KR20040036808A - Temperature and Humidity Monitoring System - Google Patents

Abstract

PURPOSE: A system for monitoring temperature and humidity of an exchange room is provided to monitor temperature variation and humidity variation in one place by installing temperature sensors and humidity sensors at each exchange room and connecting the temperature and the humidity sensors to a main unit. CONSTITUTION: A system for monitoring temperature and humidity of an exchange room includes a plurality of sensors, a main display unit, a main controller, and a PC. The sensors(30a-30n) are installed in each exchange room to measure temperature and humidity of each exchange room and transmit the measured values to the main controller. The main display unit(10) is installed in an operating room to display the measured temperature values and the measured humidity values. The main controller(20) installed in the operating room controls each component, supplies the power to the main display unit and the sensors, compares setup values to the measured temperature values and the measured humidity values, and generates alarm sound according to the compared result. The PC(40) is connected to the main controller in order to receive, display, and store the measured temperature values and the measured humidity values.

Description

Temperature and humidity monitoring system such as exchange room {Temperature and Humidity Monitoring System}

The present invention relates to a temperature and humidity monitoring system such as an exchange room, and more particularly, a temperature and humidity monitoring system such as an exchange room that senses a change in temperature and humidity of an exchange room and transmits this data to an operation room for monitoring and display or an alarm occurs according to a user setting value. It is about.

In general, the place where precision equipment such as electronic exchange room or computer room is handled should always maintain constant humidity and temperature to prevent static electricity and to prevent the system from crashing due to high temperature phenomenon.

Humidifiers are used to continuously adjust the humidity for 24 hours, and cooling devices are mainly used to prevent high temperature from occurring.

Many printed circuit boards (hereinafter referred to as "boards") are installed in cabinets such as electronic exchangers provided in the exchange room, and many electronic components are inserted into the boards.

The electronic component dissipates heat during operation and the board and the exchanger malfunction due to the heat, thereby preventing the malfunction and protecting the components and the device due to the heat. A cooling device for cooling is installed.

In addition to the exchange room described above, it is necessary to maintain a constant temperature and humidity in an unmanned equipment room, transmission room, power room, battery room, etc. For this purpose, it is economical to install and use a sensor for measuring temperature and humidity and a controller for controlling the sensor. There are many difficulties in terms of both human and operational aspects.

In terms of economics, the installation and use of each room requires a lot of equipment purchase cost and installation cost.

In terms of operation, the operator has to move around each room and check the temperature and humidity, which is cumbersome, time consuming, and there was a problem that cannot be monitored in real time.

An object of the present invention devised to solve the above problems is to install a sensor unit equipped with a temperature sensor and a humidity sensor for each room, and connect each sensor unit to one main device installed in the operation room, where the operator can operate in one place. It is possible to monitor changes in temperature and humidity, so that installation costs are low and the temperature and humidity conditions of each room can be monitored in one place, providing a convenient temperature and humidity monitoring system such as an exchange room.

In order to achieve the above object, the present invention is installed in each exchange room to measure the temperature and humidity, a plurality of sensor unit for transmitting the measured temperature and humidity value to the main controller, and the main controller is installed in the operating room together with the main controller A main display unit for receiving the temperature and humidity values from the digital display on a large screen, and controlling each component, supplying power for operation of the main display unit and the sensor unit, and setting the set temperature and humidity value and the temperature and humidity value input through the sensor unit. Compared to the main controller for generating an audible alarm when out of the range of the set value, and monitoring the temperature and humidity of the exchange room including a PC connected to the main controller to receive, display, store and document the temperature and humidity value from the main controller We want to provide a system.

1 is a block diagram of a temperature and humidity monitoring system according to the present invention.

FIG. 2 is a block diagram of the main controller shown in FIG. 1.

3 is a block diagram of a sensor unit illustrated in FIG. 1.

4 is a block diagram of the main display unit shown in FIG. 1.

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

10: Main display section 11, 21, 31: RS-485 port

13,33: selector 14,34: memory

15: main monitor 18, 28, 38: CPU

20: main controller 22: RS-232C port

23: setting unit 24: main memory

25,35: Monitor 26: Alarm sound generator

27: power supply 30a, 30b,... , 30n: Sensor part

36: temperature sensor 37: humidity sensor

40: PC

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a temperature and humidity monitoring system according to the present invention.

As shown, the main display unit 10, the main controller 20, the PC 40, and a plurality of sensor units (30a, 30b, ..., 30n).

The main display unit 10 installed in the operating room together with the main controller 20 is connected to the main controller 10 through RS-485 to receive power and receive data from the main controller through RS-485.

The main display unit 10 displays the temperature and humidity value digitally, but displays the temperature and humidity of the sensor unit 30a, 30b, ..., 30n having the highest temperature or humidity.

The selection of the displayed sensor part is determined by the setting of the main controller 10.

The main controller 20 controls each component, supplies power required for the operation of the main display unit 10 and the plurality of sensor units 30a, 30b, ..., 30n, and the set temperature and humidity values and the temperature and humidity input through the sensor unit. When a value is out of the range of the set value, an audible alarm will sound.

The sensor units 30a, 30b, ..., 30n installed in each of the exchange rooms are connected to the main controller 20 through RS-485 to supply power for operation through RS-485, and measure the measured temperature and humidity of the main controller ( 20) to transmit.

The sensor unit and the main controller may transmit and receive data in a wireless RF method without using a wired RS-485 method.

The PC 40 is connected to the main controller 20 through RS-232C, receives the temperature and humidity values from the main controller, displays, stores and documents them.

FIG. 2 is a block diagram of the main controller shown in FIG. 1.

The communication port provided in the main controller 20 includes an RS-485 port 21 connected to the plurality of sensor units 30a, 30b, ..., 30n and the main display unit 10, and an RS- connected to the PC 40. It consists of a 232C port 22.

Power is supplied with data transmission and reception through the RS-485 port 21, and data is transmitted and received through the RS-232C port 22.

The CPU 28 is a one-chip microprocessor that controls each component as a whole and compares the temperature and humidity values set through the setting unit 23 with the temperature and humidity values sensed through the sensor units 30a, 30b, ..., 30n to determine a predetermined range. If out, the alarm sound generating unit 26 is controlled to generate an alarm sound.

The monitor 25 displays the temperature value and the humidity value of the sensor part in the order of the address of the sensor part.

In the setting unit 23, an alarm sound is generated when an error occurs, the volume of the alarm sound is adjusted, the temperature values of the upper and lower limits, the humidity values of the upper and lower limits, the presence or absence of use of the sensor unit, and the like are set by key input or a switch.

The power supply 27 receives a commercial power of AC 220V, converts it to a DC 24V necessary for supplying power to the sensor unit and the main display unit, and supplies the same through the RS-485 port 21.

The main memory 24 stores a temperature and humidity monitor program, a program necessary for control, a set temperature and humidity value, and a measured temperature and humidity value.

The alarm sound generating unit 26 generates an alarm sound under the control of the CPU 28 and automatically informs the operator of the abnormality.

3 is a block diagram of a sensor unit illustrated in FIG. 1.

The temperature sensor 36 and the humidity sensor 37 measure temperature values and humidity values and transmit them to the CPU 38, and the CPU 38 converts them to digital and converts them into digital controllers through the RS-485 port 31. To send).

The CPU 38 is also a one-chip microprocessor that controls this value to be displayed on the monitor 35.

The monitor 35 differs from the monitor 25 of the main controller 20 in that the monitor of the main controller displays all the temperature and humidity values of the respective sensor units 30a, 30b, ..., 30n, while the monitor of the sensor unit It is to display only the temperature and humidity values of the sensors 36 and 37 which the child has.

As a result, the temperature and humidity values measured by the sensor can be easily monitored in the operating room as well as the exchange room.

The selector 33 is composed of a switch for selecting an address of the sensor unit, and the selected address is displayed on the monitor 35.

The memory 34 stores temperature and humidity values, addresses, and the like measured by the temperature sensor 36 and the humidity sensor 37 and digitally converted by the CPU.

4 is a block diagram of the main display unit shown in FIG. 1.

The CPU 18 displays the temperature and humidity values measured by the sensor units (30a, 30b, ..., 30n) selected by the control of the main controller 20, but the main controller displays the highest temperature or humidity value among the plurality of sensor units. We choose sensor part to have.

The CPU is a one-chip microprocessor which receives the temperature and humidity values of the selected sensor unit through the main controller 20 and controls the main monitor 15 to display the temperature and humidity values.

When the displayed temperature and humidity value is out of a predetermined range of the set temperature and humidity value, the main controller sends a blinking control signal to the main display unit 10, and the CPU 18 of the main display unit controls the main monitor 15 according to the control signal. The displayed temperature and humidity value blinks to inform the operator that something is wrong.

The main monitor 15 is different from the sensor units 30a, 30b,..., 30n and the monitor 35.25 of the main controller 20 so that the size of the main monitor 15 is large and the operator can easily see it.

The memory 14 stores a temperature and humidity value at this time, and the selecting unit 13 is composed of a switch for selecting an address of the main display unit 10, and the selected address is displayed on the main monitor 15.

In the above configuration, when the main display unit is configured in plural numbers, the main display unit may be selected to have the same address as that of the sensor unit to monitor the large screen of the main monitor 15.

For example, one sensor unit is installed in an unmanned transmission room, a main display unit is installed in a manned operation room outside the transmission room, and an address is set as a sensor unit installed in an unmanned transmission room. Temperature and humidity can be monitored.

Looking at the action of the system consisting of the above configuration, first, whether or not alarm sound occurs when an error occurs through the setting unit 23 of the main controller 20, alarm sound volume control, temperature value of the upper limit and lower limit, humidity value of the upper limit and lower limit. Set the use of the sensor unit with key input or switch.

The temperature sensor 36 and the humidity sensor 37 provided in the sensor units 30a, 30b, ..., 30n of each of the exchange rooms measure temperature and humidity, and transmit the measured temperature and humidity to the sensor unit CPU 38, and the CPU sends a digital signal. While converting the signal to the monitor 35 of the sensor unit, the value is transmitted to the CPU 28 of the main controller 20 through the RS-485 port 31.

The CPU of the main controller divides the temperature and humidity values transmitted to each sensor unit by the address of the sensor unit and stores them in the main memory 24, and displays these values on the monitor 24 by address.

If there is a lower limit value and an upper limit value of the temperature value set by the setting unit 23 among the measured temperature and humidity values, and a temperature and humidity value that deviates from the lower limit value and the upper limit value of the humidity value, the alarm sound generating unit 26 is controlled to generate an alarm sound. .

The CPU 28 transmits the temperature and humidity value of the sensor unit having the highest temperature and humidity value among the temperature and humidity values transmitted to each sensor unit to the CPU 18 of the main display unit 10 through the RS-485 port 21.

At this time, if the transmitted temperature and humidity value is out of a predetermined range of the set temperature and humidity value, and transmits a blinking control signal separate from the temperature and humidity data to the CPU (18).

The CPU 18 of the main display unit 10 displays the transmitted temperature and humidity values in the main monitor 15, stores them in the memory 14, and displays the main monitor 15 when the flicker control signal has been transmitted. Make the temperature and humidity value blink.

Meanwhile, the temperature and humidity values transmitted from the main controller 20 and the set temperature and humidity values are transmitted to the PC 40 through the RS-232C port 22 at regular intervals, and are stored and documented by temperature, humidity, and date. The data is used for further processing and retrieval.

As described above, according to the present invention, a sensor unit having a temperature sensor and a humidity sensor is installed in each room, and each sensor unit is connected to one main device installed in the operation room so that the operator can monitor temperature and humidity changes at one place. The installation cost is low and it is convenient to monitor the temperature and humidity of each room in one place.

Claims (4)

A plurality of sensor units installed in each exchange room to measure temperature and humidity and transmitting the measured temperature and humidity values to the main controller; A main display unit installed in an operation room together with the main controller to receive a temperature and humidity value from the main controller and to display a temperature and humidity value digitally on a large screen; A main controller which controls each component, supplies power required for the operation of the main display unit and the sensor unit, compares the set temperature and humidity values with the temperature and humidity values inputted through the sensor unit, and generates an audible alarm when outside the set range. , Connected to the main controller temperature and humidity monitoring system, such as an exchange room including a PC that receives, displays, stores and documents the temperature and humidity value from the main controller. The method of claim 1, wherein the temperature and humidity value displayed on the large screen of the main display unit, Temperature-humidity monitoring system of the exchange room, characterized in that the temperature and humidity of the plurality of sensor parts is the highest temperature and humidity sensor. The temperature and humidity monitoring system according to claim 1 or 2, wherein the temperature and humidity value displayed on the large screen of the main display unit is flickered when it is out of the range of the temperature and humidity value set by the main controller. The method according to claim 1, wherein the main display unit is composed of a plurality, A temperature and humidity monitoring system such as an exchange room, wherein the main display unit can be set to have an address corresponding to the address of the sensor unit in a 1: 1 manner so that the temperature and humidity values of the sensor unit can be monitored on a large screen of the main display unit.