KR200363893Y1 - Total unmanned management system for provisional water supply facilities - Google Patents

Abstract

The present invention systematically and efficiently manages the Gansu water supply system spread over a large area to supply clean drinking water at low cost, thereby promoting the welfare of the residents and preventing unnecessary loss of public service of local governments. The present invention relates to an unmanned integrated management system of an intermittent water supply facility that can increase administrative management efficiency.

The present invention includes a transmission device for transmitting data of the operation state of the facility device, and an imaging device for imaging the state of the facility device for transmission; A wireless transmission / reception modem for transmitting data transmitted from the intermittent abnormality, a data transmission module installed within a predetermined distance from the wireless transmission / reception modem to receive and encoding data, and to receive and store data through the data transmission module. A management company server and an administrative agency server interworking with the management company server; Characterized in that the receiver of the site manager to be notified when the facility abnormalities of the liver abnormal water from the management company server is abnormally operated.

Description

Unmanned Integrated Management System for Liver Water Supply Facility {TOTAL UNMANNED MANAGEMENT SYSTEM FOR PROVISIONAL WATER SUPPLY FACILITIES}

The present invention relates to an unmanned integrated management system of a liver abnormal water supply facility. More specifically, it is possible to supply clean drinking water at low cost by systematically and efficiently managing the liver abnormal water supply scattered in a large area, thereby promoting the health welfare of the residents. It is about unmanned integrated management system of Gansu water supply facility which can promote not only the loss of unnecessary public service of local governments but also the efficiency of public administration.

Water resources, including Gansu water, are very important resources of the country. They are developed with the public in mind, and the various factors such as economic feasibility will be judged, and plans, construction and management will be conducted after a long period of review.

The above-mentioned water supply facility is a very important facility that has a wide range of installation and is responsible for the health of the residents living in the mountainous regions, so if a problem occurs in the facility, a system that can be remotely monitored and controlled can be detected and acted upon immediately. It is required.

Accordingly, Korean Patent Publication No. 2002-0091418 provides safe and efficient remote control and management of water supply facilities, provides general users with the services they want, and gives administrators the status of water supply facilities while maintaining security. In order to reduce the number of personnel and expenses by enabling real-time inspection and management at a remote location, a design of the invention entitled "Waterworks Operation and Management System" is disclosed.

The disclosed invention is a field system having a local monitoring control server and a communication server to extract the state information of the water supply facility, and remotely controlled by the control data input by the administrator, and a web page that can provide information to the general user And a central management system having a central server for transmitting the control data of the administrator to the field system, an administrator system having security means for authenticating the administrator, and a user system that can access the central management system. do.

However, hundreds of GNSS per unit administrative district realistically exceeds the manager's scope of management, and since GNSS facilities are installed in remote mountains, it is not easy to access, which makes it difficult to manage and improper management. have.

On the other hand, the liver abnormal water supply is very complex and diverse, such as valley water, spring water, ground water, river water, etc. need professional management. In particular, in the case of the Gansu water supply, since the location of the facility is located in a mountainous area, many site managers have been selected as non-expert villagers, which raises many problems in management. The system disclosed in Patent Publication No. 2002-0091418 is a fundamental problem. Can not be solved.

The present invention is to solve the above problems, the object of the present invention is to monitor the water supply site situation by unmanned wired / wireless imaging device located in the mountainous backcountry unmanned, and overcome the environmental requirements, The unmanned integrated management system of Gansu water supply facilities, which can maximize the efficiency of management by checking the operation status of various subsidiary facilities and water quality analysis values in real time, and by networking each water supply source to be the control center of the unit administrative district. To provide.

In addition, by remotely controlling each device in the abnormal abnormal water supply facilities and sending an alarm to the control station and site manager in the event of a problem in the abnormal abnormal water supply facilities, it is possible not only to respond immediately but also to manage the current management situation from the point of development of the water supply source. It is to provide an unmanned integrated management system of Gansu water supply facilities that is easy to inquire, search and analyze various current status by analyzing current status and water quality status by region, cause, seasonal analysis and tracking of water quality trend.

1 is a schematic configuration diagram of an unmanned integrated management system of a liver water supply facility according to an embodiment of the present invention,

Figure 2 is a database of the management company server of the unmanned integrated management system of the liver water supply facilities according to an embodiment of the present invention,

Figure 3 is a schematic diagram of a simplified water supply facility according to an embodiment of the present invention,

4 is a screen configuration diagram showing a table of contents of an unmanned integrated management system of a simple abnormal water supply facility according to an embodiment of the present invention;

5A and 5B are screen configuration diagrams showing a distribution diagram of an unmanned integrated management system of a simple abnormal water supply facility according to an embodiment of the present invention;

6A and 6B are screen configuration diagrams showing the present situation of the abnormal water supply system of the unmanned integrated management system of the liver water supply facility according to an embodiment of the present invention,

7a to 7c is a screen configuration diagram showing the current state of the facility of the unmanned integrated management system of the liver water supply facility according to an embodiment of the present invention,

8 is a screen configuration diagram showing the current state of maintenance of the unmanned integrated management system of the liver water supply facilities according to an embodiment of the present invention,

9a and 9b are screen configuration diagrams for monitoring the operation state of the unmanned integrated management system of the liver abnormal water supply facilities according to an embodiment of the present invention,

10A and 10B are screen configuration diagrams showing water quality analysis information of an unmanned integrated management system of a liver abnormal water supply facility according to an embodiment of the present invention;

11A to 11C are screen configuration diagrams showing variations of analysis items of an unmanned integrated management system of an abnormal water supply facility according to an embodiment of the present invention;

12A and 12B are screen configuration diagrams illustrating transmission alarms of an unmanned integrated management system of a simple abnormal water supply facility according to an embodiment of the present invention;

13A to 13I are screen configuration diagrams showing an example of processing of each data of the unmanned integrated management system of a simple abnormal water supply facility according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: management company server 110: general status DB

120: status DB 130: status DB

140: water quality and analysis status DB 150: alarm setting control status DB

200: administrative agency control server 210: communication company

230: independent data transmission module 240: multiple data transmission module

261 ~ 264: Liver abnormality 271 ~ 274: Field manager receiver

300: raw water 310: water intake pump

312: wireless water level controller 314: level gauge

316: video camera 318: chemical injection machine

320: residual chlorine measuring instrument 322: thermometer

324: electrical conductivity meter 326: pH meter

328: Turbidity meter 330: Nitrate nitrogen meter

332: water filter 340: water tank

350: village 360: transmission modem

The present invention is an unmanned integrated management system of liver abnormal water, which manages a plurality of liver abnormal water at the same time by grasping the water quality state and the operation state of facility devices in real time through a water quality meter installed in the liver abnormal water supply. A transmission device for transmitting data of a state, and an image device for imaging and transmitting the state of the facility device; A wireless transmission / reception modem for transmitting data transmitted from the intermittent abnormality, a data transmission module installed within a predetermined distance from the wireless transmission / reception modem to receive and encoding data, and to receive and store data through the data transmission module. A management company server and an administrative agency server interworking with the management company server; Characterized in that the receiver of the site manager to be notified when the facility abnormalities of the liver abnormal water from the management company server is abnormally operated.

At this time, the management company server, the general status database 110 to store the information of the location and facility history of the intermittent water supply facility, the facility status database 120 to store information about the auxiliary facilities of the intermittent water supply and management, The management status database 130 in which the status information is stored, the water quality and analysis status database 140 in which the information of the water quality status is stored, and the alarm setting control status database 150 in which the provided alarm and processing status are stored. It is characterized by.

In addition, the water quality meter is selected from one or more residual chlorine meter, thermometer, electroconductor, pH meter, turbidity meter, nitrogen nitrate and ammonia nitrogen meter, the facility device comprises a chemical input device, water filter, water level meter It is desirable to be.

Hereinafter, with reference to the accompanying drawings will be described in detail the unmanned integrated management system of the simple water supply facilities of the present invention.

1 is a schematic configuration diagram of an unmanned integrated management system of a liver abnormal water supply facility according to an embodiment of the present invention, Figure 2 is a management company server of an unmanned integrated management system of a liver abnormal water supply facility according to an embodiment of the present invention 3 is a schematic configuration diagram of a simplified water supply facility according to an embodiment of the present invention.

Unmanned integrated management system of the liver abnormal water supply facilities according to the present invention is as shown in Figures 1 to 3, a plurality of liver abnormal water supply (261 ~ 264) and scattered in a predetermined administrative area, respectively, 261 to 264) and a data transmission module for wirelessly transmitting and receiving control data and information, a management company server 100 provided through a communication company 210 for providing wired or wireless communication of the information of the data transmission module; The administrative abnormal server 200 interlocked with the management company server 100 and the management system server 100 interlocked with the administrative agency control server 200 directly transmit the abnormal abnormal water supply 261 to 264 in the field. It is configured to include a field manager receiver (271 ~ 274) for management and maintenance. The data transmission module communicates with an independent data transmission module 230 that communicates with a specific abnormal abnormality frequency (first liver abnormality frequency 261), and a plurality of liver abnormality frequency (second abnormality frequency to nth abnormality frequency: 262 to 264). It may be composed of a multi-data transmission module 240. That is, the independent data transmission module or the multiple data transmission module is used according to the environmental conditions of the installed abnormal water supply. In addition, the site manager receiver (271 ~ 274) is a receiver that is paid to the site manager to be operated by the administrative agency for each abnormal period, the alarm transmission of the management company server 100 or administrative agency control server 200 (250) ) Is received.

The management company server 100 is to collect and manage all the information on the liver abnormality (261 ~ 264). That is, the management company server 100, as shown in Figure 2, the general status database 110, which stores the information on the general status of the liver water supply system, the facility status database 120, which stores the information on the auxiliary facilities, Management status database 130 in which information of management status is stored, water quality and analysis status database 140 in which information of water quality and quality analysis are stored, and alarm setting control status database 150 in which provided alarm and processing status is stored. ) Is built.

The general status database 110 stores a distribution map 111 and general information of each abnormal frequency as a basic status 112 so as to clearly identify where each abnormal frequency is installed, and the facility status database ( 120 separately manages the information on the auxiliary equipment 121 and the peripheral device 122, and the maintenance status database 130 in the management status database 130, the maintenance and maintenance of the facilities installed in each of the abnormal water supply and maintenance History 1342 is stored. In addition, the water quality and analysis status database 140 stores the results of the water quality analysis 141 of each liver abnormality and the statistical analysis 142 of the water quality for a certain period of time, and the alarm setting control status database 150 stores each simple Facility monitoring 151, alarm history 153, and transmission history 152 of the equipment installed in the water supply are stored, respectively, and the remote setting control 154 of the various devices for the facility monitoring. The management company server 100 and the simple abnormal water supply system is a server-client system, which is driven by a web browser and various programs, and the simple abnormal water supply facility is connected to an intranet. The management company server 100 can search a variety of conditions for the water supply facilities of the abnormal water supply, and it is possible to aggregate various statistics and grasp the current status, and the general management items and related items for the facility-related items and continuous history management matters. By accumulating and storing it in a database, it is possible to manage all tasks related to the intermittent water supply facility. In addition, the map data for each administrative district is stored so that the distribution can be output on the map by region and various condition search results.

The management company server 100 is linked with the administrative agency control server 200, respectively, the person in charge of the administrative organization can always grasp the current status of the abnormal water supply in real time.

In addition, when a problem occurs in a specific abnormal water supply to the site manager through the site manager receiver (271 ~ 274) directly by wire or wireless to solve the problem in the shortest time. In other words, the site manager does not have to always reside in the relevant abnormal water supply, and manages and manages the abnormal water supply through the management company server 100 or the administrative institution control server 200 only when a problem occurs. This can be done effectively with a minimum of personnel.

The data transmission module transmits the information data of the abnormal number of times to the management company server 100 through the normal communication company 210. At this time, the communication company 210 may be configured by wire, but more preferably, it is possible to transmit data wirelessly.

The intermittent water supply (261 ~ 264) through the intake pump 310 for introducing the raw water 300, the wireless water level controller 312 for controlling the intake pump 310, and through the intake pump 310 It comprises a water tank 340 to be stored, a water level meter 314 for measuring the water level of the water tank 340, and a water filter 332 for purifying the water stored in the water tank 340 do. Water purified through the water filter 332 is supplied to the village 350.

At this time, the water tank 340 is a chemical injector 318 for disinfecting the stored water, residual chlorine measuring instrument 320, thermometer 322, electrical conductivity 324, pH meter to determine the water quality of the stored water 326, a turbidity meter 328, a nitrate nitrogen meter 330 and an image camera 316 is installed, the measurement data of each of the installed meter is transmitted to the outside through the wireless transmission and reception modem (360). The video camera 316 is installed to visually check the operation state of each measuring instrument or auxiliary equipment, and the image transmission time and the camera screen are transmitted through the wireless transmission / reception modem 360. In addition, the water intake pump 310 is provided with a control device for controlling the motor failure and pump operation, the drug injector 318 is interlocked with the concentration in the water tank, the drug is exhausted, the drug residue, drug residue The quantity and the remaining amount of the battery are measured and controlled through the wireless transmission / reception modem 360. The water filter 332 also receives a control signal through the wireless transmission / reception modem 360 to perform inflow control and backwashing such as inflow valve control, delivery valve control, auxiliary tank opening, and backwash operation. Each of the above devices is well-known technology, and a detailed description thereof will be omitted.

As described above, a protocol for transmitting data of various measuring instruments includes one byte of a communication start character, two bytes indicating a number of abnormal numbers, and 32 bytes indicating four pieces of indication data in case of eight measuring units (four bytes each). ), Power supply data and alarm data, and one byte and a check byte of the communication completion character. At this time, each of the indication data may be varied according to the installed number of the meter. It is known that there are currently about 45,000 liver abnormal waters in Korea, and there are about 3,000 places in Jeollanam-do, so the number of bytes of the number indicator bytes of the liver abnormal waters should be expanded.

Figure 4 is a screen diagram showing the contents of the unmanned integrated management system of the liver abnormal water supply facilities according to an embodiment of the present invention, Figure 5a and Figure 5b is an unmanned integrated management system of a liver abnormal water supply facility according to an embodiment of the present invention 6A and 6B are screen configuration diagrams showing a status of liver abnormalities in an unmanned integrated management system of a liver abnormalities facility according to an embodiment of the present invention, and FIGS. Screen configuration diagram showing the current status of the unmanned integrated water management system of the unhealthy water supply facility according to an embodiment of the present invention, Figure 8 shows the maintenance status of the unmanned integrated management system of the unhealthy water supply facility according to an embodiment of the present invention 9A and 9B are screen configuration diagrams for monitoring an operation state of an unmanned integrated management system of a simple abnormal water supply facility according to an embodiment of the present invention, and FIGS. 10A and 10B. Screen configuration diagram showing the water quality analysis information of the unmanned integrated management system of the liver abnormal water supply facilities according to an embodiment of the present invention, Figures 11a to 11c is an unmanned integrated management system of the liver abnormal water supply facilities according to an embodiment of the present invention 12A and 12B are screen configuration diagrams illustrating transmission alarms of an unmanned integrated management system of an abnormal water supply facility according to an embodiment of the present invention, and FIGS. Screen configuration diagram showing an example of the processing of each data of the unmanned integrated management system of a simple water supply system according to an embodiment of the invention.

Operational effects of the present invention will be described with reference to the structural diagrams of the screens shown in FIGS. 4 to 13i.

The unmanned integrated management system of the simple water supply system according to the present invention is largely classified into eight directories in the management company server 100 as shown in FIG.

The above directory contains ① basic screen menu, ⑥ standard information and ⑧ help, which can log into the system, ② file menu which can output the saved data and shut down the system. ③ Integrated monitoring menu to select maintenance status, communication status monitoring and transmission monitoring, and ④ water quality analysis menu to select water quality analysis status, rejected item trend, trend of analysis item, and item of abnormal abnormal water. It consists of ⑤ performance management menu which can select information inquiry, transmission information specification analysis, daily transmission information analysis and various charts, and ⑦ window menu which can compose screen window in various forms.

The ① main screen, ② file, ⑥ reference information, ⑦ window, and ⑧ help are general directories, and detailed description thereof will be omitted.

When the entire map is selected from the ③ integrated monitoring menu, the administrative map regularly partitioned as shown in FIG. 5A is loaded from the distribution map 111 of the general status database 110 and displayed on the screen. As shown in FIG. 5B, the abnormal abnormality water supply installed in the specific administrative area is displayed on the map, so that the distribution of the abnormal abnormality water can be easily grasped. In addition, the current communication state is displayed on the distribution chart, and brief information on the corresponding abnormal frequency can be viewed.

When selecting the abnormal abnormal water supply status from the ③ integrated monitoring menu as shown in Figures 6a and 6b, it is classified and displayed by management number, facility name, administrative area, tank capacity, water source, and auxiliary facilities. Therefore, if the administrator wants to search for information on any abnormal water supply, selecting the name of the facility, the manager can search the general status, facility status, management status, water quality status and alarm control status in real time.

In addition, if the equipment status is selected, as shown in Figs. 7A to 7C, the main equipment can know the water tank capacity, water supply amount, material, etc., and the history of the equipment. . In addition, as a peripheral device, the current water quality and capacity can be grasped in real time by monitoring devices such as residual chlorine meter, turbidity meter, pH meter, thermometer, level controller, and video camera. And it is possible to read the operation status of the main equipment, auxiliary equipment and peripheral devices in real time.

In addition, the peripheral device and the like can be additionally installed for the management of the abnormal water supply and water quality management, it is possible to simply operate in conjunction with the system.

On the other hand, if the maintenance status is selected, it is possible to systematically and efficiently manage the maintenance schedule, cost, and maintenance date for the auxiliary equipment as shown in FIG.

If the communication status monitoring is selected, the equipment such as chemical feeder, filter, residual chlorine measuring instrument, turbidimeter, tank water level meter, intake pump, video camera, etc. installed in each of the above abnormalities as shown in FIGS. 9A and 9B are currently operated. You can see at a glance whether the status of communication is in progress or in an alarm state. That is, it is possible to check this by providing operation status information of the corresponding device to the management company server 100 in real time through the transmission and reception modem 360.

10A to 12B are screen configuration diagrams for checking the water quality analysis and alarm status, and displaying data transmitted from various measuring devices installed in the relevant abnormal water supply, and displaying various data as shown in FIG. Will be displayed as. Each data is stored and processed in the water quality and analysis status database 140 to be displayed as a daily variation graph or monthly variation graph. On the other hand, if a failure is determined according to the analyzed water quality, the site manager of the relevant abnormal water supply is notified of this, and appropriate measures are taken through the SMS (Short Message System) through the management company server (100) or the administrative agency control server (200). Or the like. Therefore, it is possible to cope very quickly and appropriately with respect to the problems occurring.

13A to 13I are screen configuration diagrams illustrating processing of various data transmitted to the management company server 100 and data for providing alerts into various types of data. That is, FIG. 13A is a graph showing temporal change of the corresponding data, and FIG. 13B is data recorded by time. 13C to 13I show data processed by bar graph or date.

As described above, the present invention can be repaired immediately by notifying the site manager through the receivers 271 to 274 of the site manager in case the device is malfunctioning or malfunctioning. In addition, the maintenance status, regular maintenance date and anticipated repair facilities are recorded as the management status, so that it can be effectively managed with the minimum number of personnel.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention as long as it is obvious to those skilled in the art.

According to the present invention as described above, it is possible to overcome the environmental requirements by monitoring the on-site status of the liver abnormal water source by unmanned wired and wireless information transmission to the liver abnormal water facilities located in the mountainous countryside, the operation status, water quality of various auxiliary facilities of the liver abnormal water facilities It is possible to maximize the efficiency of management by checking the analysis values in real time and by networking each abnormal water source so that the administrative department of the unit administrative district becomes the control center.

In addition, by remotely controlling each device in the abnormal abnormal water supply facilities, alarms are also sent to the control system and site managers of the abnormal abnormal water supply facilities so that immediate actions can be taken to deal with problems immediately, and the current management from the time of development of the abnormal abnormal water sources. It is easy to inquire, search and analyze the various statuses by grasping the current status up to the situation and analyzing the trends of water quality by region, cause, period and water quality.

Claims (3)

It is an unmanned integrated management system of liver abnormal water that manages a plurality of liver abnormal water at the same time by grasping the water quality status and the operation status of facility devices in real time through the water quality meter installed in the liver abnormal water. The intermittent water supply includes a transmission device for transmitting data of an operation state of the facility device, and an imaging device for imaging and transmitting the state of the facility device; A wireless transmission / reception modem for transmitting data transmitted from the intermittent abnormality, a data transmission module installed within a predetermined distance from the wireless transmission / reception modem to receive and encoding data, and to receive and store data through the data transmission module. A management company server and an administrative agency server interworking with the management company server; The unmanned integrated management system of the abnormal water supply facilities, characterized in that it comprises a receiver of the site manager to be notified when the facility abnormalities of the abnormal water supply from the management company server. The method of claim 1, The management company server, the general status database 110 to store the information of the location and facility history of the intermittent water supply facility, the facility status database 120 to store information about the auxiliary facilities of the intermittent water supply and management status, The management status database 130 in which the information is stored, the water quality and analysis status database 140 in which the information of the water quality is stored, and the alarm setting control status database 150 in which the provided alarm and processing status are stored. Unmanned integrated management system of intermittent tap water facilities. The method according to claim 1 or 2, The water quality meter is selected from at least one residual chlorine meter, thermometer, electrical conductivity meter, pH meter, turbidity meter, nitrogen nitrate and ammonia nitrogen meter, The facility device is an unmanned integrated management system of liver abnormal water facilities, characterized in that it comprises a chemical injector, a water filter, a water level meter.