KR101756211B1 - Integrated management system for Increased efficiency, convenience and maintenance facilities in the community waterworks - Google Patents

Abstract

More particularly, the present invention relates to an integrated management system for a village water supply system for improving maintenance convenience and facility efficiency, and more particularly, In order to prevent the freezing of winter water pipe in village waterworks, a temperature sensor is attached to the underground water pipe protection device, and when the condition below the set temperature occurs, the motor is intermittently forcibly started, The surveillance camera captures only the moment the surveillance camera is opened and closed in the underground water well, and the sound and leakage occurring during normal pumping occurring at the occlusion site You can check the leakage by comparing the sound with the tone sensor, In order to estimate the leakage of the water pipe and to estimate the leakage of the water pipe by using the specific amount of time for which the residents do not use the water pipe, the water level sensor continues to use the continuous value of the minimum value below the constant value This is about the convenience of maintenance that can be judged by leakage due to breakage and the integrated management system of the village water to increase the facility efficiency.

Description

(Integrated Management System for Increased Efficiency, Convenience and Maintenance Facilities in the Community Waterworks)

More particularly, the present invention relates to an integrated management system for a village water supply system for improving maintenance convenience and facility efficiency, and more particularly, In order to prevent the freezing of winter water pipe in village waterworks, a temperature sensor is attached to the underground water pipe protection device, and when the condition below the set temperature occurs, the motor is intermittently forcibly started, The surveillance camera captures only the moment the surveillance camera is opened and closed in the underground water well, and the sound and leakage occurring during normal pumping occurring at the occlusion site You can check the leakage by comparing the sound with the tone sensor, In order to estimate the leakage of the water pipe and to estimate the leakage of the water pipe by using the specific amount of time for which the residents do not use the water pipe, the water level sensor continues to use the continuous value of the minimum value below the constant value This is about the convenience of maintenance that can be judged by leakage due to breakage and the integrated management system of the village water to increase the facility efficiency.

Generally, groundwater drainage is widely used as a source of drinking water for supplying drinking water and 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. When managing several groundwater facilities, many manpower is required to check groundwater conditions from time to time.

On the other hand, since groundwater is used as drinking water for groundwater collection, it is generally protected by groundwater pollution prevention device to prevent pollution. The groundwater protection system adopts various structures to easily connect the water pipe connected to the underground water reservoir and the water pipe connecting the ground water reservoir to the water storage tank while protecting the underground water well. Korean Patent Laid-Open Publication No. 10-2011-0116621 discloses a "contamination prevention and water intake facility for groundwater pipes" in which an amusement pipe is easily connected to a water pipe by seating an occlusion head on an occlusal jaw provided in a casing.

However, the above-mentioned conventional groundwater canal is not only a general purpose but also a system which can be conveniently managed by an intelligent controller and can be automatically managed by an administrator.

In addition, the current electricity tariff structure in Korea is as shown in Table 1 below. If the groundwater level is not secured at 09:00 every day, it will be difficult to operate in mid-peak and peak load times.

Korean Patent Laid-Open No. 10-2011-0116621 (Pollution Prevention and Intake Facilities of Underground Waterworks)

It is an object of the present invention to provide a method and an apparatus for sealing a groundwater well, which is a source of a village constant, with a guard apparatus and to measure groundwater level, temperature, pollution degree and pumping flow rate of the groundwater well This is to provide the integrated management system of the village water for convenient maintenance and facility efficiency to enable the manager to check and manage the supply of village water and the groundwater condition in real time.

It is a further object of the present invention to provide an integrated management system for village constants that has a structure that does not cause leakage of the guard apparatus and that includes a safety means and a countermeasure means to prevent unauthorized opening .

It is an object of the present invention to increase the usage ratio of the daytime midnight power section and to reduce the usage rate of the middle and maximum load sections where the electric power rate is high.

To this end, the present invention approximates the storage limit (maximum water level) of the water storage tank through the maximum water supply in the nighttime power interval (minimum load time band).

An object of the present invention is to provide a village constant integrated management system capable of powering on a recording apparatus from the moment when the auxiliary tank cover is opened and closed, thereby enabling recording from the moment the outside person enters.

In order to achieve the above object, according to the present invention, there is provided an integrated management system for a village water system for convenience of maintenance and efficiency improvement of a facility, wherein groundwater is taken from a groundwater facility and sent to and stored in a reservoir tank, A controller for controlling the underground water well is provided with a communication check module for operating the communication check, a power check module for power saving, A temperature sensing module for forcibly starting the motor according to the temperature, a quantity sensing module for checking the shortage of water in the reservoir tank, and a leakage check module for checking the leakage of the groundwater tank through a sensor.

The controller's communication check module equally pumps a certain percentage of the water pumped into the tank for a period of time prior to the inspection time to block the singles during the RF network check time.

The temperature sensing module of the controller repeatedly activates the motor at predetermined time intervals when a temperature below the set temperature occurs.

The leakage check module of the controller checks the leakage at normal occasions occurring during pumping at the occlusal portion and the sound by a tone sensor when leakage occurs.

The leakage position can be estimated by calculating the leakage height of the water pipe through the pressure sensor of the groundwater pipe as a pressure height with respect to the total height.

The controller of the water quantity sensing module may be used when the residents continue to use the water level sensor to estimate the leakage of the water supply pipe using a specific amount of time for which the water supply is not used, It is judged to be leakage due to breakage.

In order to display the basic pipe network necessary for the water service management by the apparatus for displaying the position of the pipelines and the facilities including the various valves in the distribution water system of the village waterworks on the map, Wherein the measurement data and the image data are recorded on a recording medium, wherein the measurement data and the image data are recorded on a recording medium, And a pipe network device for displaying facility / repair history data including excavation or depth information for the village waterworks network facility,

If the controller keeps the motor in an inoperative state for a certain period of time, the controller controls the chemical injector to re-supply a certain amount of chlorine in accordance with summer, winter, or rainy season.

The power check module of the controller may be configured such that the surveillance camera in the groundwater monitoring system detects power of the surveillance camera when the surveillance camera is in contact with the operation signal of the angle sensor attached in close contact with the bottom surface of the sensing means, .

According to the above-described structure, the integrated management system of the village waterworks according to the present invention can prevent the freezing of the water pipe during the winter season in the village water, The surveillance camera can shoot energy only for the moment.

Further, according to the present invention, it is possible to check the leakage by comparing the sound at the normal occasion occurring at the occlusion and the sound with the tone sensor at the occlusion when the leakage occurs, and the leakage position of the water pipe through the pressure sensor of the vessel, It is judged whether or not water leaks when the water is reduced to a certain percentage or less at a specific time through a level sensor using an angle sensor at a time when water is not used in order to estimate the leakage of the water supply pipe. It is possible to check whether or not the leak occurs.

In addition, the present invention checks the water shortage phenomenon in the case of water depletion, predicts the shortage of ground water and the life span, and solves the serious problem of power shortage due to the use of solar power in the tank side.

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 integrated management system of the village waterworks according to the present invention has a structure in which the leakage of the guarding device does not occur, and it has the advantage of being able to prevent the unauthorized opening of the groundwater facility and to confirm the unauthorized opening .

In addition, the present invention can manage the ground water pipe system in a comprehensive and systematic manner through the pipe network, and can manage all the water supply and drainage network in one place such as computerization of the changed data due to the burial of the new pipe network, The management of the underground water pipe and the clear water supply can be smoothly carried out.

In addition, according to the present invention, the power of the recording apparatus can be turned on prior to opening / closing of the water tank auxiliary cover, so that the recording can be started from the moment the outside party enters, thereby solving the recording blank time.

1 (a), (b), (c), (d) and (e) conceptually show the structure of the integrated management system of the village waterworks according to an embodiment of the present invention, and schematically show a pipe network diagram
2 is a block diagram illustrating the configuration of a village water service integrated management system according to an embodiment of the present invention.
3 is a view showing a groundwater well protection device of the integrated management system of village waterworks according to an embodiment of the present invention.
4 is a view showing a part of a groundwater well protection device of the integrated management system of village waterworks according to an embodiment of the present invention
5 is a view showing a part of a groundwater well protection device of the integrated management system of village waterworks according to an embodiment of the present invention
6 is a view showing a part of a groundwater well protection device of the integrated management system of village waterworks according to an embodiment of the present invention
7 is a view showing a part of a groundwater well protection device of the integrated management system of village waterworks according to an embodiment of the present invention
8 is a view showing a part of a groundwater well protection device of the integrated management system of village waterworks according to an embodiment of the present invention
9 is a view showing a part of a ground water well protection apparatus of the integrated management system of village waterworks according to an embodiment of the present invention
FIG. 10A is a conceptual illustration of a structure of a water pipe leading from a groundwater tank to a water storage tank of the integrated management system of a village waterworks according to an embodiment of the present invention
Fig. 10B is an enlarged view of a portion A in Fig.
11 is a view conceptually showing the operation of a water level sensor of a storage tank of a village waterworks integrated management system according to an embodiment of the present invention
FIG. 12 is a graph showing a conceptual change in pressure between water and water for detecting a failure location of a water pipe in the integrated management system of a village water according to an embodiment of the present invention
13A and 13B are diagrams conceptually showing a change in the water level of the water storage tank depending on whether or not the water storage tank and the water supply pipe leaks in the integrated management system of the village waterworks according to the embodiment of the present invention
FIG. 14 is a view showing a pipe network of a groundwater canal protection device of the integrated management system of a village waterworks according to an embodiment of the present invention.
FIG. 15 is a diagram showing operation information (capable of monitoring the current state of various items on a selected site, and capable of checking a graph on a time-by-date basis and on a date basis) according to an embodiment of the present invention;
FIG. 16 is a view showing main information (management items and information on a selected site, information on a selected site can be checked, and the like) of a village waterworks integrated management system according to an embodiment of the present invention
FIG. 17 is a view showing important information of the integrated management system of the village water according to an embodiment of the present invention (groundwater information and multi-item measurement can be monitored for selected sites, chart can be identified by date, and monitoring mode is supported)
18 is a view showing main information of the integrated management system of the village waterworks according to the embodiment of the present invention
FIG. 19 is a view showing main information (capable of managing the history of selective site installation, facility inspection, etc.) of the integrated management system of the village waterworks according to the embodiment of the present invention
20 is a diagram showing main information of the village waterworks integrated management system according to an embodiment of the present invention (capable of managing an error SMS transmission history management, capable of real-time error monitoring mode of the entire apparatus)
FIG. 21 is a view showing main information (management items and information on selected sites, information on selected sites, and images on selected sites) of the village waterworks integrated management system according to an embodiment of the present invention
22 is a diagram showing main information of the village waterworks integrated management system according to an embodiment of the present invention (capable of managing an error SMS transmission history management,
23 is a diagram showing main information of the integrated management system of the village water (according to the embodiment of the present invention)

Hereinafter, the integrated management system of the village waterworks according to the present invention will be described in detail with reference to the embodiments shown in the drawings.

The integrated management system of the village waterworks according to an embodiment of the present invention is a system for pumping groundwater in the groundwater well 1 and sending it to the water storage tank 5 and storing the ground water in the water storage tank 5, The present invention relates to a system for managing the water of a village water supply system for water supply in an integrated manner through an information network.

The integrated management system of the village waterworks according to the present invention is a system for managing the groundwater in the village water supply system that receives groundwater from the groundwater well 1 and sends it to the water storage tank 5 and stores the water therein, A controller (3) for controlling the groundwater well (1) comprises a communication check module (71) that operates upon communication check, a power check module (72) for power saving, A temperature sensing module 73 for forcibly starting the motor according to the temperature, a quantity sensing module 74 for checking a water shortage phenomenon of the water storage tank 5, a sound sensor s33 And a leak check module 75 for checking through the leak check module 75.

The communication check module 71 of the controller 3 according to the present invention equally pumps a certain percentage of the water pumped to the tank for a certain period of time before the inspection time to prevent the number of steps during the RF network check time.

The temperature sensing module 73 of the controller 3 according to the present invention repeatedly starts the motor at predetermined time intervals when the temperature is lower than a predetermined temperature (for example, minus 0 degrees or 5 degrees).

The leak check module 75 of the controller 3 according to the present invention checks the sound at the time of pumping at the occlusal portion and the sound at the normal occasion by comparing the sound with the tone sensor when the leak occurs.

The leakage position can be estimated by calculating the leakage height of the water pipe through the pressure sensor s31 of the groundwater pipe according to the present invention as the pressure height with respect to the total height.

The water quantity sensing module 74 of the controller 3 according to the present invention estimates the leakage of the water supply pipe by using the specific amount of time for which the residents do not use the water supply, If it is used continuously on a consecutive date, it is judged to be leakage due to breakage.

For example, if the controller (3) shows a consumption of 2 tons on January 1, it may be the actual water consumption, but if the constant minimum value is kept as 0.2 ton on January 2 and 0.3 ton on January 3, It is judged to be leakage by the leakage.

The pipe network apparatus 77 according to the present invention is a device for displaying the location of a facility including a pipeline in a distribution water system of a village waterworks on a map. In order to display a basic pipe network necessary for waterworks management, The measurement data and the image data including the identification information including the address, the measurement data including the date and time, and the image data. The measurement data and the image data include the current water level and the motor operation state measured and photographed in the field and transmitted in real time Or data uploaded from a specific recording medium, and displays facility / repair history data including excavation or depth information for the village waterworks network facility.

The controller 3 according to the present invention controls the medicine dispenser to re-supply a certain amount of chlorine in accordance with the summer, winter, or rainy season, if the motor is kept in an inoperative state for a predetermined period of time.

The electric power checking module of the controller 3 according to the present invention controls the operation of the angle sensor attached in close contact with the bottom surface of the pressure means 25, And to transmit power to the surveillance camera so as to be photographed only in association with the signal.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 and 2, an integrated management system for village waterworks according to an embodiment of the present invention includes a groundwater well 1, a groundwater well protection device 2, a controller 3, A water tank 5, a tank side controller 6, a controller 3, a village broadcasting system 8, and an administrator terminal 9. [0034]

As shown in FIG. 1B, when the residence time of the groundwater in the reservoir tank 5 is less than or equal to a predetermined value, the pump is started within a predetermined range of the maximum power load time, and the power maximum load time The pump is started as much as possible and the appropriate amount of water is sent to the water storage tank to utilize the midnight power section.

For example, the controller 3 receives the operation pattern information, the electric power rate change information of the pump 13, and the situation information of the associated reservoir tank 5, And to stop the operation of the pump 13 by using the information accumulated in the databases 55 and 56 and to control the flow rate of the flow of the current storage tank 5 and the flow rate of the flow of the current storage tank 5 (13:00) at the start time of the pump (13) within the planning time, which is the time remaining until the reference time (next day 07:00), which is the maximum load time zone, It is possible to control the operation of the pump 13 by judging it similar to the past information.

If the residence time of the groundwater in the reservoir tank 5 is less than the predetermined value, it is possible to start the pump 13 within a predetermined range of the maximum load time, 13 to maximize the utilization of the midnight power section by sending the appropriate amount of water to the water storage tank 5 as much as possible.

The controller 3 includes a communication check module 71, a power check module 72, a temperature sense module 73, a quantity detection module 74, a leak check module 75, and the like.

The communication check module 71 equally pumps a certain percentage of the water pumped for a certain period of time during the period before the inspection time to the tank so as to prevent the number of steps during the RF network check time and to prevent freezing of the winter water pipe The temperature sensor s39 is attached to the underground water shielding device 2. When the temperature measured by the temperature sensor s39 is lower than the set temperature, the temperature sensor module 73 repeats the motor at a predetermined time interval, And the power check module 72 detects that the surveillance camera in the groundwater well is opened at the moment when the underground water depth protection means 25 is opened and closed, 25 so as to transmit the power to the surveillance camera so as to be photographed only in association with the operation signal of the angle sensor attached thereto, The module 75 can check the leakage by comparing the sound at the normal occasion occurring during the pumping at the occlusion unit 222 with the sound sensor at the time of occurrence of the leakage and checking the leakage of the water through the pressure sensor In order to estimate the leakage of the water supply pipe using a specific time, the water detection module 74 detects the water leakage level when the water is reduced to a certain level or less through the level sensor using the angle sensor at the time of using water below a predetermined value If the water is depleted or recovered by using an electrode to check the water shortage phenomenon when the water is depleted, the data of the recovery time is data. If the motor is not operated for a certain period of time, The controller 3 controls the reservoir 4 to regenerate a certain amount of chlorine so that the reservoir 4 is fed back to the reservoir 5 so that the controller 3 can return to the reservoir 5, By installing the electrode on a particular point in the terminal it will be integrated in accordance with the falling characteristic curve point.

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 the 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).

Referring to FIGS. 1C and 1D, it is checked whether RF is abnormal (S402) after checking the transmission / reception call (S401) And increases the amount.

Also, when the pumping stop time is longer than a predetermined time, the season is grasped or the temperature is grasped, and the re-chlorine input and the pumping time are adjusted according to each case (S504 to S507). For example, it is determined in advance whether to pump every few minutes for a certain period of time.

As shown in FIGS. 1E and 14, 1) communication network information, leakage information, malfunction information, and salt material input information are input (S201).

2) Input other detailed network diagram information (topology, etc.) (S202).

3) The inputted network diagram information is stored in the DB (S203).

4) It is confirmed whether the network map information is corrected (S204).

5) If the pipe network is an input error of the information (S205), the information is corrected (S206).

6) If the connection between the constant runaway (topology) in the network map information is an error (S207), the connection information is modified (S208).

7) The final modified pipe network is displayed (S209).

As shown in FIG. 1F, 1) it is checked whether a transmission / reception call is well transmitted in the network (S101).

2) Check whether the communication network is normal or the signal is normal, and check if the water level controller is out of order (S102).

3) Whether the water level in the tank is high or low is determined (S103).

4) Turn the motor off (S104) if it is high, and turn on the motor if low (S105).

5) Compares with the reference time of the database and confirms whether it is waiting for a predetermined time or more (S106).

6) The chlorine is re-introduced into the tank (S107).

7) Meanwhile, in order to determine the pumping time of the pump, it is checked whether the existing pumping time <the current pumping duration (S108).

8) Turn on the motor during the existing pumping time with reference to the DB storing the existing information (S109).

As shown in FIG. 1F, if the water level controller fails, the chlorine can be re-introduced into the air for a predetermined period of time. If the motor is not operated for a predetermined period of time, The controller 3 can control so that the medicine supplier 4 on the side of the view side re-introduces a certain amount of chlorine.

The controller 3 provided in the underground water well protection device 2 provided on the groundwater well 1 side and the water storage tank 5 and the tank side controller 6 are provided with information for mutual control , The amount of pumping, the amount of input of medicine, etc.) by wire or wireless.

The information measured by the reservoir tank 5 and the tank controller 6 is transmitted to the controller 3 provided in the groundwater hedging device 2 through the communication network and displayed and stored for monitoring by the administrator, The command or information inputted or processed by the manager is transmitted to the controller 3, the reservoir tank 5, and the tank controller 6 provided in the groundwater reservoir protecting device 2 through the communication network.

Referring to FIG. 4, the groundwater canal protecting apparatus 2 according to an embodiment of the present invention includes a housing and a water-to-water pipe connecting device 22.

The housing is installed at the upper part of the casing casing pipe 21 'so as to seal the upper part of the groundwater facility so that contaminants do not flow into the groundwater pipe assembly 1. The amphibious-water pipe connection device 22 is installed inside the housing.

Referring to the drawings, the housing includes a case 21, a casing casing pipe 21 ', an occlusion portion 13, a case cover 24, a wire tube 32, and a battery 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 connection device 22 described below. The case casing 21 'and the wire pipe 32, And is embedded 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.

5, a fixing pin 262 is provided at the center of the pressing frame 261 to prevent lateral movement, thereby minimizing the movement of the pipe 234 and the like, thereby improving durability. That is, water pressure is applied to the pipe 234 in the groundwater pipe protection device 2 due to the on-off operation of the pump and the phenomenon of water hammer during pumping, so that the first connection pipe 232 and the second connection pipe 233 are connected to the upper The packing coupled to the occlusion unit 222 and the occlusion head 221 due to soaring is not tightly coupled to the first case when the first operation is performed, but if it is used for a long time, the packing may be damaged and leakage may occur.

5, a fixing pin 262 is formed on one side of a pipe 234, and a fixing pin hole 261a is formed at a central portion of a pressing frame 261 which can be pressed by inserting the fixing pin 262 The bolts 263a of the first fixing support 263 are inserted into the bolt holes 261b formed on both sides of the pressing frame 261 and fixed by the washers and nuts 263c so that the pipe 234 By moving it up and down in a fixed position, the packing of the occlusion is not damaged or easily worn. The first fixed support frame 263 is coupled to the lower hook portion 263b of the first fixed support frame 263 by a hooking hook 11b formed on the upper surface of the upper flange portion 11a of the casing casing 11.

The pressing frame 261 may have a "C"

A second fixed support platform 2633 is provided on the opposite side of the first fixed support platform 263 so as to minimize movement of the pipe 234 together with the first fixed support platform 263, do.

And further includes a supporting member 2121 in the form of a vertically stacked shape for vertically supporting the reinforcing member 212.

Inside the case 21, there is always provided an "a" tool which can be immediately repaired.

7 to 9, 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 and the like, A water intake pipe (272) connected to the water intake device is connected to the side of the case (21) to discharge groundwater discharged from the device. Referring to the drawing, the water intake pipe 272 has a lower end connected to the case 21 and an upper end opening exposed above the ground surface.

The tubular casing pipe 21 'is integrally connected to the case 21 at a lower portion of the case 21 and is connected to the tubular casing 11 and has a water- An occlusion portion for engaging the occlusion head is formed. Referring to the drawings, the tubular casing pipe 21 'has a pipe-shaped upper end connected to the lower part of the case 21 so as to communicate with the case 21, and a lower end connected to the upper end of the tubular casing 11 do. The water pipe 221 connected to the water intake destination is connected to the lower end side of the pipe casing pipe 21 '.

The case cover 24 is a plate member for covering the upper opening of the case 21, and its edge is tightly engaged with 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 measurement instrument or the like, the cover 24 must be opened, which is inconvenient. The present invention is characterized in that an observation opening 245 capable of observing the interior of the case cover 24 so that the measuring instrument can be easily seen without opening the entire case cover 24 can be easily operated, The opening cover 242 of the observation opening 245 is detachably mounted.

The present invention is characterized in that a ring-shaped handle 241 is provided on the upper portion of the case cover 24 so that the operator can easily lift the cover 24 when the case cover 24 is opened or closed . The lower end of the casing casing pipe 21 'of the housing configured as described above is connected to the upper end of the casing casing pipe 21' so that the case 21 is embedded in the ground surface from the upper part of the casing casing pipe 21 ' do.

The upper opening of the case 21 is exposed above the ground surface and is sealed by the case 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 amphibious-water pipe connection device 22 is mounted inside the housing provided in the groundwater pipe, and the control device 3 is connected to the wire pipe. The water-to-water pipe connection device 22 is provided with a pipe connecting the water pipe 233 and the water pipe 12 so that the water pipe 12 enters the inside of the pipe casing 22, 222, and the occlusion head 221 is engaged to connect the water outlet pipe and the water discharge pipe.

The controller 130 controls the driving of the pump provided at the lower end of the pumping pipe L in the panel box 131 and the wire W connected to the pump P Is provided at a lower portion of the panel box 131. [0052]

The control unit 130 is connected to the upper end of the wire tube 114 of the housing 110 so that the lower end of the take-out tube 132 is installed so that the panel box 131 is exposed on the ground surface.

Referring to FIGS. 10A to 11, the water storage tank 5 is pumped in the groundwater pipe 1 and supplied through the water pipe 52 for storage. The water stored in the water storage tank 5 is supplied to the water supply (not shown) through the water supply pipe 53.

10B, an angle sensor 604 attached to the bottom surface of the auxiliary cover 605 and the auxiliary cover 605 and an angle sensor 604 attached to the bottom of the water tank cover 505 and the water tank cover 505, An angle sensor 504 may be included.

When the auxiliary cover 605 serving as the primary locking device is lifted, the angle sensor 604 senses the rotation of the auxiliary cover 605, the power of the image storage device is turned on to start recording, and the SMS message can be notified when the angle sensor 604 is disconnected Do.

 The same operation is performed as described above even when the water storage tank cover 505 serving as the secondary pressure device is lifted.

Therefore, the power can be turned on by opening and closing the auxiliary cover 605, so that the recording can be started from the moment the outside party intrudes, thereby solving the recording blank time.

The angle sensors 504 and 604 may be replaced by a magnetism sensor.

On the other hand, when the amount of water stored in the water storage tank 5, that is, the water storage amount becomes insufficient, water should be supplied from the groundwater well 1 and water is introduced into the water storage tank 5 at a water level higher than a certain level, The water level sensor 51 is provided in the water storage tank 5 for the water level measurement of the water storage tank 5. [

The information about the water level measured by the water level sensor 51 is transmitted to the controller 3 through the tank side controller 6 and information for controlling the operation of the pump 13 of the groundwater tank 1 do.

Therefore, the information about the water level measured by the water level sensor 51 is transmitted to the controller 3 through wired / wireless lines.

In particular, the present invention can be configured simply using a tilt sensor that measures the inclination of the water level sensor 51.

The water level sensor 51 includes a rotation bar 511 rotatably hinged to a hinge shaft 512 provided in a side wall of the water storage tank 5 and a valve body 511 connected to the other end of the rotation bar 511, And a tilt sensor 513 mounted on the rotation bar 511 for measuring the rotation tilt state of the rotation bar 511. [

The water level sensor 51 constructed as described above changes the inclination of the water level sensor 51 due to the rotation of the rotation bar 511 because the water level sensor 512 floats on the water. Accordingly, the water level in the water storage tank 5 can be measured by converting the water level using the tilt value of the tilt sensor 513 which varies accordingly.

11, the water level sensor 51 detects the water level in the range between the state where the water level is lowered and the water level is raised from the state where the water hole 512 is located at the lowest point h1 to the state where the water hole 512 is located at the highest point h2 the water level can be measured in the step (h).

The tank side controller 6 receives and processes the water level information of the water storage tank 5 observed by the water level sensor 51 and the water quality information observed by the water quality observation sections 6a and 6b on the tank side, To the controller 3 and the controller 3 through the control unit 3 and peripheral equipment related to the water storage tank 5 such as the tank side medicine dispenser 6a, the water supply shutoff valve 53a, the drain valve 54a As shown in Fig.

The tank side controller 6 may be constituted by only an input terminal for receiving a signal, an output terminal for outputting a signal to the outside, and a communication module for transmitting and receiving an input signal and a signal for output to the controller 3 And also receives signals from a tone color sensor for outputting a signal for controlling the drug dispenser 6a from the received signal and processes the signals related to the input water level or water quality, .

The tank side controller 6 controls the operation of the medicine injector 6a so as to be supplied to the reservoir tank 5 by adjusting the amount of the medicine to be injected by the tank side medicine injector 6a. On the other hand, the tank side controller 6 receives the water level information of the water storage tank 5 measured by the water level sensor 51, and transmits the information to the controller 3.

The tank side controller 6 is connected to the water supply pipe 53 extending from the water storage tank 51 to a receptacle (not shown in the drawings) from a change in water level information of the water storage tank 5 measured by the water level sensor 51 ) Is leaked. 16A and 16B are graphs showing a state in which the water level of the water storage tank 51 measured by the water level sensor 51 changes with time.

The graph shown in FIG. 13A relates to the case where there is no leakage. From the graph, it can be seen that when the supply of groundwater from the underground water well 1 to the water storage tank 5 is completed, The water level of the water storage tank 5 is kept constant and the water level is decreased according to the water supply time between the time when the water is supplied to the customer (t1 to t2), the water level after the water supply to the customer is finished (T2 to t4), the water level remains constant because there is no leakage.

FIG. 13B is a graph showing a change in the water level in the case where water leakage occurs. Referring to FIG. 13, the time when the supply of groundwater from the groundwater well 1 to the water storage tank 5 is completed, t0 to t1), the water level in the reservoir tank 5 is relatively gentle but decreases at a constant slope. During the time t1 to t2 when the water is supplied to the customer, the water level is changed to a steep slope And the water level is maintained to be decreased at a constant slope due to leakage even during the time (t2 to t4) after the water supply to the customer is finished.

That is, when the water level of the water storage tank 5 measured by the water level sensor 51 is decreased at a constant rate, the tank side controller 6 controls the water level of the water stored in the water storage tank 5, It is possible to determine that leakage occurs in the water supply pipe 53 leading from the water supply pipe 5 to the customer.

It is preferable that the leakage check is performed in a time zone in which the water supply is not made to the customer, for example, in the middle of the night, since the water level change is abrupt and frequently changes during the water supply to the customer.

The tank side controller 6 receives information on the water quality observed by the water quality monitoring units 6b and 6c on the tank side and controls the tank side medicine injector 6a, the water supply shutoff valve 53a, And controls the operation of the valve 54a.

The tank-side medicine dispenser 6a is configured to inject medicines for disinfecting the water into the water storage tank 5.

As described above, according to the present invention, medicines for disinfection can be supplied to the groundwater pumped by the groundwater well 1 by the tubular chemical injector 4, The chemical may be supplied to the ground water by the tank-side chemical injector 6a.

The amount of the medicine to be supplied by the tank-side medicine dispenser 6a is adjusted according to the amount of the groundwater introduced into the reservoir tank 5. To this end, the outlet of the water pipe 52 connected to the reservoir tank 5 It is preferable that a flow sensor (not shown in the figure) is provided at the side end. In addition, the amount of groundwater flowing into the bottom 5 can be calculated by calculating the amount of groundwater increased from the water level of the water storage tank 5 measured by the water level sensor 51.

The amount of medicine input into the water storage tank 5 by the tank medicine dispenser 6a is controlled by the tank controller 6 so as to be appropriately performed in accordance with the flow rate flowing into the water storage tank 5 The operation of the medicine injector 6a is controlled.

The tank-side water quality observing sections (6b, 6c) are for observing the quality of the ground water stored in the water storage tank (5).

The integrated management system of the village waterworks according to the embodiment of the present invention is characterized in that the water quality, turbidity, pH, residual chlorine amount, nitrate amount and heavy metal amount of water stored in the water storage tank 5 by the tank water quality monitoring units 6b, And transmits the sensed water quality information to the tank-side controller 6.

A water temperature sensor for measuring the water quality information of the water stored in the water storage tank 5, that is, water temperature, turbidity, pH, residual chlorine amount, nitric acid small amount and heavy metal amount is provided in the tank side water quality observation part 6b, a pH sensor, a residual chlorine sensor, an electric conductivity sensor (heavy metal concentration detection), and a nitrate nitrogen sensor.

The water quality measuring sensor is composed of a type (6b) to be introduced into the water storage tank (5) or a type (6c) to measure a water quality of pumped water by pumping a part of water stored from the water storage tank .

The tank side controller 6 notifies the tank side water quality information received by the tank side water quality monitoring unit 6b to the controller 3 so that the manager can monitor the tank side water quality information, Whether or not the groundwater is to be pumped from the groundwater well 1, whether or not water is to be supplied through the water pipe 53, and whether it is discharged through the drain pipe 54, and controls each device.

FIG. 15 is a diagram showing operation information (capable of monitoring the current status of various items on a selected site, and capable of checking a graph by time and by date) according to an embodiment of the present invention. FIG. FIG. 17 is a view showing important information (management items and information for a selected site and information of a selected site can be confirmed) of a village waterworks integrated management system according to an embodiment of the present invention. FIG. FIG. 18 is a view showing the main information of the integrated management system of the village waterworks (the groundwater information and the multi-item measurement monitoring for the selected site can be monitored, the graph can be confirmed by the date, and the monitoring mode is supported) FIG. 19 is a view showing the main information of the integrated management system, FIG. 19 is a diagram showing the integrated management of the village waterworks according to an embodiment of the present invention FIG. 20 is a view showing main information (optional field installation, facility check, etc.) of the system, and FIG. 20 is a diagram showing main information of the village waterworks integrated management system according to an embodiment of the present invention FIG. 21 is a view showing the main information of the integrated management system of the village water according to the embodiment of the present invention (the management items and information on the selected site can be checked, FIG. 22 is a view showing main information (management of an error SMS transmission history, capable of real-time error monitoring of all equipment modes) of the integrated management system of the village waterworks according to an embodiment of the present invention; FIG. 23 is a view showing the main information of the village waterworks integrated management system according to the embodiment of the present invention Available for inspection management, it shows a daily, monthly reports can be output).

Specifically, Fig. 15 shows the state of state, the leakage graph per hour, and the motor operation graph. The water tank transmission / reception state, the modem transmission / reception state, and the chemical level signal line are added. A certain percentage of the water pumped to the tank during a certain period of time may be equally pumped into the tank.

FIG. 16 shows satellite photograph information and preview photograph information, and shows aperture, capacity, and depth of a construction date motor, and caliber and depth information in case of excavation.

Such information may be displayed in addition to the network diagram indicating facility / maintenance history data including excavation or depth information for the village waterworks network facility.

FIG. 17 shows a groundwater level change graph and a channel pressure change graph. In the case of such a change in the duct pressure, it is possible to estimate the leakage position by calculating the leaked position of the water pipe through the pressure sensor of the groundwater pipe as a pressure height with respect to the whole height.

FIG. 19 shows the details of the inspection by date and the detailed contents of the inspection picture and contents.

FIG. 20 shows facility name and error details (lack of medicine, number of injections, etc.), administrator, error occurrence time, and error elapsed time.

FIG. 21 shows an error setting, and inputs information such as a leakage amount, a water level, a chemical level, a chemical input, a solar battery, and the like.

Fig. 22 is a screen for monitoring operation, chlorine disinfection, drug shortage, residual chlorine, measurement date, and the like.

Fig. 23 shows the equipment number, reception date, reception contents, and the like in the equipment inspection view [simple water supply] screen.

The town water integrated management system described above and shown in the drawings is only one embodiment for practicing the present invention and should not be construed as limiting the technical idea of the present invention.

The scope of protection of the present invention is defined only by the matters set forth in the following claims, and the embodiments improved and changed without departing from the gist of the present invention are obvious to those having ordinary skill in the art to which the present invention belongs It will be understood that the invention is not limited thereto.

1 Groundwater reservoir
11 housing casing
11a upper flange portion
11b latching ring
12 Pumping tube
13 Pump
2 Underground water protection system
21 cases
21 'casing casing tube
211 Cover upper surface
212 Stiffener
215 Bending section
22 Pumping pipe - water pipe connection device
221 Occlusal head
221a Occlusal surface
221b pressing surface
221d Extension observation exit
221e extension observation entrance
221f Occlusion side outlet
221g O-ring groove
221 'O-ring
222 occlusal portion
222a occlusal surface
222b pressure face
222c outlet
223 Outflow pipe
23 Plumbing facilities
232 first connection pipe
233 Second connector
234 Piping
24 Case Cover
24a, 24b bar insertion hole
241 ring
242 opening cover
242a, 242b bar insertion hole
243 Locking Hole
244a bolt
245 observation open area
25 hourly means
251 bolt holes
252 engaging portion
26 Pointer Device
261 Pressurized frame
261b Bolt hole
262 Retaining pin
263 Fixed support
263a Volt part
263c Washers and nuts
263b hook portion
27 Pressure bolt
271 Hook
272 Water intake pipe
275a to 275d: pipe facilities
3 controller
31 panel box
32 drawer pipe
32a, 32b Wire drawing pipe
32c water dropping portion
35 Control means (control section)
s31 Pressure sensor
s32 Electrode sensor
s33 tone sensor
s34 Surveillance camera
s35 security sensor section
s35a Motion detection sensor
s35b thermal sensor
s35c shock sensor
4 Drug injector
s40 observatory
s41 Location sensor unit
5 water tank
51 Water level sensor
511: Rotating bar
512:
513: tilt sensor
52: water pipe
53a water shutoff valve
54a drain valve
6 Tank side controller
6a Tank side drug dispenser
6b Water quality observing part on the tank side
6c Tank side sensor part
7 Management Server
8 town broadcasting system
9 Manager terminal

Claims (9)

An integrated management system for a village water supply system for managing the groundwater in a village water supply system for receiving and storing ground water from a ground water reservoir and sending it to a water storage tank and watering the stored water to a customer, The controller for controlling the station is provided with a communication check module for operating the communication check, a power check module for power saving, a temperature sensing module for forcibly starting the motor according to the temperature, a quantity sensing module for checking the shortage of water in the reservoir tank, And a leakage check module for checking the leakage of the groundwater well through a sensor,
The controller's communication check module equally pumps a certain percentage of the water pumped to the tank for a period of time prior to the check time to block the number of steps during the RF network check time,
The temperature sensing module of the controller repeatedly starts the motor at a predetermined time interval when the temperature is below the set temperature,
The leakage check module of the controller checks the sound at the normal occasion occurring at the occlusion at the occlusion and the sound at the occasion of leakage,
The leakage position can be estimated by calculating the leakage height of the water pipe through the pressure sensor of the groundwater pipe as a pressure height with respect to the whole height,
The controller of the water quantity sensing module may be used when the residents continue to use the water level sensor to estimate the leakage of the water supply pipe using a specific amount of time for which the water supply is not used, The integrated management system of the village water system for convenience of maintenance and efficiency improvement of the facility. delete delete delete delete delete The method according to claim 1,
In order to display the basic pipe network necessary for the waterworks management by displaying the location of the facilities including the pipelines and the various valves in the distribution water system of the village waterworks on the map, Wherein the measurement data and the image data are recorded on a recording medium, wherein the measurement data and the image data are recorded on a recording medium, And a pipe network device for displaying facility / repair history data including excavation or depth information for the village waterworks pipe network facility, and a pipe network device for displaying maintenance / system. The method according to claim 1,
When the controller keeps the motor in an inoperative state for a certain period of time, controls the chemical injector to re-supply a certain amount of chlorine in accordance with the summer, winter, or rainy season. Integrated Water Management System for Efficiency Improvement. The method according to claim 1,
The power check module of the controller may be configured such that the surveillance camera in the groundwater monitoring system detects power of the surveillance camera when the surveillance camera is in contact with the operation signal of the angle sensor attached in close contact with the bottom surface of the sensing means, And the control unit controls the control unit so as to transmit the control signal to the control unit.

Images