KR20090020034A - System and method for detecting water level and stream flow in a manhole - Google Patents

Abstract

A sensing device for water level of a manhole is provided to control the water level and a flow rate of each manhole according to the location with a central control chamber. A sensing device for water level of a manhole comprises: a water level detection part(110) outputting a connection point signal set up in advance corresponding to the abnormal water level generation; a flow detector(120) detecting the flow rate according to the water level detected by the water level detection part; a signal distributor(130) distributing the output of the detection signal of the water level detection part; and a display unit(148) indicating the water level detected by the water level detection part and flow detector.

Description

System and method for detecting water level and stream flow in a manhole}

The present invention relates to a manhole level and a flow rate detection system and method thereof, and in particular, to measure the level in the pipe and the level of the pipe to determine the abnormality of the pipe required for the flow measurement by measuring the level of a single manhole by the position of the manhole in the central control room A manhole level and flow sensing system that can be processed.

In general, a sewage pipe designed like a neural network to treat sewage or rainwater is installed in an arbitrary position for the purpose of flow rate management and maintenance of the pipe.

4 is a schematic configuration diagram of a conventional manhole level and flow rate detection.

As shown in FIG. 4, the manhole 200 is installed at an arbitrary position of the pipe 220 installed below the ground 300, and the manhole cover 210 is disposed at a portion where the manhole 200 and the ground 300 contact each other. This is installed.

In the manhole 200, a flow rate detection unit 420 is installed to detect a flow rate of sewage or rainwater flowing through the pipe 220. The flow rate detection unit 420 detects a flow rate of the pipe 220 and converts the flow rate into a flow rate. It detects conversion.

That is, the flow rate (Q) is calculated by the flow rate (V) and the cross-sectional area (A), at this time, the cross-sectional area is calculated using the water level of the pipe 220 and for this purpose, the water level detection unit 410 is installed in the manhole 200. do.

Since the water level detection unit 110 may vary according to the flow of sewage in the manhole 200, a separate auxiliary tank 412 is installed to measure a stable water level, and the water level meter 414 is installed inside the auxiliary cylinder 412. Install it.

The flow rate, flow rate and water level of the sewage or rainwater measured in this way is output to the display unit 448 installed near the manhole 200 to provide the operator with the status information of the pipe 220.

However, such a conventional manhole water level and flow rate detection device has a problem such as inflow of abnormal water due to breakage due to aging of the pipe or clogging of the pipe at the rear end of the flow rate detection unit, so that the sewage in the manhole is not normally discharged. Even if the operator does not go directly to the site, the management of the pipe is neglected because it does not know, and it takes a lot of time for maintenance, and there is a problem that the maintenance cost of the pipe increases because it is not able to take appropriate measures promptly.

In addition, when the water level of the manhole rises to an abnormal level in this way, the cross-sectional area is calculated based on the water level in the manhole at the time of calculating the flow rate, so that there is a problem that a large error occurs in the flow rate measurement because it is measured at a flow rate exceeding the cross-sectional area of the pipe.

The present invention has been proposed in order to solve the above problems, the collective management of the water level and the flow rate of each manhole by position in the central control room by the maintenance of the pipes by the position of the manhole by the position of the manhole It is an object of the present invention to provide a manhole level and flow rate sensing system capable of compensating for errors and a method thereof.

The present invention for achieving the above object in the water level and flow rate detection system of the manhole installed in a plurality of locations along the sewage treatment pipe, it detects the water level inside each manhole by the differential pressure type and in response to the occurrence of abnormal water level in advance A water level detector for outputting a set contact signal; A flow rate detection unit installed in each manhole for detecting a flow rate of wastewater flowing through the sewage treatment pipe and detecting a flow rate according to the detected water level in the water level detection unit; A signal distributor for distributing the output of the detection signal of the water level detector; A display unit for displaying the water level, the flow rate, and the flow rate detected from the water level detection unit and the flow rate detection unit; An alarm unit for notifying abnormal water level detection of the water level detection unit; The signal detected by the signal distributor and the flow rate detection unit are received from the water level detection unit and displayed on the display unit for each position of the manhole, and when the water level detection unit detects an abnormal water level to inform the position of the manhole And a control unit for controlling to output the water level corresponding to the contact signal to the alarm unit at the same time.

Preferably, the water level detection unit may be a plurality of levels can be set for the abnormal water level detection.

Preferably, the apparatus may further include an AD converter for converting the analog output of the water level detector into a digital signal.

Preferably, when the water level detection unit detects an abnormal water level, the flow rate detection unit may correct the detected current flow rate based on the maximum cross-sectional area of the pipe.

According to another aspect of the present invention, there is provided a water level and a flow rate sensing method of a manhole installed at a plurality of locations along a sewage treatment pipe, wherein the level of sewage in the manhole is detected by a differential pressure method, and A water level and a flow rate detecting step of detecting a flow rate based on the water level and the flow rate; A water level and a flow rate display step of displaying the detected water level, the flow rate, and the flow rate for each position of the manhole; A determination step of determining whether the level of sewage in the manhole is equal to or greater than a predetermined level; An abnormal level detecting step of outputting a contact signal corresponding to the preset abnormal level when the abnormal level is determined; And an alarm step of notifying the position and level of the manhole at the abnormal level based on the contact signal.

Preferably, the method may further include a setting step of setting a plurality of levels for the abnormality level determination.

Preferably, the displaying step may further include a signal conversion step of converting the detected level of analog output into a digital signal.

Preferably, the determination may further include a correction step of correcting the detected current flow rate based on the maximum cross-sectional area of the pipe when the abnormal water level.

According to the manhole water level and flow rate detection system and the method thereof, the water level and flow rate of each manhole are transferred to the central control room and collectively processed so that the maintenance of the sewage pipe can be performed quickly by location, There is an effect that can correct the error of the flow rate.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a water level and flow rate detection system according to an embodiment of the present invention, Figure 2 is a block diagram of a water level and flow rate detection system according to an embodiment of the present invention.

The water level and flow rate detection system 100 includes a water level detection unit 110 for detecting the water level of the manhole 200 inside the manhole 200, a flow rate detection unit 120 for detecting the flow rate of the pipe, and a flow rate and a flow rate therefrom. And a central control room 140 that manages the position of each manhole for receiving the water level information.

The water level detection unit 110 is composed of an auxiliary cylinder 112 for stably detecting the water level in the manhole 200, and a water level gauge 114 for detecting the water level inside each manhole by differential pressure. To output the preset contact signal.

The water level detector 110 may set a plurality of levels corresponding to the contact signal for detecting the abnormal water level.

The output of the water level detection unit 110 is input to the signal divider 130, and the signal divider 130 distributes the detection signal output of the water level detection unit 110 and transmits it to the flow rate detection unit 120 and the central control room 140. do. That is, the signal splitter 130 distributes analog output signals, for example, 4-20 mA, 1-5 V, and the like, output from the water level detector 110, so that one signal is the cross-sectional area information for detecting the flow rate. The other signal is transmitted to the central control room 140 to collectively manage the water level of the manhole 200 for each location.

The flow rate detection unit 120 is installed in each manhole 200 to detect the flow rate of the sewage flowing through the sewage treatment pipe 220, and detects the flow rate using the water level detected by the water level detection unit 110 as the cross-sectional area information and centers the result. Transmit to control room 140.

Here, when the water level detector 110 detects the abnormal water level, the flow rate detector 120 corrects the currently detected flow rate based on the maximum cross-sectional area of the pipe 220.

The central control room 140 receives the water level information from the water level detection unit 110 of each manhole 200 and performs an analog-to-digital conversion of the ADC 142, the output of the ADC 142, and the output of the flow rate detection unit 120. The control unit 144, an alarm unit 146 for notifying abnormal water level detection of the water level detection unit 110, and a display unit 148 for displaying the water level, the flow rate, and the flow rate detected from each manhole 200.

The controller 144 receives the signal detected by the signal distributor 130 from the water level detector 110 and the signal detected by the flow rate detector 120, and displays the detected signal on the display unit 148 for each position of the manhole 200. When the water level detection unit 110 detects an abnormal water level, the position of the manhole 200 is notified through the alarm unit 146, and the control unit outputs the water level corresponding to the contact signal of the water level detection unit 110 to the alarm unit 146. do.

In the water level and flow rate detection system 100 according to the present invention having such a configuration, when the water level detection unit 110 detects a water level equal to or greater than the diameter of the pipe 220, the water level and flow rate detection system 100 transmits it to the central control room 140 for each position of the manhole 200. By collectively recognizing the state of the pipe 220 according to the information in advance, it is possible to efficiently manage the time and cost required for maintenance, and at the same time correct the measurement error of the flow rate.

Hereinafter, a method of detecting a water level and a flow rate according to an embodiment of the present invention will be described with reference to FIG. 3.

3 is a flow chart of the water level and flow rate detection method according to an embodiment of the present invention.

First, a plurality of levels for determining an abnormal water level of the water level detector 110 installed in the manhole 200 installed at a plurality of locations along the sewage treatment pipe 220 are set (step S301).

For example, assuming that the diameter of the pipe 220 in the manhole 200 is 600 mm and the depth of the manhole 200 is 1000 mm, it is set to 601, 700, 800, 900, 1000 mm. In this case, as soon as the water level inside the manhole 200 reaches the set point, the water level detecting unit 110 outputs the contact signal for each point and transmits the contact signal to the central control room 140.

The water level detection unit 110 detects the water level of the sewage in the manhole 200 by the differential pressure type, and the flow rate detection unit 120 detects the flow rate of the sewage to detect the flow rate based on the detected water level and the flow rate (step S302). .

For example, the detection level of the water level gauge 114 is used as the cross-sectional area for the flow rate calculation in the range of 0 to 600 mm where the water level of the manhole 200 corresponds to the diameter of the pipe 220.

As such, the flow rate, flow rate and level information of the manhole 200 detected by the water level detection unit 110 and the flow rate detection unit 120 are transmitted to the central control room 140, and the detected water level, flow rate and flow rate of the manhole (manhole ( It displays on the display part 148 by the position of 200 (step S303).

Here, since the output of the water level detector 110 is an analog signal, it is converted into a digital signal for batch processing.

At this time, the water level detection unit 110 determines whether or not the water level of the sewage in the manhole 200 is more than the predetermined level (step S304), if it is not a predetermined level, that is, if the abnormal level is not at step S302 to present Repeat the detection and display of water level, flow rate and flow rate.

On the other hand, if the water level of the sewage in the manhole 200 is greater than or equal to the preset level, that is, the abnormal level is output to the central control room 140 by outputting a contact signal corresponding to the preset abnormal level. (Step S305).

For example, the surface of the manhole 200 rises due to problems such as inflow of abnormal water due to aging of the sewage pipe 220 or clogging of the pipe 220 at the rear end of the flow rate detection unit 120. When 600 mm or more, the water level detector 110 transmits the contact signal output from the water level gauge 114 to the central control room 140 in response to the water level.

At the same time, the flow rate detection unit 120 recognizes that the cross-sectional area for the flow rate detection increases as the water level information input from the water quantity detection unit 110 increases, causing a large error in the flow rate measurement, thereby increasing the maximum cross-sectional area of the pipe 220. On the basis of this, the currently detected flow rate is corrected and transmitted to the central control room 140, and the central control room 140 displays it on the display unit 146 (step S306).

In addition, the central control room 140 alerts the position and detected water level of the manhole 200 that is the current abnormal level through the alarm unit 146 based on the contact signal transmitted from the water level detection unit 110 (step S307). In step S304, the water level detecting unit 110 continuously determines whether the water level in the manhole 200 is an abnormal water level.

In this way, the water level and flow rate detection method according to the embodiment of the present invention can manage the maintenance of the piping collectively, and at the same time correct the flow measurement error due to the sewage introduced from the outside due to breakage of the piping. have.

1 is a schematic block diagram of a water level and flow rate detection system according to an embodiment of the present invention.

2 is a block diagram of a water level and flow rate detection system in accordance with an embodiment of the present invention.

Figure 3 is a flow chart of the water level and flow rate detection method according to an embodiment of the present invention.

4 is a schematic configuration diagram of a conventional manhole level and flow rate detection.

Explanation of symbols on the main parts of the drawings

100: water level and flow rate detection system 110: water level detection unit

112: auxiliary container 114: water gauge

120: flow rate detection unit 130: signal distributor

140: central control room 142: ADC

144 control unit 146 alarm unit

148: display unit 200: manhole

210: manhole cover 220: piping

Claims (8)

In the water level and flow detection system of the manhole installed in multiple locations along the sewage treatment pipe, A water level detection unit for detecting a water level inside each manhole by a differential pressure type and outputting a preset contact signal in response to occurrence of an abnormal water level; A flow rate detection unit installed in each manhole for detecting a flow rate of wastewater flowing through the sewage treatment pipe and detecting a flow rate according to the detected water level in the water level detection unit; A signal distributor for distributing the output of the detection signal of the water level detector; A display unit for displaying the water level, the flow rate, and the flow rate detected from the water level detection unit and the flow rate detection unit; An alarm unit for notifying abnormal water level detection of the water level detection unit; The signal detected by the signal distributor and the flow rate detection unit are received from the water level detection unit and displayed on the display unit for each position of the manhole, and when the water level detection unit detects an abnormal water level to inform the position of the manhole And a control unit for controlling to output the water level corresponding to the contact signal to the alarm unit at the same time. The method of claim 1, The water level detection system of the manhole, characterized in that the water level detection unit is capable of setting a plurality of levels for abnormal water level detection. The method of claim 1, And an AD converter for converting the analog output of the water level detector into a digital signal. The method of claim 1, And the flow rate detecting unit corrects the detected current flow rate based on the maximum cross-sectional area of the pipe when the water level detecting unit detects an abnormal water level. In the water level and flow rate detection method of the manhole installed in a plurality of locations along the sewage treatment pipe, A water level and a flow rate detecting step of detecting a water level of the sewage in the manhole by differential pressure, detecting a flow rate of the sewage, and detecting a flow rate based on the water level and the flow rate; A water level and a flow rate display step of displaying the detected water level, the flow rate, and the flow rate for each position of the manhole; A determination step of determining whether the level of sewage in the manhole is equal to or greater than a predetermined level; An abnormal level detection step of outputting a contact signal corresponding to the preset abnormal level when the abnormal level is determined as the result of the determination; And a warning step of informing the position and the level of the manhole at the abnormal level based on the contact signal. The method of claim 5, wherein And a setting step of setting a plurality of levels for the abnormal water level determination. The method of claim 5, wherein And said displaying step further comprises a signal converting step of converting said detected analog output of said water level into a digital signal. The method of claim 5, wherein And a correction step of correcting the detected current flow rate based on the maximum cross-sectional area of the pipe when the abnormal water level is determined as the determination result.

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