KR20050026445A - Automatic pressure and spot sound transmission device for waterworks - Google Patents

Abstract

An automatic transmission device of pressure and live sound on waterworks is provided to detect position of leak and leakage, and to analyze flow rate by transmitting pressure and live sound wirelessly and automatically managing a system. A pressure transmission device(7) detects a leak range by using pressure difference within blocks and pressure from a pipe, calculates deterioration of the pipe by gaining data and regulate flow rate of water. The pressure transmission device is mounted on a ground(1) or a manhole, and a protection cover(2) is horizontally placed on the ground. Water is passed to a main pipe(22) through a connecting pipe(20), and a valve(19) is mounted. A coupling is replaced with a water hammer preventing unit(17) or a water hammer preventing circulation pipe(18) to monitor pressure or calculate roughness coefficient. A pressure gauge(12) is installed in a connecting T(15), and an acoustic sensor line(14) is connected to the pressure transmission device.

Description

Automatic pressure and spot sound transmission device for Waterworks

The present invention is set by the operator using the stripping battery in the method of receiving the pressure of the water supply and water supply line of the tap water and manually receiving the pressure value and installing the panel to receive the pressure by receiving electricity. It operates at the released time and collects the pressure and transmits it wirelessly to monitor the exact pressure of the pipeline from the central host computer and wirelessly collect the vivid sound of the product and the site for the pressure management of the pipeline, the leakage section and the roughness coefficient calculation. It relates to the accurate sound state and the water pressure state of the pipeline, and the conventional water supply system receives the pressure of the pipeline in the water purification and water supply lines one by one and receives the pressure value manually and installs a panel to transfer electricity by introducing electricity. How to get away from the operation by operating the time set by the operator to collect the pressure wirelessly Transmitting to monitor the correct pressure of the channel in the middle of the host computer intended to manage the pressure and leak interval, roughness of the channel can be calculated in the field, that are blocked can be seen even more highly effective.

The function and effect of the pressure transmitter are as follows.

In the case of the block business, the optimal location is selected by isolating the area and installing a pressure gauge in the isolated state.

The installation of the pressure transmitter is used to calculate the leakage interval using the pressure difference between the pressure transmitters calculated in the block section and the pressure difference in the existing pipeline, and collects a large amount of data per second to improve the aging degree of the pipeline. Calculate up to the maximum approximation of the leak location point, use it as a data for estimating the data to send the proper flow rate, and calculate the roughness coefficient. In addition, the pressure transmitter has a mode for transmitting sound, which is used to listen to the sound of the pipe.If there is not enough data to judge the pressure data, the central host computer can hear the sound from the field pipe. By reading the leak location point and listening to the leak sound, the data is more reliable and used efficiently. Install the mechanism to install the pressure transmitter in the selected place and install the pressure transmitter.

As shown in Fig. 1, the pipe network is irradiated and installed in the ground (1), the pressurized field, the manhole, etc., and the pressurized field or the manhole is the same as the installation method without using the protective cover and the protective container. In the figure, it is protruded circularly, but it is placed horizontally according to the conditions of the site.

As shown in FIG. 1-1 of FIG. 1, the water passing through the main pipe line 22 passes through the connecting pipe 20 so that the valve can be easily attached and replaced without disconnecting the connection T 15 including the pressure transmitter 11. (19), the coupling on the valve (16) can be replaced by the water shock protector (17) to the water shock prevention circulation pipe (18) according to the field data acquisition type, and the water pressure is high when using the water shock protector It is used for pressure monitoring in the state, and when the roughness coefficient is calculated, the coupling or water shock prevention circulation pipe 18 is used depending on the conditions of the site.

Connection T (15) installs a pressure gauge (12) that can be visually checked on-site, and when using the acoustic sensor 13 is installed in the place of the pressure gauge (12), the acoustic sensor line 14 is a pressure transmitter (7) It is connected to the transmission line and the sound generated from the site main line 22 can be an efficient pipe network analysis and the pressure transmitter 11 transmits the value converted from the tack diaphragm diaphragm to the pressure transmitter (7) When power is supplied from the pressure transmission field (7) instead of always being supplied, the data converted from the diaphragm is transferred to the pressure transmission device (7). The data at the beginning and end of the chattering data is deleted and only the values in the middle are transmitted.

In addition, there is no external incoming AC power or solar panel for quick construction and convenience, and the battery is used as the main power source for the efficiency of power and the time control is performed by using the RTC inside the pressure transmitter (7). If the pressure gauge 12 does not operate, the pressure gauge 12 is completely switched, so the current consumption is “0” and it is used only during operation. It can be used for more than 20 years and 30 years depending on the user's request.

The power and signal between the pressure transmitter 11 and the pressure transmitter 7 are connected as a signal cable 10 and the pressure transmitter 7 is fixed on the case holder 9 and in the mode of transmitting external data The antenna extension cable 6 connected to the wireless terminal 51 in the transmission device 7 is used to extend the distance of the deep part, which is penetrated through the iron plate 5 and treated with the connector 4. Connected with

The reason for using the steel plate (5) is to stabilize the communication by increasing the electric field by making the effective wavelength of the antenna, ground and radio waves. (8) to protect the above-listed objects and join between the protection tube (8) and the main line (22) by epoxy (21), concrete, welding according to the size of the main line (22) of the site. The function of the pressure transmitter 7 classifies the power from the power module 50. The input power uses DC9V, supplies stabilized DC5V and DC3V, and the wireless terminal 51 collects the data collected by the internal setting. It is responsible for sending to the wireless network, the external setter 52 adjusts the time of the RTC (54), put the number to be the destination, that is, the destination of the final wireless, and display the unique number of the pressure transmitter (7) on the screen It can be seen that the pressure transmission device (7) of the position shown on the map and sets the number, period, and time of acquiring the pressure data, and also communicates with the external communication means, and set the setting cycle time to the main CPU 53 The main CPU 53 manages all programs.

The memory 55 is a space for storing the collected data. After the data is transmitted, the existing data is continuously maintained until the data is larger than the storage space. When the memory 55 is larger than the memory size, the memory 55 is sequentially deleted from the past data, and the digital inout is performed. ) Is a function to receive digital signal or pulse signal from the outside, record, transmit, and integrate alarm generation.The analog in-out 57 receives the pressure transmitter 11 and the acoustic sensor 13 data, and the pressure transmitter 7 After acquiring the pressure data and the acoustic data by the RTC 54 and collecting the data from the collector / base station 58 and transmitting the data to the central computer, the communication means are classified into three types and the first is the Internet 59 The second mode in which data is transmitted to the central computer 61 through the public communication (60) is a mobile phone network and a data dedicated network. A method of directly transferring data to the central computer 61 in the method of transmitting data using a central computer 61 and the collector / base station (58).

 Enter the number to be the destination of the final radio by setting the time of the RTC 54 in the external setter 52, and display the unique number of the pressure transmitter 7 on the screen, and the number, cycle, and time of acquiring the pressure data. As shown below, Mode 1 saves five pressures per minute every five minutes and then goes to sleep mode after 24 hours and Mode 2 sends five pressures every five minutes every five minutes. Mode 3 sends mode to the wireless host after 24 hours in sleep mode, and mode 2 sends pressure to the wireless host after 24 hours in sleep mode after 2 saves of pressure every 30 seconds for 30 seconds. 24 seconds after every 30 minutes to save two pressures per second for 10 seconds, and then to the wireless host. Mode 5 collects 200 data per second for 3 minutes. Mode 6 transmits data at the time specified by the external setter 52 and mode 6 saves the average value of 1 minute pressure every 10 minutes, and then 24 hours after the sleep mode is transferred to the wireless host. It is a function that transmits data at a specific designated time to a specific destination, and the necessary period, time interval and data quantity are freely set in the external setting device 52.

Accordingly, the present invention for solving the above problems is to select the optimal place by isolating the zone and installing a pressure gauge in an isolated state in the case of the block business.

The installation of the pressure transmitter is used to calculate the leakage interval using the pressure difference between the pressure transmitters calculated in the block section and the pressure difference in the existing pipeline, and collects a large amount of data per second to improve the aging degree of the pipeline. Calculate up to the maximum approximation of the leak location point, use it as a data for estimating the data to send the proper flow rate, and calculate the roughness coefficient. In addition, the pressure transmitter has a mode for transmitting sound, which is used to listen to the sound of the pipe.If there is not enough data to judge the pressure data, the central host computer can hear the sound from the field pipe. By reading the leak location point and listening to the leak sound, the data is more reliable and used efficiently. Install the mechanism to install the pressure transmitter in the selected place and install the pressure transmitter.

As shown in Fig. 1, the pipe network is irradiated and installed on the ground (1) or a pressurized field, a manhole, and the like.

The protective cover (2) can be above or below the surface and protruded circularly in the figure, but it is laid horizontally depending on the site conditions.

As shown in FIG. 1-1, water passing through the main pipe line 22 passes through the connecting pipe 20 so that the valve 19 can be easily attached and replaced without disconnecting the connection T 15 including the pressure transmitter 11. Coupling (16) on the valve can be replaced with water shock protector (17) to water shock prevention circulation pipe (18) according to the field data acquisition type. It is used for pressure monitoring, and when calculating roughness coefficient, the coupling or water shock prevention circulation pipe 18 is used depending on the condition of the site.

Connection T (15) installs a pressure gauge 12 that can be visually checked on-site, and when using the acoustic sensor 13 is installed in place of the pressure gauge 12, the acoustic sensor line 14 is a pressure transmitter (7) It is connected to the transmission and the sound generated in the site main line 22 can be an efficient pipe network analysis and the pressure transmitter 11 transmits the value converted from the diaphragm tack element to the pressure transmitter (7) When power is supplied from the pressure transmission field (7) instead of always being supplied, the data converted from the diaphragm is transferred to the pressure transmission device (7). The data at the beginning and end of the chattering data is deleted and only the values in the middle are transmitted.

In addition, there is no external incoming AC power or solar panel for quick construction and convenience, and the battery is used as the main power source for the efficiency of power and the time control is performed by using the RTC inside the pressure transmitter (7). If the pressure gauge 12 does not operate, the pressure gauge 12 lines are completely switched, so the current consumption is “0” and it is used only for operation. It can be used for more than 20 years and 30 years depending on the user's request.

The power and signal between the pressure transmitter 11 and the pressure transmitter 7 are connected as a signal cable 10 and the pressure transmitter 7 is fixed on the case holder 9 and in the mode of transmitting external data The antenna extension cable 6 connected to the wireless terminal 51 in the transmission device 7 is used to extend the distance of the deep part, which is penetrated through the iron plate 5 and treated with the connector 4. Connected with

The reason for using the steel plate (5) is to stabilize the communication by increasing the electric field by making the effective wavelength of antenna, ground and radio waves. After installation to the antenna, cover the protective cover (2) and install the protective device (3) (8) to protect the above-listed objects and join between the protection tube (8) and the main line (22) by epoxy (21), concrete, welding according to the size of the main line (22) of the site. The function of the pressure transmitter 7 classifies the power from the power module 50. The input power uses DC9V, supplies stabilized DC5V and DC3V, and the wireless terminal 51 collects the data collected by the internal setting. It is responsible for sending to the wireless network, the external setter 52 adjusts the time of the RTC (54), put the number to be the destination, that is, the destination of the final wireless, and display the unique number of the pressure transmitter (7) on the screen It can be seen that the pressure transmission device (7) of the position shown on the map and sets the number, period, and time of acquiring the pressure data, and also communicates with the external communication means, and set the setting cycle time to the main CPU 53 The main CPU 53 manages all programs.

The memory 55 is a space for storing the collected data. After the data is transmitted, the existing data is continuously maintained until the data is larger than the storage space. When the memory 55 is larger than the memory size, the memory 55 is sequentially deleted from the past data, and the digital inout is performed. ) Is a function to receive digital signal or pulse signal from the outside, record, transmit, and integrate alarm generation.The analog in-out 57 receives the pressure transmitter 11 and the acoustic sensor 13 data, and the pressure transmitter 7 After acquiring the pressure data and the acoustic data by the RTC 54 and collecting the data from the collector / base station 58 and transmitting the data to the central computer, the communication means are classified into three types and the first is the Internet 59 The second mode in which data is transmitted to the central computer 61 through the public communication (60) is a mobile phone network and a data dedicated network. A method of directly transferring data to the central computer 61 in the method of transmitting data using a central computer 61 and the collector / base station (58).

Enter the number to be the destination of the final radio by setting the time of the RTC 54 in the external setter 52, and display the unique number of the pressure transmitter 7 on the screen, and the number, cycle, and time of acquiring the pressure data. As shown below, Mode 1 saves five pressures every 1 minute and then sends it to the wireless host after 24 hours of sleep mode and Mode 2 saves five pressures every 5 seconds every minute. Mode and mode 3 transmits sleep mode to the wireless host after 24 hours, and saves two pressures every 30 minutes per second for 30 seconds, then mode 24 transmits sleep mode to the wireless host after 24 hours. The mode sends pressure to the wireless host every 24 minutes after two saves per second for 10 seconds, and then sends it to the wireless host for 24 seconds. Mode 5 collects 200 data per second for 3 minutes. Then, the mode and the mode 6 to transmit the data at the time specified by the external setter 52, the data collected by transmitting to the wireless host 24 hours after the sleep mode after one save the average value of 1 minute pressure every 10 minutes Is a function for transmitting data at a specific designated time to a specific destination, and the period, time interval and data quantity required by the external setting unit 52 are freely set. This is a very large task to apply power to the site, which results in an efficient control system.

In addition, once the operation is completed, all the power is stopped and only the power of the control unit enters the sleep state, the system is in the sleep mode standby state, and waits for the next return time.

In this case, entering the sleep state means that the power supply runs out of 5㎛ or less, which is generally lower than the case when the product runs out of power in a time when it does not operate in time. Has achieved low power.

In the mode to monitor at the central host arbitrarily, the control unit itself controls the power of the controller at the date and time designated by the program, and the command reception standby state is one hour at a predetermined time. If it is running and there is no command, it will go back to sleep mode after the specified time has elapsed.

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment of this invention is described based on an accompanying drawing.

Figure 1 shows the overall configuration of the automatic water pressure and on-site sound transmission apparatus of the present invention.

As shown in Fig. 1, the pipe network is irradiated and installed on the ground (1) or a pressurized field, a manhole, and the like.

The protective cover (2) can be above or below the surface and protruded circularly in the figure, but it is laid horizontally depending on the site conditions.

As shown in Fig. 1-1, the water passing through the main pipe line 22 passes through the connecting pipe 20 so that the valve 19 can be easily attached and replaced without disconnecting the connection T 15 including the pressure transmitter 11. Coupling (16) on the valve can be replaced with water shock protector (17) to water shock prevention circulation pipe (18) according to the field data acquisition type. It is used for pressure monitoring, and when calculating roughness coefficient, the coupling or water shock prevention circulation pipe 18 is used depending on the condition of the site.

Connection T (15) installs a pressure gauge 12 that can be visually checked on-site, and when using the acoustic sensor 13 is installed in place of the pressure gauge 12, the acoustic sensor line 14 is a pressure transmitter (7) It is connected to the transmission line and the sound generated from the site main line 22 can be an efficient pipe network analysis and the pressure transmitter 11 transmits the value converted from the tack diaphragm diaphragm to the pressure transmitter (7) When power is supplied from the pressure transmission field (7) instead of always being supplied, the data converted from the diaphragm is transferred to the pressure transmission device (7). The data at the beginning and end of the chattering data is deleted and only the values in the middle are transmitted.

In addition, there is no external incoming AC power or solar panel for quick construction and convenience, and the battery is used as the main power source for the efficiency of power and the time control is performed by using the RTC inside the pressure transmitter (7). If the pressure gauge 12 does not operate, the pressure gauge 12 is completely switched, so the current consumption is “0” and it is used only during operation. It can be used for more than 20 years and 30 years depending on the user's request.

The power and signal between the pressure transmitter 11 and the pressure transmitter 7 are connected as a signal cable 10 and the pressure transmitter 7 is fixed on the case holder 9 and in the mode of transmitting external data The antenna extension cable 6 connected to the wireless terminal 51 in the transmission device 7 is used to extend the distance of the deep part, which is penetrated through the iron plate 5 and treated with the connector 4. Connected with

The reason for using the iron plate (5) is to stabilize the communication by increasing the electric field by making the effective wavelength of the antenna, ground and radio waves. (8) to protect the above listed items, and between the protection tube (8) and the main line (22) by the epoxy (21), concrete, welding according to the size of the main line (22) of the site.

Figure 2 shows the board configuration of the present invention as a function of the pressure transmitter (7) to classify the power from the power module 50, the input power supply using a DC9V and supply a stabilized DC5V and DC3V wireless terminal ( 51) is responsible for sending the data collected by the internal setting to the wireless network, the external setter 52 adjusts the time of the RTC (54), put the number to be the destination, that is, the destination of the final radio, pressure The transmission device 7 displays the unique number on the screen and it can be seen that it is the pressure transmission device 7 at the position shown on the map. It sets the number, period, and time of acquiring pressure data, and also communicates with external communication means The main CPU 53 is informed of the setting cycle time and the main CPU 53 manages all programs.

The memory 55 is a space for storing the collected data. After the data is transferred, the existing data is continuously maintained until the existing data is larger than the storage space. When the memory 55 is larger than the memory size, the memory 55 is sequentially deleted from the past data, and the digital in-out is performed. ) Is a function to receive digital signal or pulse signal from the outside, record, transmit, and integrate alarm generation.The analog in-out 57 receives the pressure transmitter 11 and the acoustic sensor 13 data, and the pressure transmitter 7 After acquiring the pressure data and the acoustic data by the RTC 54 and collecting the data from the collector / base station 58 and transmitting the data to the central computer, the communication means are classified into three types and the first is the Internet 59 The second mode in which data is transmitted to the central computer 61 through the public communication 60 is used to establish a connection between the cellular phone network and the data dedicated network. To transfer the data from the collector / base station 58 to the central computer 61 directly.

Enter the number to be the destination of the final radio by setting the time of the RTC 54 in the external setter 52, and display the unique number of the pressure transmitter 7 on the screen, and the number, cycle, and time of acquiring the pressure data. As shown below, Mode 1 saves five pressures per minute every five minutes and then goes to sleep mode 24 hours later and Mode 2 sends five pressures every five minutes every five minutes. Mode 3 sends mode to the wireless host after 24 hours of sleep mode, and mode 2 sends pressure to the wireless host after 24 hours of sleep mode after 2 saves of pressure every 30 seconds for 30 seconds. Every 30 minutes, two pressures per second for 10 seconds, save 24 seconds after the sleep mode, and Mode 5 sends 200 data per second in 3 minutes time Mode 6 transmits the data at the time specified by the setter 52 and mode 6 saves the average value of 1 minute pressure every 10 minutes, and then goes to sleep mode 24 hours later, and then collects the data to the wireless host. It is a function that transmits data at a specific designated time to the destination, and the necessary period, time interval and data quantity are freely set in the external setting device 52. This is an efficient control system because the work to apply power to the site is quite large.

In addition, once the operation is completed, all the power is stopped and only the power of the control unit enters the sleep state, the system is in the sleep mode standby state, and waits for the next return time.

Here, entering the sleep state means that the exhaustion of the power supply consumes less than 5㎛ power supply. This means that the power part is reduced due to the low power consumption of the product compared to the case where the general product consumes a lot of power during the time when it does not work. Has achieved low power.

In the mode to monitor at the central host arbitrarily, the control unit itself controls the power of the controller at the date and time designated by the program, and the command reception standby state is one hour at a predetermined time. If it is running and there is no command, it will go back to sleep mode after the specified time has elapsed.

As described above, the present invention is an external power stripping method in which a person receives the pressure in a pipeline of water supply and water supply lines of waterworks and receives a pressure value manually by installing a panel and a method of receiving electricity by introducing electricity by installing a panel. It does not require a device, and it can automatically listen to the pressure and site by automatically managing it wirelessly, so it is possible to obtain effective data for flow rate analysis by identifying leak location, leak status and water pressure.

1 is a block diagram showing the means of the automatic pressure and field sound transmission apparatus of the present invention,

Figure 2 is a block diagram of the automatic pressure and field sound transmission device in the present invention.

※ Explanation of code for main part of drawing

1: road surface 2: protective cover

3: view device 4: antenna

5: Iron plate 6: Antenna extension cable

7: pressure transmitter 8: protective tube

9: signal cable 10: pressure transmitter

11: pressure gauge 12: pressure gauge

13: Sound sensor 14: Sound sensor line

15: Connection T 16: Coupling

17: water shock prevention device 18: water shock prevention circulation pipe

19 valve 20 connection pipe

21: epoxy 22: main pipe

50: power module 51: wireless terminal

52: external setter 53: main CPU

54: RTC 55: Memory

56: digital inout 57: analog inout

58: collector / base station 59: internet

60: public communication 61: central computer

Claims (10)

 The installation of the pressure transmitter is used to calculate the leakage zone using the pressure difference between the pressure transmitters calculated in the block section and the leakage difference using the pressure difference in the existing pipeline, and collects a large amount of data per second to improve the aging degree of the pipeline. Calculate up to the maximum approximation of the leak location point, use it as a data for estimating the data to send the proper flow rate, and calculate the roughness coefficient. According to claim 1, the pressure transmitter has a mode for transmitting the sound is used when you want to listen to the sound of the pipe, when the lack of data that can be judged by the pressure data in the center of the sound generated in the pipeline It can be heard from the host computer, so it can be used efficiently because the data can be more reliable by reading the leak point and listening to the leak sound. Install the mechanism to install the pressure transmitter in the selected place and install the pressure transmitter. The pressure transmitter is installed on the ground (1), pressurized field, manhole, etc., and the protective cover (2) can be above or below the surface and protruded in a circle in the figure, but it is horizontal according to the conditions of the site. Release. As shown in FIG. 1-1 of FIG. 1, the water passing through the main pipe line 22 passes through the connecting pipe 20 so that the valve can be easily attached and replaced without disconnecting the connection T 15 including the pressure transmitter 11. (19), the coupling on the valve (16) can be replaced by the water shock protector (17) to the water shock prevention circulation pipe (18) according to the field data acquisition type, and the water pressure is high when using the water shock protector It is used for pressure monitoring in the state, and when calculating the roughness coefficient, a coupling or water shock prevention circulation pipe 18 is used depending on the site conditions. Connection T (15) installs a pressure gauge 12 that can be visually checked on-site, and when using the acoustic sensor 13 is installed in place of the pressure gauge 12, the acoustic sensor line 14 is a pressure transmitter (7) It is connected to the transmission line and the sound generated from the site main line 22 can be an efficient pipe network analysis and the pressure transmitter 11 transmits the value converted from the tack diaphragm diaphragm to the pressure transmitter (7) When power is supplied from the pressure transmission field (7) instead of always being supplied, the data converted from the diaphragm is transferred to the pressure transmission device (7). The data at the beginning and end of the chattering data is deleted and only the values in the middle are transmitted. 4. The method of claim 3, wherein the battery is used as a main power source for time control using an RTC inside the pressure transmitter 7, and when the pressure gauge 12 is not operated, the pressure gauge 12 is completely switched over, so that the current consumption is “0”. It is used only when it operates, and it is designed by the battery unit every year, and it can be used for 10 years or more, and 20 or 30 years or more depending on user's request. 5. The power supply and signal between the pressure transmitter (11) and the pressure transmitter (7) is connected as a signal cable (10), and the pressure transmitter (7) is fixed on the case support (9) and externally. In the data transmission mode, the antenna extension cable 6 connected to the wireless terminal 51 in the pressure transmission device 7 is used to extend the distance of the deep part, which penetrates the iron plate 5 to the connector. It is connected to the processed antenna 4. The reason for using the iron plate (5) is to stabilize the communication by increasing the electric field by making an efficient wavelength of the antenna, ground and radio waves, and cover the protective cover (2) after installation to the antenna (3) and protect the above listed objects with a protective tube (8) and join between the protective tube (8) and the main line (22) by epoxy (21), concrete, welding according to the size of the main line (22) of the site. . The method of claim 6, wherein the function of the pressure transmitter (7) is to classify the power in the power module 50, the input power supply uses a DC9V, supplies a stabilized DC5V and DC3V and the wireless terminal 51 is set internally It is responsible for sending the data collected by the wireless network and the external setter 52 adjusts the time of the RTC (54) and put the number to be the destination, that is, the destination of the final radio, the pressure transmission device (7) The unique number is displayed on the screen, and it can be seen that it is the pressure transmitter (7) at the position shown on the map. It sets the number, cycle, and time of acquiring pressure data, and also communicates with external communication means. ) Informs the setting cycle time and the main CPU 53 manages all programs. The method of claim 7, wherein the memory 55 is a space for storing the collected data, and after the data is transferred, the existing data continuously maintains the data until it is larger than the storage space. Digital in-out (56) is a function of recording, transmitting, and integrating an alarm occurrence by receiving a digital signal or a pulse signal from the outside, and the analog in-out (57) receives a pressure transmitter (11) and an acoustic sensor (13) data. The pressure transmitter 7 wakes up by the RTC 54 to acquire pressure data and sound data. 10. The apparatus according to claim 8, wherein the means for collecting data from the collector / base station 58 and transferring the data to the central computer after acquiring the pressure data and the acoustic data are classified into three types, the first of which is centralized through the Internet 59. The second mode in which data is transmitted to the computer 61 is a method of transmitting data to the central computer 61 using a mobile phone network and a data-only network using public communication 60 and directly from the collector / base station 58. There is a method of transmitting data to the central computer 61. 10. The unique setting number of the pressure transmitter 7 is displayed on the screen by inputting a number to be the destination of the final wireless radio by setting the time of the RTC 54 in the external setter 52. Mode 1 sets up the number of acquisition, period and time as below. Mode 1 sends five pressures per minute and saves sleep mode after 24 hours. Then Mode 2 sends pressure to wireless host every 24 minutes. Five saves per second after 24 hours of being in sleep mode, and Mode 3 sends pressure to the wireless host every 30 minutes after two saves per second for 30 seconds after 24 hours of being in sleep mode. Mode 4 and Mode 4 send pressure to the wireless host every 24 minutes after two saves per second for 10 seconds and after 24 hours, and Mode 5 can be decoded at 1 second for 3 minutes. Mode 6 transmits the data at the time specified by the external setter 52 after collecting 200 data, and mode 6 transmits the average value of 1 minute pressure every 10 minutes to the wireless host 24 hours after the sleep mode is saved. The data collected by the method is a function of transmitting data at a specific designated time to a specific destination, and the period, time interval and data quantity required by the external setting device 52 are freely set. This is an efficient control system because the work to apply power to the site is quite large. In addition, once the operation is completed, all the power is stopped and only the power of the control unit enters the sleep state, the system is in the sleep mode standby state, and waits for the next return time. Here, entering the sleep state means that the exhaustion of the power supply consumes less than 5㎛ power supply. This means that the power part is reduced due to the low power consumption of the product compared to the case where the general product consumes a lot of power during the time when it does not work. Has achieved low power. Enter the number to be the destination of the final radio by setting the time of the RTC 54 in the external setter 52, and display the unique number of the pressure transmitter 7 on the screen, and the number, cycle, and time of acquiring the pressure data. As shown below, Mode 1 saves five pressures every 1 minute and then sends it to the wireless host after 24 hours of sleep mode and Mode 2 saves five pressures every 5 seconds every minute. Mode 3 sends mode to the wireless host after 24 hours in sleep mode, and mode 2 sends pressure to the wireless host after 24 hours in sleep mode after two pressures are saved every 30 seconds for 30 seconds. Mode 2 sends pressure to the wireless host every 24 minutes after two saves per second for 10 seconds and then goes to sleep 24 hours, and Mode 5 receives 200 data per second for 3 minutes. Mode 6 and the mode 6 to transmit data at the time specified by the external setter 52, the data collected by transmitting to the wireless host 24 hours after the sleep mode after one save the average value of 1 minute pressure every 10 minutes Is a function for transmitting data at a specific designated time to a specific destination, and the period, time interval and data quantity required by the external setting unit 52 are freely set. This is a very large task to apply power to the site, which results in an efficient control system. In addition, once the operation is completed, all the power is stopped and only the power of the control unit enters the sleep state, the system is in the sleep mode standby state, and waits for the next return time. Here, entering the sleep state means that the exhaustion of the power supply consumes less than 5㎛ power supply. This means that the power part is reduced due to the low power consumption of the product compared to the case where the general product consumes a lot of power during the time when it does not work. Has achieved low power.