stored in the EEPROM 94.

The EEPROM (Electrically Erasable Programmable Read-Only Memory) is a ROM that allows a user to modify contents in a memory, which is a special type of EEPROM.

The real time clock 110 interlocked with the battery backup RAM 92 checks the time to display and store the highest and lowest temperature and humidity on a daily basis.

In addition, the one-chip processor 40 compares the set maximum and minimum temperature and humidity stored in the memory 90 with the temperature and humidity measured by the temperature sensor 10 and the humidity sensor 20 to deviate from the set value. Output to (52).

The alarm driver 52 is driven to sound an alarm by the input abnormal signal, and the alarm 54 sounds an alarm.

In addition, the one-chip processor 40 is connected to the RS-232 communication module 80 to transmit the stored temperature and humidity data to the computer (82).

3 is a flowchart illustrating a method of storing and displaying a maximum and minimum temperature as an embodiment of the present invention.

The first process is a process of displaying the present temperature as the highest and lowest temperature based on the reference time, wherein the reference time is midnight time when the date is changed, that is, 24: 00, and the highest and lowest temperatures are in units of days. To be displayed.

The first process may include determining whether the current time is 24:00 in the one-chip processor 40 (S200), and storing the current temperature in the memory 90 at the highest and lowest temperatures at 24:00. (S202) and displaying the present temperature, the highest temperature, and the lowest temperature on the display portion 64 (S203).

In the step S203 of displaying each temperature on the display unit 64, the first display driver 62a and the second display driver 62b are driven by the one-chip processor 40 of FIG. 2 to display the current temperature display 64a. The present temperature = the highest temperature = the lowest temperature is digitally displayed on the highest temperature display portion 64b and the lowest temperature display portion 64c.

The second process is a process of reading the current temperature and displaying the current temperature by repeating a predetermined time unit, reading the current temperature from the temperature sensor 10 (S204), and displaying the current temperature on the display unit 64. It consists of step S205.

In the step S204 of reading the current temperature, the current temperature is measured by the temperature sensor 10 and the signal amplified by the amplifier 12 is amplified. 40).

In step S205 of displaying the current temperature, the one-chip processor 40 performs arithmetic processing to drive the first display driver 62a, whereby the current temperature is displayed on the current temperature display unit 64a.

The third process is a process of displaying the present temperature as the highest temperature when the present temperature is high by comparing the present temperature of the second process with the highest temperature of the first process, and is performed by the one-chip micro 40.

In the third process, comparing the current temperature measured in the second process with the highest temperature stored in the memory 90 in the first process (S206), and if the maximum temperature is lower than the current temperature, the current temperature is the highest temperature. And storing the present temperature in the memory 90 (S208) and displaying the current temperature as the highest temperature on the highest temperature display portion 64b (S209).

In the fourth process, the present temperature of the second process is compared with the lowest temperature of the first process, and if the lowest temperature is high, the present temperature is displayed as the lowest temperature. The fourth process is performed by the one-chip micro 40 as in the third process.

In the fourth process, comparing the present temperature measured in the second process with the lowest temperature stored in the memory 90 in the first process (S210), and if the minimum temperature is higher than the present temperature, the present temperature is the lowest temperature. The step S212 of storing the memory 90 and the step S213 of displaying the current temperature as the lowest temperature on the lowest temperature display unit 64c.

In FIG. 3, a method of storing and displaying a maximum and minimum temperature in temperature is illustrated, but the maximum and minimum humidity may be stored and displayed in the same manner in a humidity.

As described above, the present temperature and humidity are displayed on one display unit 64 as well as the daily maximum and minimum temperature and humidity, so that the desired temperature and humidity can be seen at a glance, and then the stored data is transferred to the computer 82 to manufacture industrial products or agricultural products. It can be used for production, storage, and the like.

In addition, temperature and humidity can be measured continuously and digitally displayed for control.

 As described above, according to the present invention, in addition to digitally displaying the measured temperature by a number, the highest and lowest temperature and humidity as well as the current temperature and humidity are displayed in 7-segment digitally on one screen such as an LCD display window. It is convenient to see temperature and humidity at a glance and digital signal can be output by continuous measuring method for control.

1 is an overall block diagram of a complex environmental control digital thermo-hygrometer according to the present invention.

2 is a block diagram illustrating an example of the content displayed on the display unit of the present invention.

3 is a flowchart illustrating a method of storing and displaying a maximum and minimum temperature as an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: temperature sensor 12,22: amplifier

20: humidity sensor 30: A / D converter

40: one-chip processor 52: alarm drive unit

54 alarm 62 display driver

64: display unit 70: key input unit

80: RS-232 Communication Module 82: Computer

90: memory 92: battery backup RAM

94: EEPROM 110: Real-Time Clock

Claims (3)

 A temperature sensor and humidity sensor for measuring temperature and humidity, An A / D converter converting the measured temperature and humidity analog signals into digital signals; A one-chip processor which receives the digital signal and performs a comparison operation to output the digital signal to a display driver; A display driver for driving display of temperature and humidity by data input from the one-chip processor, and a display unit for digitally displaying a measured 7-segment of temperature and humidity; A memory for storing the measured temperature and humidity at a predetermined time interval, It is a key input unit that allows the user to set the temperature and humidity and the storage interval from the outside. Complex environmental control digital thermo-hygrometer, characterized in that the configuration.  The combined temperature control digital thermo-hygrometer according to claim 1, wherein an amplifying unit for amplifying the analog signal measured by the temperature sensor and the humidity sensor is located in front of the A / D converter. The complex temperature-controlled digital hygrometer of claim 1, wherein the display unit comprises a three-digit seven-segment current temperature display unit, a maximum temperature display unit, a minimum temperature display unit, and a two-digit seven-segment current humidity display unit.