KR101619383B1 - Real Time Flux Watching System for Analog Type Flowmeter and Flux Watching Method - Google Patents

Abstract

Disclosed are a system and a method to monitor a flow rate for an analog flow meter in real time which accurately calculates flow rate information in a prescribed time slot for a pipe line of a wide water service or a local water service to which an analog flow meter is applied in real time. According to the present invention, the system to monitor the flow rate for the analog flow meter in real time comprises: an analog flow meter installed in at least one pipe line among pipe piles in a wide water service and a local water service, and provides with a plurality of rotary bodies of different diameters rotating in accordance with a flow rate of the corresponding pipe line; a camera to photograph the rotary bodies of the flow meter; and a manager terminal to receive an image photographed by the camera to display the image on a screen, calculate a number of rotations of each rotary body during a prescribed time, and output flow rate information during the prescribed period of time based on the calculated number of rotations of each rotary body.

Description

Technical Field [0001] The present invention relates to a real-time flow monitoring system and a flow monitoring method for an analog flow meter,

The present invention relates to a real-time flow monitoring system and a flow monitoring method for an analog flow meter, and more particularly, to a real-time flow monitoring system and method for monitoring flow rate of an analog flow meter, The flow rate information of the time zone set for the water supply can be accurately calculated in real time. Time flow monitoring system for an analog flow meter.

Generally, in order to manage water resources and manage the fluids used in industrial facilities, it is necessary to be able to measure and manage the flow rate, quantity and pressure.

To this end, a conventional flow monitoring system has a flow meter installed in a pipeline of a wide-area waterworks and a local waterworks, and measures and accumulates the flow rate supplied through each pipeline.

On the other hand, in general, a flow meter installed in a channel of a wide-area tap water or a local tap water has a plurality of rotors having different diameters, and converts the number of revolutions at which each of the rotors is rotated according to the flow rate into a digital value, It is an analog type flow meter that judges information.

However, such an analog type flow meter has a problem in that it is not easy to determine accurate flow rate information for each day and time zone, because the rotational speed of each rotating body varies depending on the flow rate flowing through the pipeline. In other words, in order to obtain accurate flow information for the analog type flow meter by date and time, the manager must directly visit and monitor the location of the flow meter installed in the corresponding channel by the date and time zone to be monitored. There is a problem in that it takes considerable labor and cost to judge accurate flow information of the local waterworks by day and time.

Published Patent Publication No. 10-2012-0004821 (published on Jan. 13, 2012)

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 an apparatus and a method for realizing the flow rate information of a time zone of a metropolitan waterworks or a local waterworks with an analog type flow meter applied thereto without visiting each flow meter, Which can be accurately calculated. Time flow monitoring system for an analog flow meter and a flow rate monitoring method thereof.

According to an aspect of the present invention, there is provided a real-time flow rate monitoring system for an analog flow meter, the flow rate monitoring system including a plurality of rotating bodies installed in at least one of a wide-area waterworks and a local waterworks, An analog type flow meter in which each rotating body rotates according to the flow rate of the channel; A camera for photographing each rotating body of the flowmeter; And an image picked up by the camera is displayed and displayed on the screen, the rotation number of each rotation body for the set time is calculated, and the flow amount information for the set time is output based on the calculated rotation number of each rotation body And a manager terminal for managing the manager terminal.

Here, the administrator terminal includes an appearance determining unit for determining appearance of a reference position of each rotating body with respect to an image displayed on a screen; A rotation number calculation unit for calculating a rotation number of each rotating body on the basis of appearance of a reference position judged by the appearance judging unit; And a flow rate information output unit for converting the number of revolutions of each of the rotors calculated by the number-of-revolutions calculating unit into a digital value and outputting flow rate information for a predetermined time.

The manager terminal may further include: a rotation period calculator for calculating a rotation period of each rotating body for a predetermined time; And an elapsed time calculator for calculating an elapsed time from when the appearance of the reference position of each rotating body is judged by the appearance judging unit to when the appearance of the next reference position is judged. In this case, the number-of-rotations calculating unit calculates the number of rotations of the respective rotors based on the rotation period calculated by the rotation period calculating unit and the elapsed time calculated by the elapsed time calculating unit.

The administrator terminal may include a camera control unit for controlling on / off of whether or not the camera is photographed.

The flow rate monitoring system may further include a communication device for transmitting an image taken by the camera to the administrator terminal by wire or wirelessly.

According to an aspect of the present invention, there is provided a flow rate monitoring method including: a plurality of rotating bodies installed in at least one of a wide-area water supply system and a local waterworks, the plurality of rotating bodies having different diameters, A flow rate monitoring method for real time monitoring of an analog type flow meter in which each rotating body rotates, the flow rate monitoring method comprising the steps of: photographing each rotating body of a flow meter by a camera; Receiving an image taken by a camera by a manager terminal and displaying the received image on a screen; Calculating the number of revolutions of each rotating body for a predetermined time by the manager terminal; And outputting the flow rate information for a predetermined time based on the calculated number of revolutions of each rotating body of the manager terminal.

The flow rate monitoring method may further include determining an appearance of a reference position of each rotating body with respect to an image displayed on the screen by the administrator terminal. In this case, the number-of-rotations calculating step calculates the number of rotations of each rotating body on the basis of appearance of the reference position to be judged.

The above-described flow rate monitoring method includes: calculating a rotation period of each rotating body for a predetermined time by an administrator terminal; And calculating an elapsed time from when the appearance of the reference position of each rotating body is determined by the appearance number calculation step to when the appearance of the next reference position is judged. In this case, the number-of-rotations calculating step calculates the number of rotations of the respective rotors based on the rotation period calculated by the rotation period calculating step and the elapsed time calculated by the elapsed time calculating step.

The flow rate monitoring method may further include a step in which the administrator terminal controls on / off whether or not the camera is photographed.

The flow rate monitoring method may further include transmitting the image captured by the communication device to the administrator terminal wirelessly or by wire.

According to the present invention, it is possible for the manager to accurately calculate the flow rate information in the time zone set for the pipeline of the metropolitan waterworks or the local waterworks to which the analog flowmeter is applied, without having to visit the location of each flow meter.

1 is a schematic view illustrating a real time flow rate monitoring system for an analog type flow meter according to an embodiment of the present invention.
Fig. 2 is a view schematically showing the configuration of the flow rate monitoring system shown in Fig. 1. Fig.
3 is a view showing an example of a plurality of rotors provided in an analog type flow meter.
4 is a view schematically showing the configuration of the administrator terminal shown in FIG.
5 is a view for explaining a process of calculating the number of revolutions of each rotating body of the flowmeter by the manager terminal.
6 is a flowchart illustrating a flow rate monitoring method according to an embodiment of the present invention.

Hereinafter, a real-time flow rate monitoring system and a flow rate monitoring method for an analog type flow meter according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view illustrating a real time flow rate monitoring system for an analog type flow meter according to an embodiment of the present invention.

Referring to FIG. 1, a flow rate monitoring system according to an embodiment of the present invention is provided with a camera 20 corresponding to an analog flow meter 10 installed in a pipeline of a wide-area waterworks and a local waterworks, And a communication device 30 for transmitting an image taken by the wireless terminal 20 to the administrator terminal 100 by wire or wireless. At this time, the communication device 30 communicates with the manager terminal 100 through a mobile communication network such as a Code Division Multiple Access (CDMA), a Wideband CDMA (WCDMA), or a Long Term Evolution (LTE) And can communicate with the administrator terminal 100 via a wireless network such as Wibro and / or the Internet.

Fig. 2 is a view schematically showing the configuration of the flow rate monitoring system shown in Fig. 1. Fig.

2, the real-time flow rate monitoring system for an analog flow meter includes an analog flow meter 10, a camera 20, a communication device 30, a power generation unit 40, and a power monitoring unit 50 Respectively.

The flow meter 10 is provided in a channel of a wide-area water supply pipe and / or a local water supply pipe. The flow meter 10 is provided with a plurality of rotating bodies of different diameters, Lt; / RTI > 3, the flow meter 10 includes a plurality of rotating bodies 12, 14, 16 having different diameters, and each of the rotating bodies 12, 14, 16 has a saw- The smallest rotating body 12 rotates according to the flow rate flowing through the channel and the rotating bodies 14 and 16 of the next size are sequentially rotated according to the degree of rotation of the smallest rotating body 120 . However, the structure of the flowmeter 10 of the analog system is not limited to the form shown and described, and it is needless to say that the flowmeter 10 may be implemented by various types of analog systems.

The camera 20 photographs each of the rotors 12, 14, and 16 of the flowmeter 10. At this time, the camera 20 transmits the photographed image to the administrator terminal 100 through the communication device 30. The camera 20 also receives an on / off control signal from the manager terminal 100 through the communication device 30 and controls the rotation of the respective rotors 12 , 14, 16).

The communication device 30 transmits the image photographed by the camera 20 to the administrator terminal 100 in a wired or wireless manner and receives an on / off control signal for the camera 20 from the administrator terminal 100, (20).

The power generation unit 40 generates power using at least one of sunlight, wind, and hydroelectric power, and supplies the generated power to the respective components of the camera 20, the communication device 30, and the like. That is, the power generation unit 40 performs self-power generation by using natural resources such as sunlight, wind, hydraulic power, and the like, and supplies power generated through self-power generation to components such as the camera 20 and the communication device 30 Supply.

The power monitoring unit (50) monitors the power generated or supplied by the power generating unit (40). That is, the power monitoring unit 50 monitors to what extent the amount of power generated or supplied by the power generating unit 40 is. At this time, when the amount of electric power generated or supplied by the electric power generating unit 40 becomes a predetermined value or less, the electric power monitoring unit 50 drives the emergency electric power source to supply electric power to each component, To the administrator terminal 100 via the network.

The manager terminal 100 receives the image photographed by the camera 20 and displays the image on the screen and calculates the number of revolutions of each of the rotors 12, 14 and 16 of the flow meter 10 for the set time, And outputs the flow rate information for the set time based on the calculated number of rotations of the rotating bodies 12, 14, and 16. At this time, the administrator terminal 100 can transmit the flow rate information to the central management server (not shown) through the communication device 30. [ In this case, the central management server can receive the flow rate information from the pipelines of the respective wide-area waterworks and the local waterworks, compute the flow information for each of the wide-area waterworks and the local waterworks based on the received flow rate information, It is possible to construct a database corresponding to the wide-area waterworks based on the flow rate information.

4 is a view schematically showing the configuration of the administrator terminal shown in FIG.

4, the manager terminal 100 includes an appearance determination unit 110, a rotation number calculation unit 120, a flow information output unit 130, a rotation period calculation unit 140, an elapsed time calculation unit 150, And a camera control unit 160.

The occurrence determining unit 110 determines the appearance of the reference position of each of the rotors 12, 14, and 16 with respect to the image displayed on the screen. That is, as shown in FIG. 5, the appearance determining unit 110 sets reference positions for the images of the respective rotors 12, 14, and 16 displayed on the screen, 14, 16) rotates and judges the appearance of the reference position when the reference position passes the specific point.

The rotation speed calculation unit 120 calculates the rotation speed of each of the rotors 12, 14 and 16 based on the appearance of the reference position determined by the appearance determination unit 110. [ At this time, the rotation speed calculation unit 120 counts the appearance of the reference position determined by the appearance determination unit 110, and calculates the rotation speed of each of the rotors 12, 14, 16 based on the counted number of times can do. In this case, since the rotation number calculating section 120 knows the diameter of each of the rotors 12, 14, 16, when the rotation number of the smallest rotating body 12 is calculated to be the smallest, (14, 16).

The flow rate information output unit 130 converts the rotational speeds of the respective rotors 12, 14 and 16 calculated by the rotational speed calculating unit 120 into digital values and outputs flow rate information for a set time period. At this time, it is preferable that the flow rate information output unit 130 stores the flow rate value flowing through the channel when the rotating body 12 having the smallest diameter makes one rotation with respect to the channel in which the flow meter 10 is installed. Since the diameter of the smallest rotating body 12 can be known from the manufacturing information of the pipe, the flow rate value corresponding to one rotation of the smallest rotating body 12 can be calculated .

The rotation period calculating unit 140 calculates the rotation period of each of the rotors 12, 14, and 16 for the set time. The rotation period of each of the rotors 12, 14 and 16 changes according to the flow rate of the fluid flowing through the conduit. Therefore, the rotation period calculation unit 140 calculates the rotation period of the rotating bodies 12, 14, And calculates the rotation period of each of the rotors 12, 14, 16. At this time, the rotation period calculating unit 140 measures only the rotation period of the smallest rotating body 12, and the rotation periods of the other rotating bodies 14 and 16 are the same as the ratio of the respective diameters to the smallest rotating body 12 As shown in FIG.

The elapsed time calculation unit 150 calculates the elapsed time from when the occurrence of the reference position of each rotating body is judged by the appearance judging unit 110 to when the appearance of the next reference position is judged. In this case, the rotation number calculation unit 120 calculates the rotation number of each rotating body based on the rotation period calculated by the rotation period calculation unit 140 and the elapsed time calculated by the elapsed time calculation unit 150 do. At this time, the rotation period calculating unit 140 calculates the rotation period based on the elapsed time calculated by the elapsed time calculating unit 150 and the rotation period calculated by the rotation period calculating unit 140, , 16) can be calculated after the reference position has appeared.

The camera controller 160 controls on / off of whether or not the camera 20 is photographed. At this time, the camera controller 160 may control the camera 20 to turn on / off according to the set time interval. That is, the camera controller 160 can control the camera 20 to turn on / off the camera 20 at a predetermined time interval, so that the camera 20 can control the flow meter 10 at the time interval set in the time zone selected by the administrator, It is possible to photograph each of the rotating bodies 12, 14,

6 is a flowchart illustrating a flow rate monitoring method according to an embodiment of the present invention.

Referring to FIGS. 1 to 6, the administrator terminal 100 controls whether or not the camera 20 is photographed (S102). At this time, the administrator terminal 100 can control the camera 20 on / off at set time intervals. That is, the administrator terminal 100 can control the camera 20 on / off at a predetermined time interval at an arbitrary time.

When the on / off control signal is received from the administrator terminal 100 through the communication device 30 (S104), the camera 20 determines whether the flow rate of the flow rate meter 10 (12, 14, 16) (S106).

The camera 20 transmits the photographed image to the administrator terminal 100 through the communication device 30 (S108).

The manager terminal 100 displays an image received from the camera 20 through the communication device 30 on the screen (S110) and displays the images displayed on the screen on the rotors 12 and 14 of the flow meter 10 , 16 (S112). That is, the manager terminal 100 sets reference positions for the images of the rotors 12, 14, and 16 displayed on the screen, and rotates the rotors 12, 14, When the reference position passes through a certain point.

The manager terminal 100 calculates the rotation period of each of the rotors 12, 14, and 16 for the set time (S114). That is, since the rotation period of each of the rotors 12, 14, 16 is changed according to the flow rate flowing through the channel, the manager terminal 100 determines that the reference positions of the rotors 12, 14, And calculates the rotation period of each of the rotors 12, 14, 16. At this time, the manager terminal 100 measures only the rotation cycle of the smallest rotating body 12, and the rotating cycle of the remaining rotating bodies 14 and 16 is the same as that of the smallest rotating body 12 .

The manager terminal 100 calculates the elapsed time after the appearance of the reference position of each rotating body is determined and until the appearance of the next reference position is determined (S116).

The manager terminal 100 may calculate the accurate number of revolutions of each rotating body based on the calculated rotation period and the calculated elapsed time (S118). That is, the manager terminal 100 can calculate how much the reference position of each of the rotors 12, 14, 16 has rotated after the appearance of the reference position based on the calculated elapsed time and the ratio of the calculated rotation period. At this time, the manager terminal 100 counts the number of appearance of the reference position, and can calculate the number of rotations of the respective rotors 12, 14, 16 based on the counted number. In this case, since the manager terminal 100 knows the diameter of each of the rotors 12, 14 and 16, the minimum number of revolutions of the rotating body 12 is calculated, and based on the calculated number of revolutions, , 16 may be calculated.

The manager terminal 100 converts the calculated number of rotations of the rotors 12, 14 and 16 into digital values and outputs the flow rate information for the set time (S120). At this time, it is preferable that the manager terminal 100 stores the flow rate value flowing through the pipeline when the rotating body 12 having the smallest diameter makes one rotation with respect to the pipeline in which the flow meter 10 is installed. Since the diameter of the smallest rotating body 12 can be known from the manufacturing information of the pipe, the flow rate value corresponding to one rotation of the smallest rotating body 12 can be calculated .

In this way, it is possible to calculate the number of revolutions of each rotating body with respect to the analog type flowmeter in real time at an arbitrary time zone desired by the manager, and thereby obtain accurate flow rate information corresponding to the channel in the corresponding time zone.

Claims (10)

delete delete An analog type flow meter installed in at least one channel of a wide-area tap water and a local tap water and having a plurality of rotating bodies of different diameters and each of the rotating bodies rotating according to a flow rate of the pipeline;
A camera for photographing each of the rotating bodies of the flowmeter; And
And a controller for controlling the flow rate of the flow rate of the rotary body based on the calculated number of rotations of the rotary body, An administrator terminal for outputting information;
/ RTI >
Wherein the manager terminal comprises:
An appearance determining unit for determining appearance of a reference position of each of the rotating bodies with respect to an image displayed on a screen;
A rotation number calculation unit for calculating a rotation number of each of the rotors based on appearance of a reference position determined by the appearance determination unit;
A flow rate information output unit for converting the rotational speed of each of the rotors calculated by the rotational speed calculating unit into a digital value and outputting flow rate information for the set time;
A rotation period calculating unit for calculating a rotation period of each of the rotating bodies during the set time; And
An elapsed time calculating unit for calculating an elapsed time from when the appearance of the reference position of each of the rotating bodies is judged by the appearance judging unit to when the appearance of the next reference position is judged;
Lt; / RTI >
Wherein the rotation speed calculating unit calculates the rotation speed of each of the rotors based on the rotation period calculated by the rotation period calculating unit and the elapsed time calculated by the elapsed time calculating unit Time flow monitoring system. The method of claim 3,
Wherein the manager terminal comprises:
A camera controller for on / off controlling whether the camera is photographed;
Wherein the flow rate monitoring system further comprises: The method of claim 3,
A communication device for transmitting an image taken by the camera to the administrator terminal by wire or wireless;
Wherein the flow rate monitoring system further comprises: delete delete A flow rate monitor for monitoring in real time an analog type flow meter in which at least one of a meteorological water line and a local tap water line has a plurality of rotating bodies of different diameters and each of the rotating bodies rotates in accordance with a flow rate of the corresponding channel, In the method,
The camera capturing each of the rotors of the flowmeter;
Receiving an image captured by the camera by the administrator terminal and displaying the received image on a screen;
Determining whether an appearance of a reference position of each of the rotators with respect to an image displayed on the screen is performed by the manager terminal;
Calculating a rotation period of each of the rotators for a predetermined time by the manager terminal;
Calculating an elapsed time from when the appearance of the reference position of each of the rotating bodies is judged to the appearance of the next reference position by the appearance judging step of the reference position;
Calculating the number of rotations of each rotator during the set time by the manager terminal; And
Outputting the flow rate information for the set time based on the number of revolutions of each of the rotors calculated by the manager terminal;
/ RTI >
Wherein the step of calculating the number of revolutions includes the step of determining the appearance of the reference position of each of the rotating bodies determined by the appearance judging step of the reference position, the rotation period calculated by the rotation period calculating step and the elapsed time calculated by the elapsed time calculating step And the rotation speed of each of the rotating bodies is calculated based on the time. 9. The method of claim 8,
Controlling the administrator terminal to turn on / off the camera;
Further comprising the steps of: 9. The method of claim 8,
Transmitting, by the communication device, the image taken by the camera to the administrator terminal wirelessly or by wire;
Further comprising the steps of:

Images