KR20040036321A - Digital temperature and humidity alarm system and method - Google Patents

Abstract

PURPOSE: A digital temperature and humidity alarm system and its method are provided to make a database by collecting data measured in a temperature and humidity measurement device and to generate an alarm when the measured data deviates from a reference value. CONSTITUTION: According to the digital temperature and humidity alarm system(1000), a number of temperature and humidity measurement devices(100a,100b,...,100z) are connected to a temperature sensor and a humidity sensor and collect measured data and then display them and transfer the measured data to a path. A main apparatus(200) is connected to the temperature and humidity measurement devices respectively, and receives the measured data from the measurement devices and then calculates them, and stores the calculated data in a memory area, and controls to transmit the stored data to a path, and comprises a temperature and humidity set function and an alarm function and a display function. And a display apparatus(300) is connected to the main apparatus and displays the temperature and humidity measured data visually. And a PC(400) is connected to the main apparatus and makes a database by receiving the measured data, and provides a user interface function of checking and searching and managing the measured data through a dedicated program.

Description

Digital temperature and humidity alarm system and method

The present invention relates to a digital temperature and humidity alarm system and method, and more particularly, to the temperature of a specific work room (eg, computer room, transmission room, exchange room, unmanned equipment room, precision measurement room, medical equipment room, etc.) sensitive to changes in temperature and humidity. And a digital temperature and humidity alarm system and method for measuring and making a database of humidity and supporting a quick response by generating an alarm when the measured temperature and humidity exceed a reference value.

Continuous monitoring of temperature and humidity in order to ensure the smooth operation of many instruments and electronics in certain workshops sensitive to changes in temperature and humidity (e.g. computer room, transmission room, exchange room, unmanned equipment room, precision measuring room, medical equipment room, etc.) It is necessary to maintain the proper temperature and humidity. In order to measure the temperature and humidity of a specific room, conventionally, analogue temperature and humidity measuring equipments are usually installed in the corresponding space, and the administrator checks and manages the temperature and humidity fluctuations so that the expensive equipment provided in the specific room is incomplete. It is operated to prevent malfunction or failure due to the environment (eg, temperature and humidity above or below the reference value).

However, since the analog temperature and humidity measuring equipment has only a function of measuring the temperature and humidity of a specific space, there is a disadvantage that the follow-up action can be taken only by the administrator's confirmation when an abnormality occurs. In other words, it is difficult to quickly take action because it is not equipped with an alarm function that automatically informs the administrator when an error occurs. In addition, the conventional analog temperature, humidity measuring equipment has a disadvantage in that it is difficult to accurately measure, and the installation and management costs are high because it uses an analog method of poor performance.

In order to improve the shortcomings of the analog temperature and humidity measuring equipment, digital temperature and humidity measuring equipment is disclosed. Digital temperature and humidity measuring equipment can display temperature and humidity measurement value of specific space as digital value, and it can transmit / receive data through serial interface with external device, and set the reference value when it exceeds or falls below the standard value. Implemented to request interrupt handling. By using digital temperature and humidity measuring equipment, it is possible to calculate accurate measurement data compared to analog method, and to make database of measurement data to realize hourly variation of temperature and humidity in a specific space in graph format.

However, in order to accurately measure and analyze the internal environment of a specific space, the function of digital temperature and humidity measuring equipment should be improved, but the accuracy of measuring temperature and humidity is not high yet, and it can be used within a specific range of temperature. Therefore, there is still a problem that can not be utilized in various environments. In addition, since software for quickly and accurately database measurement data on temperature and humidity has not been developed, the measurement mode of the conventional digital temperature and humidity measurement equipment is limited, which makes it difficult to make a database through a computer. In addition, there is still a problem that the alarm function that quickly and accurately informs the administrator of the specific cause of the error when the error occurs is not able to quickly deal with the cause of the error.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the first object of the present invention is to install a temperature, humidity measuring device for measuring the temperature and humidity of a specific work room, Provides digital temperature and humidity alarm system and method to collect and database data measured by temperature and humidity measuring device, and to set reference value to generate alarm when data measured by specific temperature and humidity measuring device is out of standard value. There is.

The second object of the present invention is to provide a convenient user interface that can easily check and manage data by making a database of measured data obtained from a temperature and humidity measuring device and actively utilizing the database data using a specific program. To provide a digital temperature and humidity alarm system and method to support.

The third object of the present invention is to display each measurement data obtained from the temperature and humidity measuring device so that the administrator can easily check, and to support the early detection and action of the temperature and humidity measuring device in case of abnormality. To provide a digital temperature, humidity alarm system and method.

1 is a service diagram showing the overall configuration of a digital temperature, humidity alarm system according to the present invention,

2 is a view showing the external configuration and combined state of the temperature, humidity measuring apparatus according to the present invention,

Figure 3 is a block diagram showing the internal configuration of the temperature, humidity measuring apparatus according to the present invention,

Figure 4a is a front view showing the front of the main unit according to the present invention,

Figure 4b is a rear view showing the back of the main unit according to the present invention,

5 is a block diagram showing an internal configuration of a main device according to the present invention;

6A and 6B are exemplary views illustrating an embodiment of a display apparatus according to the present invention.

7 is a flowchart illustrating the overall operation of the digital temperature, humidity alarm system according to the present invention,

8A is an exemplary diagram of an initial screen of a dedicated program according to the present invention;

8B is an exemplary view of a search screen for each temperature and humidity measurement device according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

100: temperature and humidity measuring device 200: main device

300: display device 400: PC

500: printer 1000: digital temperature, humidity alarm system

In order to achieve the above object, the present invention provides a temperature and humidity alarm system, which is connected to a temperature sensor and a humidity sensor, displays data collected by collecting data measured by a temperature sensor and a humidity sensor, and displays measured data. A plurality of temperature and humidity measuring devices for transmitting to a designated path; It is connected to a plurality of temperature and humidity measuring devices, respectively, and receives and processes temperature and humidity measurement data transmitted from temperature and humidity measuring devices, stores the processed data in a memory area, and periodically stores the stored data. Temperature and humidity setting function to control transmission to designated path and set effective measuring range of temperature and humidity for temperature and humidity measuring device, alarm function to notify the fact that measured data is out of effective measuring range A main device having a display function of displaying the current state of the humidity measuring devices and the current temperature and humidity; A display device connected to the main device and visually displaying temperature and humidity measurement data applied from the main device; And a PC that is connected to the main device, receives and converts the temperature and humidity measurement data transmitted from the main device into a database, and provides a user interface function for checking, retrieving and managing the measured data received through a dedicated program. It is characterized by.

In addition, the present invention, in the temperature and humidity alarm method, by measuring the temperature and humidity of a specific space through the temperature and humidity measuring devices connected to the temperature sensor and the humidity sensor, receiving and storing the measured temperature, humidity data and Displaying and transmitting the periodically measured temperature and humidity data in a designated path; Receives measured temperature and humidity data through the main unit that controls the humidity measuring device, which is connected to the temperature and humidity measuring device, and stores and displays the received temperature and humidity data. Setting and storing a value, comparing the received temperature and humidity data with a stored reference value, generating an alarm when the reference value deviates, and periodically transmitting the stored temperature and humidity data through a designated path; And a database of temperature and humidity data transmitted from the main device, and checking, retrieving, and managing temperature and humidity data through a dedicated program.

Hereinafter, preferred embodiments of the digital temperature and humidity alarm system and method according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a service diagram showing the overall configuration of the digital temperature, humidity alarm system 1000 according to the present invention, the alarm system 1000 is a plurality of temperature, humidity measuring apparatus (100a, 100b, ..., 100z), The main device 200, the display device 300, the PC 400 and the printer 500 are configured to be included.

Each temperature and humidity measuring device (100a, 100b, ‥‥, 100z) is connected to a temperature sensor and a humidity sensor, collect the data measured by the temperature sensor and the humidity sensor to display the collected data to the outside and It serves to deliver data to an external device (that is, the main device 200 to be described later). Each temperature and humidity measuring device (100a, 100b, ..., 100z) is installed in a specific space to measure the temperature and humidity, respectively, the distinction of each temperature, humidity measuring device (100a, 100b, ..., 100z) You can specify a specific address for this. Therefore, each of the temperature and humidity measuring devices 100a, 100b, ..., 100z must be provided with an address selection switch for specifying an address. Temperature measurement range of each temperature and humidity measuring device (100a, 100b, ..., 100z) is 1 ~ 99.19 ℃, humidity measurement range is 1 ~ 99.1%, temperature effective measurement range is 10 ~ 30 ℃, humidity effective measurement It is preferable to set the range to 10 to 80%. The external and internal configurations of the temperature and humidity measuring apparatuses 100a, 100b, ..., 100z will be described later in detail with reference to FIGS. Here, the temperature and humidity measuring devices (100a, 100b, ..., 100z) is shown as implemented as a separate device, it can be implemented in the exchanger or computer equipment, etc., implemented in a PDA form measured temperature and Of course, the humidity data can be implemented to be displayed on its own and transmitted to the outside.

The main device 200 is connected to the temperature and humidity measuring devices 100a, 100b, ..., 100z, and the data transmitted from each of the temperature, humidity measuring devices 100a, 100b, ..., 100z. That is, the current temperature and humidity data measured by the temperature and humidity measuring device) is received and processed, the calculated data is stored in the memory area, and the stored data is periodically transmitted to the PC 400. In addition, the main device 200 may set the temperature, humidity setting function to set the effective measurement range of the temperature and humidity (that is, the minimum value and the maximum value of the temperature and humidity to be measured) and the operator when the measured data are out of the effective measurement range. The operator can check the current status (eg, connection, abnormality, etc.) and current temperature and humidity of each temperature and humidity measuring device (100a, 100b, ..., 100z) and the alarm function to inform the fact. It has a display function to support it. Therefore, a plurality of switches (for example, low and high value up / down switches, mode selection switches, alarm on / off switches, etc.) for implementing such temperature and humidity setting functions, alarm functions, and display functions should be provided. The external and internal configuration of the main device 200 will be described in detail later with reference to FIGS. 4A, 4B and 5.

The display device 300 is connected to the main device 200 and serves to externally display temperature and humidity measurement data applied from the main device 200 so that an operator can easily check each temperature and humidity measurement device. To perform. Here, the display device 300 may be implemented in various ways according to the display type (eg, FND, LCD, VFD (Vacuum Fluorescent Display), dot mattress type), and the operator easily measures each temperature and humidity device 100a. , 100b, ‥‥, 100z) to support the current temperature and humidity. Therefore, the display device 300 is a display means (for example, THF-2002, THF8- in the present invention) that allows the operator to check the current temperature and humidity of the respective temperature, humidity measuring devices (100a, 100b, ..., 100z) 2002).

PC 400 is connected to the main unit 200, and receives and database the measurement data on the temperature and humidity periodically transmitted from the main unit 200, and easily process and manage the received measurement data ( For example, editing and outputting analog data and digital data). Therefore, it is preferable that a PC program (for example, TempHum2.0) for performing a user interface function is installed in the PC 400 and has a printer 500 for data output. In addition, a communication network (for example, a LAN) capable of communicating with another PC or the like may be provided so as to exchange data.

In the exemplary embodiment of the present invention, the main device 200 and the PC 400 of FIG. 1 are implemented as separate devices, but the PC 400 may perform the functions of the main device 200 in the PC 400. It is obvious to those skilled in the art that the main device 200 can be built in.

2 is a view showing the external configuration and combined state of the temperature, humidity measuring apparatus 100 according to the present invention.

The main temperature and humidity measuring apparatus 100 includes a main body 110, a temperature display unit 120a for displaying a current temperature, a humidity display unit 120b for displaying a current humidity, and an address display unit 120c for displaying a specified address. And first, second and third connection ports 130a, 130b and 130c for connecting to an address selection switch 125 for specifying an address, a temperature sensor 132, a humidity sensor 134, and a main device 200. ) Is configured to include. In the embodiment of the present invention, the temperature, humidity measuring apparatus 100 and the temperature sensor 132 is connected by a 2-pin connector 131, the temperature, humidity measuring apparatus 100 and the humidity sensor 134 is 3 Connected by the pin connector 133, the temperature, humidity measuring device 100 and the main device 200 is implemented to be connected by the RS485 9-pin connector 135. Here, the temperature display unit 120a and the humidity display unit 120b use FND (7 segments) capable of displaying three digits (that is, 00.0 to 99.9), and the address display unit 120c uses one digit (eg, ON, In case of connecting up to 8 humidity measuring devices, use FND which can display 0 ~ 7).

The temperature and humidity measuring device 100 is installed in a place where temperature and humidity are to be measured, and the operating power of the temperature and humidity measuring device 100 is supplied through the RS485 9-pin connector 135 connected to the main device 200. do. Pin arrangement (cable connection diagram) of the RS485 9-pin connector 135 used in the present invention is as follows.

PIN number One 2 3 4 5 6 7 8 9 Contents NOT USE RX TX GND GND + 24V + 24V NOT USE NOT USE

3 is a block diagram illustrating an internal configuration of the temperature and humidity measuring apparatus 100 according to the present invention. The temperature and humidity measuring apparatus 100 includes a first key input unit 150 and a first I / O interface unit ( 160, a first CPU 170, a first memory unit 180, and a first display unit 190.

The first key input unit 150 transmits a key signal for designating an address of the temperature and humidity measuring apparatus 100, and presses the address selection switch 125 attached to the front of the temperature and humidity measuring apparatus 100. Specify an arbitrary address. In the present invention, up to eight temperature and humidity measuring devices 100 may be connected to the main device 200. In this case, any one of 0 to 7 may be designated and selected.

The first I / 0 interface 160 adjusts the operation speed and timing of data input / output (eg, input data transmitted from a temperature sensor and a humidity sensor, output data transmitted to a main unit), and controls the format of input / output data. It plays a role of matching.

The first CPU 170 is connected to the first key input unit 150 and the first I / O interface unit 160 and transferred from the first key input unit 150 and the first I / O interface unit 160. Receives a key signal and a variety of data to be processed and performs a role, and overall control of each component to display the processed data to the outside and transmit the data to the outside (that is, the main device 200). . In the present invention, the first CPU 170 uses an Atmel 8bit AT9OS8536 one-chip microprocessor.

The first memory unit 180 is connected to the first CPU 170, mounts a driving program programmed to perform the overall operation of the temperature and humidity measuring apparatus 100, and is applied from the first CPU 170. It stores various data and applies the corresponding data to the first CPU 170 according to the data extraction command of the first CPU 170. The first memory unit 180 of the present invention includes a flash RAM (8k byte), an EEPROM (512 byte), and a RAM (512 byte).

The first display unit 190 is connected to the first CPU 170 and serves to display various data (for example, current temperature and humidity data and address data) transmitted from the first CPU 170 on the corresponding display unit. To perform. The first display unit 190 includes a temperature display unit 120a, a humidity display unit 120b, and an address display unit 120c to display corresponding data.

4A is a front view showing a front surface of the main device 200 according to the present invention, and FIG. 4B is a rear view showing a rear surface of the main device 200 according to the present invention.

As shown in Figure 4a, the main device 200 is provided with a main body 210, the lowest value down / up switch (211, 212) for setting the minimum value of temperature and humidity, various modes (ie, temperature mode, Temperature, humidity and communication mode switches (213, 214, 215) for specifying the humidity mode, communication setting mode), maximum down / up switches (216, 217) for setting the maximum temperature and humidity, and stores the selected mode. Enter switch 218 for returning to the main screen, alarm switch 219 for setting alarm status, volume switch 220 for adjusting alarm size, connection state of each temperature and humidity measuring device, current temperature And a VFD 221 for displaying humidity is disposed in front of the body 210. Here, the minimum down / up switches 211 and 212 are soft keys used as left and right navigation keys for selecting a desired temperature and humidity measuring apparatus 100 in the communication mode, and the maximum down / up switches 216 and 217. ) Is a soft key used as an active switch for selecting whether the corresponding temperature and humidity measuring device 100 is activated in the communication mode.

As shown in FIG. 4B, a rear surface of the main device 210 is connected to a display device (eg, THF-2002, THF8-2002), and a first connection port 222 for transferring data, and a temperature and humidity measuring device. A second connection port 223 for exchanging data by connecting to 100, a third connection port 224 for exchanging data by connecting to a PC 400, and a communication port for performing data communication with an external device; 225, a speaker 226 for outputting an alarm sound, a power input terminal 227 for supplying power, and a fuse holder 228 for fixing a fuse (eg, 220V / 5A) for preventing overcurrent from flowing. And a power switch 229 for switching whether the power is supplied. In the present invention, the first and second connection ports 222 and 223 use an RS485 9-pin port, and the third connection port 224 uses an RS232C 25-pin port. In addition, a power supply input terminal 227 has a built-in fuse (for example, 220V / 0.5A) for preventing overcurrent from flowing. The pin arrangement (cable wiring diagram) of the first and second connection ports 222 and 223 used in the present invention is the same as the pin arrangement (cable wiring diagram) of the RS485 9-pin connector 135 of Table 1, and the third connection port ( 224) uses only three of the 25 pins (ie pin 2: TX, pin 3: RX, pin 7: SG (GND)). However, in order to easily distinguish the first and second connection ports 222 and 223, it is preferable to implement the female and male. In the present invention, the connection between the main device 200 and the temperature and humidity measuring device 100 and the display device 300 uses the RS485 method, but uses infrared (IR) communication and wireless (RF) communication method. Of course it can be exchanged.

5 is a block diagram illustrating an internal configuration of the main device 200 according to the present invention. The main device 200 includes a second key input unit 230, a power supply and an overload protection unit 240, and a second I / The interface unit 250 includes a second interface 250, a second CPU 260, a second memory 270, a second display 280, and an alarm generator 290.

The second key input unit 230 transmits various key signals for instructing the operation of the main device 200. The second key input unit 230 selects various switches (ie, 211 to 220) attached to the front of the main device 200, and selects the desired key signals. Instruct the operation. Description of the operation of each switch (211 to 220) will be described in detail later in the section for explaining the operation of each mode of the main device.

The power supply and overload protection unit 240 supplies power required for the operation of the main device 200 and prevents an overcurrent (eg, 220V / 5A or more) from flowing. The power is supplied through the power input terminal 227, and the overcurrent is prevented by a fuse (not shown) built in the fuse holder 228.

The second I / O interface unit 250 operates speed of input / output data (eg, input data transmitted from the temperature and humidity measuring apparatus 100, output data transmitted to the display apparatus 300 and the PC 400). And adjust the timing and match the format of the input / output data.

The second CPU 260 is connected to the second key input unit 230, the power supply and overload protection unit 240, and the second interface unit 250. The second CPU 260 is connected to the key signal applied from the second key input unit 230. Control the corresponding operation, and receives the power required for operation from the power supply and overload protection unit 240, the power required for the operation of the temperature, humidity measurement apparatus 100 through the second I / O interface unit 250 It supplies and controls the input and output data to perform the overall control of each component to perform the desired operation.

The second memory unit 270 is connected to the second CPU 260, mounts a driving program programmed to perform the overall operation of the main device 200, and stores various data applied from the second CPU 260. And stores the data and applies the data to the second CPU 260 according to the data extraction command of the second CPU 260. The second memory unit 270 of the present invention includes an EEPROM (32k byte) and a nonvolatile SRAM (32k byte).

The second display unit 280 is connected to the second CPU 260 and serves to display various data (for example, current temperature and humidity data) transmitted from the second CPU 260 on the corresponding display unit. The second display unit 190 in the present invention uses a 40 * 2 line VFD.

The alarm generator 290 is connected to the second CPU 260, and when an abnormality occurs, the alarm generator 290 generates an alarm sound for notifying the operator of the abnormality. In the present invention, the alarm sound is output using a buzzer, or an alarm broadcast (for example, the temperature of the 3rd floor transmission room is abnormal) is output by using a voice module, or the current temperature and humidity of the temperature and humidity measuring device where an error occurs. Can be operated to turn on. In addition, a communication network (for example, a LAN) may be used to notify an operator or all connected PCs of an abnormality or, in serious cases, to notify a specific mobile terminal of an abnormality.

In addition, it is implemented to interoperate with a management server (operated by a specific management company) that receives and controls various data stored in a PC through a communication network (eg, LAN, Internet, etc.) to notify the operator in case of an abnormality and notify the situation by itself. It can be operated to collect. Therefore, the operator can quickly and accurately grasp the emergency situation occurring outside the working hours or when leaving the working place, and can take prompt measures.

6A and 6B illustrate exemplary embodiments of the display apparatus 300 according to the present invention. FIG. 6A illustrates THF-2002 and FIG. 6B illustrates THF8-2002 used in the present invention. However, the display device 300 shown in FIGS. 6A and 6B is merely exemplary and includes other display means (eg, LCD, etc.). In general, it is preferable that the THF-2002 is installed in a place where the temperature and humidity measuring device 100 is provided, and the THF-2002 is installed in a place where an operator is located.

Hereinafter, the operation relationship for the digital temperature and humidity alarm system and method according to the present invention will be described in more detail with reference to the accompanying drawings.

7 is a flowchart illustrating the overall operation of the digital temperature, humidity alarm system according to the present invention.

First, the operator connects each device and sets each mode required for a specific operation, such as measurement of temperature and humidity and communication settings (S710). In other words, connect the temperature sensor, humidity sensor and the connector of the main device to each connection port of the temperature and humidity measurement device, and connect the display device, temperature and humidity measurement device, PC, and communication network to each connection port and communication port of the main device. Connect the household power to the power input of the main unit. At the same time the power switch of the main device is turned on, the main device is driven, and the driving power is applied to the temperature and humidity measuring device and the display device. The operator who wants to set the alarm function on the main unit turns on the alarm switch and adjusts the proper volume level using the volume switch.

Next, the operator designates the address of the temperature and humidity measuring device, specifies the use of each temperature and humidity measuring device, and sets the minimum and maximum values of the temperature and humidity for each temperature and humidity measuring device. First, select the communication mode switch, select the temperature and humidity measuring device, and select whether to activate. Selection of the temperature and humidity measuring device is performed using the minimum down / up switches 211 and 212 which are soft keys, and activation of the corresponding temperature and humidity measuring device using the maximum down / up switches 216 and 217 which are soft keys. . For example, if you want to activate the temperature and humidity measurement device of address 3, the operator selects the communication mode switch and moves the cursor to the address area 3 on the display of the main device using the lowest value up switch. Select up switch 217. In the present invention, the lowest value down / up switches 211 and 212 and the maximum value down / up switches 216 and 217 are designated as left / right navigation keys and inactive / active keys, respectively, in the communication mode.

In order to set the minimum and maximum values for the temperature and humidity, the operator selects the corresponding mode switch (ie, the temperature mode switch 213 or the humidity mode switch 214), and the minimum value is the lowest value down / up switch 211. 212), and the maximum value is specified using the maximum down / up switches 216 and 217. In the present invention, in the case of temperature, the minimum and maximum values are set to 10.0 ° C and 30.0 ° C, respectively. In the case of humidity, the minimum and maximum values are set to 10.0% and 80.0%, respectively. Each time the up switches 211 and 212 and the maximum down / up switches 216 and 217 are pressed, they are set to decrease or increase by 1 deg. C, and in the case of humidity, to decrease or increase by 5%. To set the mode, save the value and return to the main screen, select the Enter switch. When the enter switch is selected, the corresponding data for each mode (ie, the lowest value and the maximum value) is stored in the memory unit.

When each mode is set for each temperature and humidity measuring device, each temperature and humidity measuring device measures the temperature and humidity of the site, and displays the measured data on the display of the temperature and humidity measuring device. The data is periodically transmitted to the main device through the first I / O interface unit (S720). The main device receives the transmitted data, controls the display and storage on the corresponding display device, extracts the stored data, and periodically transmits the stored data to the PC through the second I / O interface unit (S730). At the same time, the CPU of the main device compares the transmitted data with a reference value stored in the memory unit (S740) and determines whether the transmitted data is less than or equal to the reference value (S750), and if it is not less than or equal to the reference value (S720). Proceeds to repeating the subsequent steps, and if the reference value is less than or above the control to output a warning sound or warning broadcast (S760).

The data transmitted from the main device to the PC in step S730 is databased by the PC and used as various statistics and management data (S770). In order to utilize the data measured and transmitted by each temperature and humidity measuring device, a dedicated program (eg TempHum2.0) must be installed in the PC. When the dedicated program is installed and executed, the initial screen is displayed as shown in FIG. 8A. As shown in FIG. 8A, the initial screen of the dedicated program displays temperature and humidity setting values, communication settings for each temperature and humidity measuring device, and temperature and humidity measurement values, temperature and humidity state graphs and tables for each time zone. In addition, the dedicated program includes various menus (eg, 'File', 'View Status', 'Search', 'Command', 'Settings', 'Window', 'Help'), and each menu is detailed. Contains items. Therefore, the past and present temperature and humidity data of each temperature and humidity measuring device can be searched or printed in the form of a graph or a table using various menus. You can search and change it. FIG. 8B is an exemplary view of a search screen for each temperature and humidity measuring device, and displays the searched data so that an operator can easily check and database the corresponding data. In addition, it can be operated to display the fact in a dedicated program when an error occurs. The above-described dedicated program (eg, TempHum2.0) is just one example, and of course, various programs can be programmed in different forms.

The digital temperature and humidity alarm system of the present invention can be installed in office buildings, hospitals of hospitals, passenger cars of trains and subways, laboratories, etc. to measure temperature and humidity for each space and to take quick action in case of abnormalities. . In addition, as described above, the digital temperature and humidity alarm system can maintain a 24-hour monitoring system by interworking with a management server.

The above description is only for explaining one embodiment, and the present invention is not limited to the above-described embodiment and can be variously changed within the scope of the appended claims. For example, the shape and structure of each component specifically shown in the embodiments of the present invention may be modified.

As described above, according to the digital temperature and humidity alarm system and method according to the present invention, by measuring the current temperature and humidity of a specific space digitally, and by implementing the measured data so that the operator can easily check, it is possible to quickly It is effective to take action.

In addition, the present invention transfers the measured temperature and humidity data to a PC or the like and makes a database, and utilizes the databased data using a specific program, thereby easily confirming and managing the data (eg, searching and outputting data, Temperature, humidity measurement device and the control of the main device) can be effective to support a convenient user interface.

Claims (5)

In the temperature and humidity alarm system, A plurality of temperature and humidity measuring devices connected to a temperature sensor and a humidity sensor, displaying data collected by collecting data measured by the temperature sensor and humidity sensor, and transferring the measured data to a designated path; Connected to the plurality of temperature and humidity measuring devices, respectively, and receives and processes the temperature and humidity measurement data transmitted from the temperature and humidity measuring devices, stores the processed data in a memory area, and stores the stored data. Is controlled to transmit the path periodically through the designated path, and the temperature and humidity setting function for setting the effective measurement range of the temperature and humidity for the temperature and humidity measurement device, and notifies the fact that the measured data is out of the effective measurement range A main device having an alarm function and a display function of displaying a current state and a current temperature and humidity of the temperature and humidity measuring devices; A display device connected to the main device for visually displaying the temperature and humidity measurement data applied from the main device; And PC that is connected to the main device and provides a user interface function to receive and temperature-control the temperature and humidity measurement data transmitted from the main device, and to check, search and manage the measurement data received through a dedicated program. Digital temperature, humidity alarm system comprising a. The method of claim 1, wherein the respective temperature, humidity measuring devices A first key input unit for transmitting a key signal for designating an address of the temperature and humidity measuring device through an address selection switch attached to the front surface; A first I / 0 interface unit for adjusting an operation speed and timing of input / output data and matching a format of the input / output data; It is connected to the first key input unit and the first I / O interface unit, and receives a key signal and various data transmitted from the first key input unit and the first I / O interface unit, and arithmetic processing, the data processed A first CPU that stores and stores the data externally, and controls each component unit to transmit the data to the main device; A driving program connected to the first CPU and programmed to perform overall operations for temperature and humidity measurement and management, storing various data applied from the first CPU, and extracting data of the first CPU A first memory unit for applying corresponding data to the first CPU according to a command; And And a first display unit connected to the first CPU and displaying the temperature and humidity measurement data and a designated address transmitted from the first CPU. The method of claim 1, wherein the main device A second key input unit including a plurality of switches and applying a key signal transmitted through the switch; A power supply and an overload prevention unit for supplying power necessary for operation and preventing overcurrent from flowing; A second I / O interface unit for adjusting an operation speed and timing of input / output data and matching a format of the input / output data; It is connected to the second key input unit, the power supply and overload protection unit, the second interface unit, and controls the operation corresponding to the key signal applied from the second key input unit, the operation from the power supply and overload protection unit Receives the necessary power, supplies the power necessary for the operation of the temperature and humidity measuring device through the second I / O interface unit, and alarms when the temperature and humidity measurement data applied from the temperature and humidity measuring device deviate from the reference value. A second CPU which collectively controls each component to generate and transmit the temperature and humidity measurement data to the PC; A driving program connected to the second CPU and programmed to perform an overall operation, storing various data applied from the second CPU, and storing the data according to a data extraction command of the second CPU; A second memory unit for applying to two CPUs; A second display unit connected to the second CPU and configured to display various data transferred from the second CPU; And And an alarm generation unit connected to the second CPU and configured to generate an alarm sound or warning broadcast to inform the outside of an abnormality by a control signal applied from the second CPU when an abnormality occurs. , Humidity alarm system. According to claim 1 or claim 3, wherein the main unit is provided with a main body, the lowest value down / up switch for setting the minimum value of temperature and humidity, the temperature, humidity and communication mode switch for specifying various modes, temperature and Maximum down / up switch to set the maximum value of humidity, enter switch to save the selected mode and return to the main screen, alarm switch to set the alarm status, volume switch to adjust the alarm size, angular temperature and humidity measurement A display for displaying the connection status of the device, the current temperature and humidity is arranged in front of the body, A first connection port for connecting data with the display device and transferring data, a second connection port for exchanging data with the temperature and humidity measuring device, a third connection port for exchanging data with the PC; Communication port for data communication with external devices, speaker for outputting alarm sound, power input terminal for supplying power, fuse holder for fixing fuse to prevent over current from flowing and switching power supply A power switch is disposed at the rear of the main body, The minimum down / up switch is used as a left / right navigation key for selecting a specific temperature and humidity measuring device in a communication mode, and the maximum down / up switch is used to select whether the corresponding temperature and humidity measuring device is activated in a communication mode. Digital temperature and humidity alarm system characterized by being used as an active switch. In the temperature and humidity alarm method, Measure temperature and humidity of a specific space through each temperature and humidity measuring device connected to a temperature sensor and a humidity sensor, receive, store and display the measured temperature and humidity data, and periodically measure the measured temperature and humidity data. Transmitting to the designated path; Receive the measured temperature and humidity data through the main device that is connected to the temperature, humidity measuring device for the overall control of the temperature, humidity measuring device, and stores and displays the received temperature, humidity data, the temperature, Setting and storing reference values of humidity measuring devices, comparing the received temperature and humidity data with stored reference values, generating an alarm when the reference values deviate, and periodically transmitting the stored temperature and humidity data to a designated path; And And digitalizing the temperature and humidity data transmitted from the main device, and checking, searching and managing the temperature and humidity data through a dedicated program.