KR101707178B1 - Remote mnitoring process of village waterworks system using Intelligent automated device and the method thereof - Google Patents

Abstract

The present invention relates to a fusion-type village waterworks management system using an IP exchanger. More specifically, the present invention relates to a fusion-type village waterworks management system and a method thereof. The fusion-type village waterworks management system can receive and control data with respect to village waterworks by unidirectionally transceiving the data through an IP call communications network, wherein the data are sensed by a sensor disposed in a site monitoring control unit through a call communications network. Also, the fusion-type village waterworks management system seals, protects, secures, and manages an underground water tube well which is a water obtainment source of village water by means of a tube well protection device, measures an underground water level, temperature, contamination, and pumping flow rates of a corresponding underground water tube well, and can adjust a water level of a water storage tank. Moreover, the fusion-type village waterworks management system manages the water quality of an underground water tube well and a water storage tank to enable a manager to confirm and manage the supply of village water and the state of underground water in real time.

Description

[0001] The present invention relates to a system and method for managing a water supply system,

The present invention relates to a convergence-type village waterworks management system using an IP exchange, and more particularly, to a system for managing a convergence village waterworks using an IP exchange, It is possible to measure the groundwater level, temperature, pollution level and pumping flow rate of the underground water well, and to measure the water level of the reservoir tank The present invention relates to a convergent village water management system using an IP exchange system that enables administrators to manage and manage the supply of village constants and the ground water status in real time by managing the water quality of the ground water reservoir and the reservoir tank.

Recently, remote control or remote monitoring has been performed due to the development of communication technology. For example, remote monitoring and control of household appliances in home network systems, remote monitoring and control of environmental facilities, remote monitoring and control of production facilities, remote monitoring and control of security systems, remote monitoring and control of vehicles, Monitoring and control, remote monitoring and control of water and wastewater systems, and so on.

In general, communication for remote monitoring and control uses a dedicated communication network or transmits / receives data using a public communication network such as a wired / wireless telephone communication network or the Internet. For example, in a typical village water management system that monitors the state of the reservoir and reservoir water tanks and controls the level of the pump and reservoir water tanks in the reservoir, the monitored data from the reservoir water tanks and reservoirs is transmitted over the CDMA network and the Internet And the control command data and signal data are transmitted from the central monitoring unit to the control unit and the water tank controller through the CDMA communication network and the Internet network.

However, the existing village water management system is costly to use the public communication network because it transmits / receives data using the public wire / wireless telephone communication network or the internet communication network. This means that the cost of data communication increases exponentially when there are many control points or monitoring points, because there are many village waterworks to be managed.

In addition, when a plurality of monitoring units or control units are connected to the central monitoring unit and simultaneously connected, the communication load becomes large.

On the other hand, groundwater gardens are often used as a source of drinking water for supplying drinking water or living water in small towns.

It is necessary to understand and manage groundwater conditions such as water quality and quantity. In general, groundwater conditions such as ground water quality, water temperature, water level, pollution degree, etc. are measured by a water quality sensor, a temperature sensor, a water level sensor and an electric conductivity sensor. And the measurement sensor was put into the groundwater well. However, it is difficult for managers to visit groundwater facilities because they are usually far away from water supply tanks or villages, and when manages multiple groundwater reservoirs, many manpower is required to check groundwater conditions from time to time.

Conventionally, the apparatus for preventing contamination of the groundwater well has a disadvantage in that the occlusion head and the occlusal joint are not tightly adhered to each other, and the water is leaked due to the pressure generated when the groundwater is pumped therebetween.

In addition, there is a risk that a conventional groundwater hedge protection device is not equipped with a countermeasure, so that a third party other than the manager may open the guardhouse, and when a third person opens the groundwater guardhouse, There is a possibility that problems such as contamination of ground water due to unauthorized opening of the groundwater may occur.

Korean Patent Publication No. 2008-0000547 Korean Patent No. 1130846 Korean Registered Patent No. 0847076 Korean Patent No. 1130846

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a system and method for a water- When the information is converted into information, the receiving exchange receives the caller's number information in the order of arrival, not in a busy state, and stores it without error in the reception server of the local waterworks data, It is an object to provide an exchange system.

The present invention also provides a method and system for converting a specific control command corresponding to data of a field supervisory control unit provided for managing waterworks of each village into one-way communication into caller number information by one-way communication, And to provide an IP exchanger system that is connected to a local waterworks system networked in a one-way communication system so that the caller ID information is received in the order of arrival and stored in the village waterworks data reception server without error so that the re- .

The present invention also provides a method and system for monitoring the supply of groundwater and the groundwater condition by real-time checking of the groundwater level by measuring the groundwater level, temperature, pollution level and pumping flow rate of the groundwater channel, And to provide a system of network switches and IP exchanger systems that enable the use of the town waterworks.

Further, the present invention provides a system for preventing the leakage of water from the tunnel protection apparatus, provided with a criminal means and a security means, to prevent the unauthorized opening of the ground water connection and to confirm the unauthorized opening, The purpose is to do.

According to an aspect of the present invention, there is provided an IP exchanger system network-connected to a village water supply system for transmitting data on a village waterworks sensed by a sensor provided in a field monitoring control unit through a telephone communication network through an IP telephone network, A local waterworks on-site surveillance system that generates a call to generate and transmit specific data according to the site monitoring through the system; A village waterworks exchanger for receiving a call received through the village waterworks system and receiving caller number information transmitted simultaneously with the call and transmitting the received caller number information to a village waterworks data reception server; A telephone for a call transfer which is electrically connected to the village waterworks exchanger and forms a physical telephone line with an external communication network; And a village waterworks data receiving server for receiving caller number information through the village waterworks exchange, wherein the pumping water pipe connected to the lower end of the pipe casing connected to the lower end of the pipe casing for receiving groundwater is inserted into the pipe casing And a water pipe guiding device for connecting the pumping water pipe to a water pipe connected to the water storage tank, wherein the ground water pipe guiding device comprises a housing case and a water pipe-water pipe connection means, The upper end of a pipe-shaped casing tube is connected to a lower portion of a casing having an upper opening, the lower end of the casing pipe is connected to the upper end of the casing casing, and the water pipe is provided inside the casing pipe on the side of the casing pipe An occlusion portion is formed at a connected position, and a case cover is provided at an upper opening And the case is embedded in the ground surface so that the other end of the wire tube whose one end is connected to the case is extended upward and the other end of the wire tube is exposed on the surface of the earth, The connecting means includes a pipe connected to the occlusion head connected to the occlusion portion and connected to the pipe for communicating groundwater pumped from the pumping pipe, and when the occlusion head is coupled to the occlusion portion, And an outlet port connected to the water pipe connected to the side of the casing pipe is formed in the occlusion portion of the housing so that the inside of the occlusion portion of the housing is provided with an occlusion A pressing surface is formed on the inner side opposite to the occlusal surface, And a nut is fastened to the upper end of the pipe in a state where the hook provided at the lower end is caught by the retaining ring and the upper end passes through the bolt hole of the pressurizing frame. And the pressurizing frame presses the pipe or the pipe facility downward.

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According to the present invention as described above, various kinds of sensor information of the water supply system that supplies water to a customer through a water supply pipe is stored in a state of being not in communication, It is possible to transmit various and complex information more than to transmit information by only a call signal, and accurate and quick data processing is possible.

Further, according to the present invention, there is no need to store the data in the local waterworks data receiving server without error by one-way communication, and the re-calling is not required, and the corresponding command is processed correctly so that not only the data but also the active control command can be reduced.

The present invention also provides a method and system for monitoring the supply of groundwater and the groundwater condition by real-time checking of the groundwater level by measuring the groundwater level, temperature, pollution level and pumping flow rate of the groundwater channel, .

In addition, the present invention has a structure in which leakage of water from the pipe protecting apparatus is not generated, and has a safety means and a countermeasure means to prevent unauthorized opening of the underground water well and to confirm the unauthorized opening.
Further, according to the present invention, the bolts of the fixing support are inserted into the bolt holes formed on both sides of the pressurizing frame, and the bolts are fixed by the washers and the nuts so that the pipes are prevented from moving up and down by the water pressure.

FIG. 1 is a view showing an overall configuration of a convergence-type village water management system using an IP exchanger according to the present invention and a device for protecting groundwater wells.
FIG. 2 is a diagram illustrating overall telephone reception and data transmission steps in accordance with an embodiment of the present invention.
FIG. 3 is a view showing a configuration of a convergence-type village water management system using an IP exchange according to the present invention.
4 is a view showing a part of a groundwater well protection device according to the present invention.
5 is a view showing a part of a groundwater well protection device according to the present invention.
FIG. 6 is a view showing a part of a groundwater well protection apparatus according to the present invention. FIG.
7 is a view showing a part of a groundwater well protection device according to the present invention.
8 is a view showing a part of a groundwater well protection device according to the present invention.
FIG. 9 is a side view of a portion of a groundwater well protection device according to an embodiment of the present invention.
10 is a plan view showing a part of a groundwater well protection apparatus according to an embodiment of the present invention.
11 is a view showing a structure of a case and a case cover of a groundwater canal protection apparatus according to an embodiment of the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

FIG. 1 is a view showing an overall configuration of a convergence-type village waterworks management system and an apparatus for protecting groundwater wells using an IP exchange according to the present invention. FIG. 2 is a flowchart illustrating an overall telephone reception and data transmission step according to an embodiment of the present invention. And FIG. 3 is a view showing a configuration of a convergence-type village waterworks management system using an IP exchange according to the present invention.

As shown in FIG. 1, the present invention includes a village waterworks on-site monitoring system 200 for generating specific data according to on-site monitoring through a plurality of sensors and for generating a call to transmit the data, and a village waterworks management system 100 The call transferring telephone 250 and the data receiving server 300 are connected through a network to analyze the information contained in the call to monitor the current state of the village waterworks and take necessary measures immediately.

The village waterworks exchanger 101 receives the call received through the village waterworks on-site monitoring system 200 and controls the call waiting, receives the caller's number information transmitted simultaneously with the call, (103).

The telephone 102 for call transfer is a telephone which is electrically connected to the village waterworks exchanger 101 and forms a physical telephone line with an external communication network.

The village waterworks data receiving server 103 is a server for receiving the caller's number information through the village waterworks exchange 101.

The village waterworks site monitoring system 200 receives and stores the raw water from the collected resin through a water intake pump, performs a function of monitoring the village waterworks in the field, and can measure the quality of the incoming raw water Turbidity sensor, pH sensor. A flow sensor having a temperature sensor, a raw water level adjusting sensor and an electric conductivity detecting sensor provided therein for discharging purified water located at a lower portion and measuring the flow rate, and a residual chlorine interlocking type Drug dispenser.

2, the call waiting method using the village waterworks exchange 101 according to the present invention includes a telephone reception S11, a line status check S12, a call waiting S13, a data reception completion step S14 ), Data transmission (S15), and monitoring (S16).

Specifically, a telephone for a call transfer is electrically connected to the village waterworks exchange (101), thereby forming a physical telephone line with an external communication network; The field monitoring system IP exchange 200 generates specific data according to the field surveillance through a plurality of sensors and generates a call to transmit the specific data; The village waterworks data exchange server 101 controls the local sewerage exchange 101 to receive a call from the real-time system and receives a specific information transmitted simultaneously with the call, Transmitting; Receiving the caller number information from the village waterworks data exchange server (103) through the village waterworks exchange (101); And the monitoring unit monitors the caller's number information by combining the caller's time information with the place information according to the caller's number.

According to an embodiment of the present invention, the groundwater in the groundwater well 1 is pumped and sent to the water storage tank 5, and the groundwater sent and received is stored in the water storage tank 5, And to a system capable of integrally managing the water of the village waterworks for watering through the information network.

3 to 8, according to an embodiment of the present invention, a groundwater canal 1, a canopy protection device 2, a water level control and settlement controller 3, a reservoir medicine supplier 4, 5, a tank side controller 6, a management server 7, a town broadcasting device 8, and an administrator terminal 9.

In the groundwater pipe 1, a tubular pipe casing 11 for inserting a path from a ground to a ground where groundwater is present is inserted, and the pumping pipe 12 is inserted into the groundwater pipe 12 to a position where groundwater exists. A pump 13 for pumping groundwater is installed at the lower end of the water pipe 12 and groundwater pumped by the operation of the pump 13 rises through the water pipe 12 and flows through the water pipe 52 And is sent and received to the water storage tank (5).

The water level control and settlement controller 3 provided in the groundwater canal protecting apparatus 3 provided at the ground water well 1 side and the water storage tank 5 and the tank side controller 6 are provided with information for mutual control (Water level, water volume, pumping volume, drug dosage volume, etc.) by wire or wireless. The information measured by the water level control and settlement controller 3, the water storage tank 5 and the tank side controller 5 provided in the groundwater canal protection device 2 is transmitted to the management server 7 via the communication network, The command or information inputted or processed by the administrator is displayed and stored for monitoring by the user. The command or information inputted or processed by the administrator is transmitted to the groundwater tank 2 through the communication network, Side controller 6 as shown in Fig.

3 to 8, the groundwater canal protection apparatus 2 according to an embodiment of the present invention includes a housing and a water-water pipe connection apparatus.

The housing is installed in the upper part of the casing casing 22 so as to seal the upper part of the groundwater casing so that contaminants do not enter the inside of the groundwater casing. In the interior of the housing, the water-water pipe connection device is installed.

3 to 8, the housing includes a case 21, a casing tube 22, an occlusion portion 13, a case cover 24, a wire tube 32, and a pressure means 25 .

 The case 21 of the housing is a cylinder for forming a space for accommodating piping and piping facilities of the water-to-water pipe connecting means 23 described later, and the casing pipe 22 and the wire pipe 32 are connected And buried in the ground surface. The case 21 has the shape of a cylinder with an open upper part, and the upper opening is closed by a cover 24.

Meanwhile, the pipe facilities 275a to 275d located inside the case 21 of the housing include water intake pipes capable of collecting ground water for water quality inspection or the like, and the groundwater discharged from the water intake device is discharged, A water intake pipe 272 connected to the case 21 is connected to the side of the case 21.

3 to 8, the lower inlet of the water intake pipe 272 is connected to the case 21 and the upper inlet is exposed above the ground surface.

The casing pipe 22 is integrally connected to the case 21 at the lower portion of the case 21 and is connected to the casing casing 11. The casing pipe 22 is connected to the occlusion head An engaging portion 222 is formed.

The upper end of the casing pipe 22 is connected to a lower portion of the case 21 so that the casing pipe 22 communicates with the case 21 and the lower end of the casing pipe 22 is connected to the upper end of the casing casing 11. A water pipe 221 connected to the water intake destination is connected to the lower end side of the casing pipe 22.

The occlusion portion 22 is configured to be engaged with an occlusion head of the water-to-water pipe connecting means 23 to communicate the water pipe 12 and the water pipe 221 with each other.
As shown in FIGS. 5 and 6, the groundwater canal protecting apparatus includes a housing case 21 and a water pipe-water pipe connecting means 22, and the housing case 21 21 is connected to an upper end of a pipe-shaped casing pipe at the lower part of a casing having an upper opening, the lower end of the casing pipe is connected to the upper end of the casing casing 11, The case cover is provided to cover the upper opening of the case 21 and the other end of the wire tube 32, one end of which is connected to the case, And the case 21 is embedded in the ground surface so that the opening of the case 21 and the other end of the wire tube 32 are exposed on the ground surface. In the occlusion portion 222 A piping facility is installed in a pipe through which the ground water pumped from the pumping pipe 12 is communicated and the occlusion head 221 is connected to the occlusion unit 222, the water pipe is connected to the inside of the housing so as to communicate with the water pipe 12 and the pipe, and the occlusion part 222 of the housing is connected to a water pipe connected to the side of the casing pipe (21b) is provided at the bottom of the case (21) of the housing, and the locking hole (11b) is formed at the bottom of the case (21) A nut 263c is provided in a state in which a hook provided at the lower end is caught by the latching ring and an upper end passes through the bolt hole of the pressurizing frame 261, ) On the top And a press bolt for pressing the pipe 234 or the pipe facility downward while the press frame 261 is fastened.

4 shows the structure of the occlusion head of the occlusion unit 222 and the water-discharge pipe connecting means 23 in detail, the occlusion unit 222 is configured such that the water discharge pipe 223 is connected to the casing pipe 22 ) Of the casing tube (22).

The occlusion portion 222 has a pipe shape of a substantially short length and penetrates up and down. The outer circumference of the occlusion portion 222 abuts against the inner circumferential surface of the casing tube 22 and is integrally formed in the casing tube 22. The figure shows an example in which the occlusion part 222 is formed into a separate pipe-shaped body and welded to the inside of the casing tube 22.

The side of the occlusion unit 222 is connected to an outlet pipe 223 connected to the side of the casing pipe 22 through an outlet through the side. The occlusal surface of the occlusion portion 222 is formed on the inside of the occlusion portion 222 at the position of the outflow port. do.

A pressing surface for pressing the occlusion head is formed on the inner side facing the occlusal surface so that the occlusal surface of the occlusion head is brought into close contact with the occlusal surface of the occlusal portion. Referring to the drawings, a pair of pressing surfaces is formed on the occlusion portion 222 so as to face the occlusal surfaces on both sides of the occlusal surface. Since the occlusion head is seated on the lower part of the occlusion part, the gap between the occlusal surface and the pressing surface of the occlusion part is inclined to become narrower as it goes downward.

The cover 24 is a plate member for covering the upper opening of the case 21, and its edge is tightly coupled to the flange provided at the edge of the case 21 and bolted thereto. The piping 234 and the piping facilities 275a to 275d are located inside the casing 21 sealed by the cover 24 as described above. The piping facilities include a meter such as a water meter or a pressure gauge. Therefore, in order to visually confirm the measuring instrument or the like, the cover 24 must be opened, which is inconvenient. In the present invention, an inspection port is formed so that the inside of the cover 24 of the housing 24 can be observed so as to easily check the measuring instrument without opening the entire cover 24. An opening / closing plate 242 And is removably mounted. Further, in order to easily lift the cover 24 when the cover 24 of the housing is opened or closed, the present invention is characterized in that a ring-shaped handle is provided on the cover 24 of the housing. The lower end of the casing pipe 22 of the housing thus constructed is connected to the upper end of the casing casing 11 so that the casing 21 is installed in the upper surface of the casing casing 11 so as to be embedded in the ground surface.

The upper opening of the case 21 is exposed above the ground surface and is sealed by the cover 24. The wire tube is also buried in the earth surface so that the other end for connecting the control device 3 is exposed on the ground surface, The water intake pipe 272 is also buried in the ground surface so that the upper entrance is exposed above the ground surface. As described above, the water-to-water pipe connecting means 23 is mounted inside the housing provided in the ground water pipe, and the control device 3 is connected to the wire pipe.

The water-to-water pipe connecting means 23 is provided with a pipe connecting the water pipe 221 and the water pipe L to allow the water pipe L to enter the inside of the pipe casing C, And an occlusion head is meshed with the occlusion portion to connect the water discharge pipe (L1) and the water discharge pipe (L).

The water-to-water pipe connecting means may further comprise an occlusion head, a first extension pipe and a second extension pipe, a cut-off disk, piping and piping facilities.

In the meantime, the core code of the present invention verifies whether specific data is normal data first after connecting to the village waterworks switchboard 101, and waits for a call in a state other than a busy state, no) is a code expressing the function of receiving information.

In the present invention, one field surveillance system 200 is informed that the village waterworks exchange 101 is not currently in communication, and when the information delivery mission is completed by transmitting caller ID information, another field surveillance system IP exchange 200 Even if a plurality of the field system IP exchanges 200 transmit the caller number information, the village water exchange 101 waits for a call in a state not in communication, and transmits the caller's number information And stores it in the village waterworks data receiving server.

Also, after connecting to the village waterworks exchanger 101, it is determined whether the TX communication / RX communication is checked or not, whether the water level of the village water is normal, the medicine box is normal, (CID), DID (phoneNo, destinationNo) of the convergence-type waterworks management system using the IP exchanger is first verified that the data is normal data, I coded it together.

If eventData.Length <20 Then // Verify that the data is normal //

Return // Return if it is not normal data //

End If

Ob.ui.logWrite ("-> [Q]:" & eventData) // Code divided by each information

// write to data file //

Dim phoneNo As String = eventData.Substring (7, 4)

// extract phone number (DID) //

Dim destnationNo As String = eventData.Substring (11, eventData.Length - 12) // extract telephone number (CID) //

If Ob.ht_VERIFY.ContainsKey ( phoneNo ) Then

// Verify that the phone number is normally managed //

Dim vErify As _vErify = CType (Ob.ht_VERIFY (phoneNo), _vErify)

// Convert to the corresponding phone number (DID) data //

Dim iTem As _iTem

If Ob.ht_iTem.ContainsKey ( destNationNo ) Then

// Verify that the corresponding phone number (CID)

iTem = CType (Ob.ht_iTem (destnationNo), _iTem)

// Convert that phone number (CID) into field data //

Else

// Create new phone number (CID) as field data //

iTem = New _iTem (destnationNo)

Ob.ht_iTem.Add (destnationNo, iTem)

// Save the generated data to the collection //

End If

If iTem Is Nothing Then

// return if the data was not created properly //

Ob.ui.logWrite ("----> <iTem is Nothing>" & vErify.textData & "," & eventData)

Return

End If

Also, it is a code expressing the function of receiving the unique phone number (destination no) information of the convergence village waterworks management system using the IP exchange in order of arrival in a non-busy state.

        If vErify.dataIndex = vErify.dataCount Then

// check the number of digits of data //

If vErify.dataCount = 0 Then

// Get two-digit data if the data has two digits //

iTem.sValue_1 = vErify.sValue.Substring (0, 1)

iTem.sValue_2 = vErify.sValue.Substring (1, 1)

ElseIf vErify.dataCount = 1 Then

// Get 1-digit data if the number of digits in the data is 1 //

iTem.sValue_1 = "0"

iTem.sValue_2 = vErify.sValue

Else

// Acquire all data otherwise //

iTem.sValue_2 = vErify.sValue

Dim ts2 As TimeSpan = DateTime.Now - iTem.lastRevcDt_first

// Check the initial data reception time //

In addition, it is a code expressing a function of receiving information related to the convergence-type village water management system using the IP exchange and organizing and storing an unidentified telephone number (Unknown PhoneNo) as follows.

  If ts2.TotalSeconds> 30 Then

// Ignore data due to data reception time exceeding the initial data reception time after 30 seconds //

Ob.ui.logWrite (">> Over .." & vErify.textData & "(" & vErify.originalNo& "," & vErify.information& ")" "& vErify.sValue &"> "&" ts2. TotalSeconds.ToString () & ">" & eventData)

// write the corresponding error content file //

iTem.sValue_1 = "0"

iTem.sValue_2 = "0"

// Initialize data //

iTem.lastRevcDt_first = DateTime.Now

// Save the initial data reception time //

'Ob.ui.logWrite ("-> <Value 1 TimeOver>" & vErify.textData & "," & eventData)

Return

End If

End If

iTem.commandData = vErify.commandData

Dim ts1 As TimeSpan = DateTime.Now - iTem.lastRevcDt

// If the last data received time is after 30 seconds //

Dim ts3 As TimeSpan = DateTime.Now - iTem.lastRevcDt_first

Ob.ui.logWrite (">> Done .." & vErify.textData & "(" & vErify.originalNo& "," & vErify.information& ")" "& vErify.sValue &"> "&" ts1. TotalSeconds.ToString () & "," & ts3.TotalSeconds.ToString () & ">" & eventData)

iTem.lastRevcDt = DateTime.Now

// Save last data receive time //

'If ts.TotalMinutes <5 Then

Dim sendData As String = ""

sendData = "a" & iTem.commandData & iTem.sValue_1 & iTem.sValue_2 & iTem.destNo & "ㄴ"

// Create the data to be sent to the server using the received data //

Ob.q_send_Acd.Enqueue (sendData)

// send to server //

iTem.sValue_1 = "0"

iTem.sValue_2 = "0"

// Initialize data //

Ob.ui.logWriteSend ("" & sendData)

// Write to the history file //

'Else

'Ob.ui.logWrite ("-> <TimeOver>" & vErify.textData & "," & eventData)

'End If

Else

// wait for the first data if there is more data to receive // //

iTem.sValue_1 = vErify.sValue

'iTem.lastRevcDt = DateTime.Now

iTem.lastRevcDt_first = DateTime.Now

& VErify.Value.textData & "(" & vErify.originalNo & "," & vErify.information & ")" <"& vErify.sValue &"> "& eventData) Ob.ui.logWrite ("

End If

Else

// write to file if unknown data is received //

Ob.ui.logWrite ("-> <Unknown PhoneNo>" & phoneNo & "," & eventData)

End If

Hereinafter, a method of using a village waterworks system and a network-connected village waterworks exchange system that transmit data on a village waterworks sensed by a sensor provided in a field monitoring system via a telephone communication network through an IP telephone network, according to an embodiment of the present invention I will explain in detail.

(a) The village waterworks site surveillance system generates a call to transmit the specific data generated by the field surveillance through multiple sensors.

(b) The village waterworks exchange controls reception of a call received from the village waterworks on-site monitoring system to place a call, and receives and stores caller number information transmitted simultaneously with the call to the village waterworks data reception server.

(c) A telephone for call transfer is electrically connected to the village waterworks exchange to form a physical telephone line with an external communication network.

(d) The village waterworks data receiving server receives and stores the caller number information through the village waterworks exchange.

It will be appreciated by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

1 Groundwater reservoir
11 housing casing
11b latching ring
12 Pumping tube
13 Pump
2 Underground water protection system
21 cases
22 Pumping pipe - water pipe connection device
221 Occlusal head
222 occlusal portion
234 Piping
261 Pressurized frame
262 Retaining pin
263 Fixed support
263c Washers and nuts
263b hook portion
272 Water intake pipe
275a to 275d: pipe facilities
3 controller
31 panel box
32 drawer pipe
32c wire drawing pipe
4 Drug injector
5 water tank
51 Water level sensor
52: water pipe
53a water shutoff valve
54a drain valve
6 Tank side controller
6a Tank side drug dispenser
7 Management Server
8 town broadcasting system
9 Manager terminal

Claims (5)

A system for IP-exchanger network connected to a village waterworks which transmits data on a village waterworks sensed by a sensor provided in a field monitoring control unit through a telephone communication network through an IP telephone network, A village waterworks on-site surveillance system that generates a call to generate and transmit it; A village waterworks exchanger for receiving a call received through the village waterworks system and receiving caller number information transmitted simultaneously with the call and transmitting the received caller number information to a village waterworks data reception server; A telephone for a call transfer which is electrically connected to the village waterworks exchanger and forms a physical telephone line with an external communication network; And a village waterworks data receiving server for receiving caller number information through the village waterworks exchange, wherein the pumping water pipe connected to the lower end of the pipe casing connected to the lower end of the pipe casing for receiving groundwater is inserted into the pipe casing And a groundwater pipe protecting device for connecting the pumping pipe to the water pipe connected to the water storage tank,
The groundwater canal protecting apparatus includes a housing case and a water pipe-water pipe connecting means,
The housing case is connected to an upper end of a pipe-shaped casing pipe at a lower portion of a case having an upper opening, a lower end of the casing pipe is connected to an upper end of the casing, The case cover is provided so as to cover the upper opening of the case, the other end of the wire tube whose one end is connected to the case is extended upward, and the opening of the case and the wire The case is embedded in the ground surface so that the other end of the tube is exposed above the ground surface,
Wherein the pumping pipe-water pipe connecting means includes a pipe connecting the mating head to the occlusion head and the pumping pipe communicating the groundwater pumped from the pumping pipe, The water pipe is mounted inside the housing so as to communicate with the water pipe and the pipe,
Wherein an occlusion surface is formed at an inside of the occlusion portion of the housing at a position where the outflow port is formed and a pressing surface is formed on the inside facing the occlusal surface,
The case bottom of the housing is provided with a latching ring,
A pressurizing frame is provided on an upper portion of the pipe or pipe facility,
And a press bolt for pressing the pipe or the pipe facility downward while the nut is fastened to the upper part in a state where the hook provided at the lower end is caught by the hook and the upper end passes through the bolt hole of the press frame Convergence type waterworks management system using IP exchanger. delete delete delete delete

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