KR20150068520A - Monitoring Method of Booster Pump System Using A Smart Device - Google Patents

Abstract

The present invention relates to a technique for transmitting a variety of state information of a system to a server by installing a data collecting device of an information and communications field in a booster pump system of an electric/electronic/machinery fields, and monitoring the information in real time through a smart phone and a computer such as a smart phone or tablet. A booster pump system is a system for performing control of ON/OFF or speed of a pump so as to continuously maintain water pressure sensed from a pressure sensor installed in a discharge pipe as large-sized feed equipment such as a high building or a pumping station. Because the booster pump system is mostly installed underground or installed far away, it is not easy to maintain/manage the system, and if a mechanical problem occurs, it is difficult to rapidly and exactly cope with the problem. A monitoring method of the booster pump system using the smart device of the present invention for the foregoing, suggests a method for collecting state information (drive state, problem state, etc.) of the booster pump system by installing the data collecting device in the booster pump system installed to be distributed in several sites and areas so as to transmit the information to a server through the Internet, classifying and arranging the state information of each booster pump system, transmitted to the server, and monitoring a desired system through a web browser of a computer or an app application of a smart device by the user by remote control.

Description

TECHNICAL FIELD [0001] The present invention relates to a monitoring method of a booster pump system using a smart device,

The present invention relates to a booster pump system in an electric / electronic / mechanical field, which is equipped with a data collecting device in an information communication field and transmits various state information of the system to a server and real time monitoring through a smart phone or a pad.

The booster pump system is a system that performs speed control and ON / OFF control of the pump to maintain the water pressure sensed from the pressure sensor installed on the discharge pipe as a large water supply facility such as a high building or a pumping station.

Most of these booster pump systems are installed underground or installed far away from each other, so maintenance / management is not easy and it is difficult to respond quickly and accurately when a failure occurs.

Thus, an attempt to monitor the condition of the booster pump system at remote or on the move has been attempted through techniques already filed below.

Patent Application Publication No. 10-1998-0033680 (Aug. 19, 1998) "Booster pump remote control system using public telephone network and method thereof" discloses a booster pump remote control system using a public telephone network and transmits an alarm signal to a central control server So that a plurality of pump devices are sequentially controlled.

Patent Application Laid-open No. 10-2003-0051138 (July 24, 2003) "Pressurized Water Supply Operation Management System" is for grasping the operation state of water supply pumping water supply operation facility using CDMA network, A management server system that provides information on the operation status of a water supply operating facility of a water supply pumping station and stores the information in a database is used to grasp the operation status using a portable wireless communication terminal (PDA) having a built-in CDMA function .

As mentioned above, the prior arts have the following problems to be solved.

First, when a public telephone network is used, a separate modem must be additionally installed, and a separate PSTN server for the service must be developed and operated, resulting in an initial installation cost and maintenance / management cost burden.

Second, when using the CDMA network, a CDMA terminal corresponding to the booster pump system must be installed, and the cost and service fee for using the network are additionally generated through contract with the CDMA provider.

Third, it is difficult to apply to various booster pump systems. Therefore, it is necessary to develop a separate communication interface and program for the system, and it is difficult to apply to a system without communication function.

Fourth, when a public telephone network is used, mobility and portability are not provided because a dedicated program installed in a predetermined terminal (computer) must be used.

Fifth, when CDMA is used, it is difficult for the user to easily monitor the state of the system by simply providing the text service.

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above-

First, DAQ (Data Acquisition Device) with universal input terminal capable of accepting various communication specifications or accepting analog / digital output is provided, So that it can be applied as a cost.

Second, the status of the booster pump system can be graphically monitored through the smartphone or smart pad app application, and the information and history information of the system can be confirmed.

Third, it provides a monitoring service by using a server, manages the users by level, and provides information by linking users related to the booster pump system, thereby facilitating the work and performance management of users who use the service.

Fourth, by managing the fault history occurred in the booster pump system as the date and time of the occurrence, the date and time of release, and the date and time of confirmation, detailed and quantitative management of the system is possible.

Fifth, when a failure occurs in the booster pump system, the server transmits Push Notification service to all related users so that all users related to the booster pump system can respond thereto.

Sixth, the booster pump system provides monitoring by utilizing the Internet of the site where the booster pump system is installed, so that no additional cost is incurred, and only a small fee is paid to utilize the push notification service.

Due to the present invention

First, it is possible to expand the activity area to the manager (field person in charge) who can not concentrate only on the booster pump system due to the diversity of the management area or the object.

Second, we provide the same monitoring service to all users (supplier, seller, A / S person, A / S manager, field owner, field person etc.) related to the booster pump system and provide the same push notification service at low cost in case of malfunction. Therefore, it can be managed more efficiently and effectively.

Third, if the booster pump system fails, the system informs all related users through the server. Therefore, the expert can identify the contents of the fault and respond accurately to the failure.

Fourth, smart devices are used to make information on the system visible at a glance, and the user can easily identify and use the system by using a graphical interface, thereby providing ease of use.

Fifth, it is possible to specify and quantify performance management as well as customer management by managing users through level management of users as well as monitoring information. In addition, it can maximize the efficiency of work by allowing users to manage all the systems they manage.

1 is a view of a booster pump system monitoring service using a smart device.
2 is a block diagram of a booster pump system monitoring method having a communication interface.
3 is a configuration diagram illustrating a method of monitoring a booster pump system equipped with an analog / digital output terminal without a communication interface.
4 is a diagram of a communication packet format that is standardized for the data collecting device to transfer data collected from the booster pump system to the server.
FIG. 5 is a classification chart for managing the users who use the monitoring of the booster pump system at different levels.
FIG. 6 is a diagram illustrating a monitoring service classification of a booster pump system provided through an app application and a computer of a smart device.
7 is a classification diagram for user management provided through an app application of a smart device and a computer.
8 is a classification diagram for system management provided through an app application and a computer of a smart device.
9 is a classification diagram for service management provided through an app application and a computer of a smart device.

The "booster pump system monitoring method using a smart device" of the present invention is a method of monitoring a booster pump system, which is a water supply equipment installed in a place where it is difficult to smoothly supply water using existing waterworks such as a water pressure pumping station for underground people and high- And a method for servicing the data using a data collection device, a server, and a smart device to manage the data.

The "booster pump system monitoring method using a smart device" of the present invention will be described in detail with reference to the drawings.

1 is an embodiment of a booster pump system monitoring method using a smart device.

The data collection device is installed in the installed booster pump system distributed in various sites and areas to collect the status information (operation status, failure status, etc.) of the booster pump system and deliver it to the server via the Internet. The status information of the system is classified and arranged in the database, and the remote user monitors the desired system through the app application of the smart device or the web browser of the computer.

To use the booster pump system monitoring service, first register the user and then register the system.

In the user registration, the manager 401, which is a high-level user, registers the seller A 402 and the seller B 403 as low-level users, and the seller A 402 registers the agent a 406, ), And the seller B (403) registers the agent b (405).

Next, in the system registration, the person in charge at each site registers the booster pump system. At this time, the system in which the lower level user is registered monitors the booster pump system to the upper level user who registers the lower level user.

For example, the booster pump system 1 (101) installed in the site A is associated with the person a 406, the seller A 402, and the manager 401. Therefore, the monitoring service for the booster pump system 1 (101) can be used by the person a 406, the seller A 402, and the manager 401.

When a failure occurs in the booster pump system 1 (101), a notification message is transmitted to the person a 406, the seller A 402, and the manager 401 related to the system through the server.

2 is a block diagram of a booster pump system monitoring method having a communication interface.

A data collecting apparatus 100a having the same communication interface is connected to a booster pump system 100 having an automatic control apparatus 100b having a communication interface,

The state information of the booster pump system is read at a constant interval (1 to 5 seconds) according to the communication protocol of the automatic control device 100b,

The data collecting apparatus 100a analyzes the read data and generates a communication packet 600 for transmission to the server 300, transmits the communication packet 600 to the Internet 200 through the Ethernet module,

Analyzes / classifies / processes the data transmitted to the event server 301 of the server 300 via the Internet 200 and transmits the collected data to the database 302,

The database 302 loads user information, system information, and real-time events (state information sent from the booster pump system)

The API server 303 provides information for user management, system management, service management, and monitoring requested through the app application of the smart device 400 and the web browser of the computer 500,

The server 300 transmits a notification message to the smart device 400 via the Internet 200 by using the API server 303 to inform the failure information of the booster pump system stored in the database 302, Lt; / RTI >

3 is a configuration diagram illustrating a method of monitoring a booster pump system equipped with an analog / digital output terminal without a communication interface.

(100c) that provides the digital state information of the pump state (stop, constant speed operation, speed change operation) and failure state, etc., to the analog / digital output terminal The data acquisition device 100a for providing the analog / digital input terminal of the controller 100a is connected to read the status information,

The data collecting apparatus 100a analyzes the information inputted through the analog / digital input terminal and generates a communication packet 600 for transmission to the server 300, transmits the communication packet 600 to the Internet 200 through the Ethernet module,

Analyzes / classifies / processes the data transmitted to the event server 301 of the server 300 via the Internet 200 and transmits the collected data to the database 302,

The database 302 loads user information, system information, and real-time events (state information sent from the booster pump system)

The API server 303 provides information for user management, system management, service management, and monitoring requested through the app application of the smart device 400 and the web browser of the computer 500,

The server 300 transmits a notification message to the smart device 400 via the Internet 200 by using the API server 303 to inform the failure information of the booster pump system stored in the database 302, Lt; / RTI >

4 is a diagram of a communication packet format that is standardized for the data collecting device to transfer data collected from the booster pump system to the server.

The data collection devices 100a, 101a, 102a, and 103a analyze the status information of the collected booster pump systems 100, 101, 102, and 103

Such as the pressure of the discharge pipe and the suction pipe, the operation rate of the pump, and the rotational speed of the inverter,

The information about the state of the constant speed operation which operates at a speed set by the commercial power supply, the state of the variable speed operation in which the rotation speed is variable by the inverter and the variable speed device, the fault state of each pump,

A block for indicating the start of a packet, a block for indicating a unique address for displaying unique information of the data collecting apparatus, a block for inputting the integer data, a block for inputting bit data, a block for checking errors of such data, A packet is generated in a block informing the end of the packet,

And transmits the generated packet to the server through the Internet using an Ethernet module for transmitting according to the TCP / IP standard.

FIG. 5 is a classification chart for managing the users who use the monitoring of the booster pump system at different levels.

The first user is a first-level user, the first-level user is the top-level user and registers the second-level user, the second-level user registers the third-level user, .

Thus, one high-level user can be created with several low-level users, and the low-level users can be created with multiple low-level users.

This category (category) enables high-level users to manage low-level users and allows all high-level users to be associated and managed by the booster pump system registered by the low-level user.

However, the same level of users can not utilize the user and system information belonging to other same level users.

FIG. 6 is a diagram illustrating a monitoring service classification of a booster pump system provided through an app application and a computer of a smart device.

The monitoring service of the booster pump system provides a list of all the booster pump systems associated with that level of user,

If you select the desired booster pump system from this list, the system information (installation date, installation location, setup pressure, contact person information, data collection device address, etc.) entered while registering the system is displayed, (Fault occurrence time, fault release time, fault confirmation time) can be confirmed by displaying the fault information (operation rate, current pressure, pump operation state, etc.) graphically, The user is prompted to confirm the failure confirmation time.

7 is a classification diagram for user management provided through an app application of a smart device and a computer.

For the user management for the monitoring service of the booster pump system, the user is managed according to the level as shown in FIG. 5,

In the user management, the first person information and the low-level user list are displayed. When the low-level user is added, the level of the user to be registered together with the e-mail, password, name, address and telephone number is determined.

You can modify the information you want to modify by selecting My Information Management.

If a lower level user is selected in the lower level user list, a list of the lower level users of the user with the information on the user can be checked.

8 is a classification diagram for system management provided through an app application and a computer of a smart device.

In the system management for the monitoring service of the booster pump system, all the systems for the registered users below the user level are displayed as a list,

When the system is selected from the booster pump system list, all the low-level users related to the system and the booster pump system are displayed, and can be directly connected through the contact of the low-level user.

However, if you are a higher level user, you can not change the system information registered at the lower level.

If you are a low-level user who can register your system, you can select Add System and enter information about the system (installation date / location, model name, power, pump number, set pressure, control mode, etc.).

9 is a classification diagram for service management provided through an app application and a computer of a smart device.

In using the booster pump monitoring using the smart device, it is possible to select and receive a notification message transmitted when a failure occurs in the booster pump system,

If the monitoring service is provided for a fee, the service period can be displayed, and the server will be notified when the service period expires.

100, 101, 102, 103: Booster pump system
100a, 101a, 102a, 103a: a data collection device mounted on the booster pump system
100b: automatic control device of booster pump system equipped with communication interface
100c: Analog / digital output terminal of booster pump system
200: Internet (network such as LAN, WAN, broadband wireless network)
300: Server (including event server, database, API server)
400: Smart device (smart phone or smart pad, etc.)
401, 402, 403, 404, 405, 406: User (supplier, seller, A / S contact person,
500: computer
600: Communication packet generated by the data acquisition device to send the data collected by the booster pump system to the server

Claims (2)

Connecting a data acquisition device having the same communication interface to a booster pump system having an automatic control device having a communication interface,
The state information of the booster pump system is read at regular intervals according to the communication protocol of the automatic control device,
The data collecting device analyzes the read data and creates a communication packet to transmit to the server, transmits the packet to the Internet through the Ethernet module,
Collects / analyzes / classifies / processes the data transmitted to the event server of the server through the Internet, and transmits it to the database,
The database stores user information, system information, and real-time events (status information sent from the booster pump system)
The API server provides information for user management, system management, service management and monitoring requested through the app application of the smart device,
A notification message of the booster pump system stored in the database is transmitted to the smart device via the Internet using the API server,
In user management, a higher-level user registers several lower-level users, a higher-level user manages a plurality of lower-level user information registered by the higher-level user, and transmits a telephone call, a message, and a mail to a desired lower- And,
In the system management, only the lowest level users can register the system, and information about the system can be checked by all users at the highest level who have registered the lowest level user who registered the system and lower level users, A method of monitoring a booster pump system using a smart device, characterized by displaying information of all users related to the system and transmitting a telephone, a message and a mail to a desired related user,
The system provides analog status information such as the current pressure and operation rate of the booster pump system and the digital status information of the pump operation status (stop, constant speed operation, shift operation) and fault status. A data acquisition device providing a digital input terminal is connected to read status information,
The data collecting device analyzes the information inputted through the analog / digital input terminal and creates a communication packet to transmit to the server, transmits the packet to the Internet through the Ethernet module,
Collects / analyzes / classifies / processes the data transmitted to the event server of the server through the Internet, and transmits it to the database,
The database stores user information, system information, and real-time events (status information sent from the booster pump system)
The API server provides information for user management, system management, service management and monitoring requested through the app application of the smart device,
A notification message of the booster pump system stored in the database is transmitted to the smart device via the Internet using the API server,
In user management, a higher-level user registers several lower-level users, a higher-level user manages a plurality of lower-level user information registered by the higher-level user, and transmits a telephone call, a message, and a mail to a desired lower- And,
In the system management, only the lowest level users can register the system, and information about the system can be checked by all users at the highest level who have registered the lowest level user who registered the system and lower level users, A method of monitoring a booster pump system using a smart device, characterized by displaying information of all users related to the system and transmitting a telephone, a message and a mail to a desired related user,

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