JPH0827202B2 - Method of judging inflow situation of drainage channel - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a flow meter having a function of determining an abnormal inflow water source at the same time as measuring a flow rate in an open channel, an underdrain or the like in which a weir or flume cannot be set. It is a thing.

(Prior art and its problems) When measuring the flow rate in sewers, the water depth is measured over time,
The flow cross section is geometrically determined from the water depth, and the flow velocity is, for example, Manning's average flow velocity formula V = 1 / nR ^2/3 I ^1/2 ··· (1) V: average flow velocity (cm / sec) R : Diameter (cm) = A / PP: Wet edge (cm) I: Pipe bottom gradient n: Roughness coefficient etc. were used.

Therefore, the flow rate is calculated as the product of the above-mentioned running water cross-sectional area and the average flow velocity. When using the average flow velocity formula, the roughness coefficient n of the pipe inner surface and the pipe bottom slope I are uniform values in the actual pipeline. However, the roughness coefficient n varies depending on the contents flowing in the pipe or the degree of deterioration, and the pipe bottom slope I is generally different from the design slope due to poor construction or local subsidence.

However, it is impossible to set these appropriate values by field measurement, and a large error occurs in the average flow velocity to be obtained. Actually, it has been a problem than before that there is a large gap between the actual flow rate and the measured flow rate.

Furthermore, another method, for example, measuring the water depth and the flow velocity separately and obtaining the flow rate as the product thereof, for example, in a velocity meter such as an ultrasonic velocity meter, it takes time and effort to install the sensor, and There were problems such as limitation and error in the flow velocity depending on the atmospheric conditions.

Also, it is possible to judge whether the cause of the flow rate fluctuation is the increase in water during rainfall, the inflow of water due to damage deterioration, etc., but it is not possible, for example, to determine an abnormal inflow water source different from the normal drainage temperature. It was

An object of the present invention is to solve the above-mentioned problems and to provide a flow meter capable of determining an abnormal inflow water source different from a normal inflow water source from changes in temperature data.

(Means for Solving the Problem) In order to achieve the above-mentioned object, in the case of continuously measuring the amount of flowing water using a flow rate measuring device provided with the detector 1 immersed in the flowing water of the drainage channel, the detector In the method of measuring the flow rate by detecting the data of the flow velocity and the water depth in 1, the data of the water temperature is also detected at the same time to judge whether the water is normal or abnormal.

(Operation) When the above-mentioned detector 1 is immersed in running water to measure the flow rate, the detector 1 outputs an output voltage corresponding to the flow velocity and a water pressure corresponding to the depth from the water surface as a voltage as an electromagnetic velocity meter. Therefore, the flow rate is calculated from both outputs, but since the water temperature is also detected at the same time, it was found that the inflow situation was different from the normal inflow situation when the water temperature changed beyond a certain range. To do.

(Example) First, the flow rate measuring device used for the inflow situation determination method of the drainage channel of this invention is demonstrated. 1 is an overall block diagram, FIG. 2 is a block diagram of the detector 1, and FIG. 3 is a block diagram of an analog board. Since the electromagnetic velocity meter is used as the flow velocity sensor 2 in the detector 1, the measurement electrodes 2-1 and 2-2 are provided on both sides of the detector 1, and the detection voltage is supplied by the preamplifier 2-3. It is amplified and output from the output terminal 2-4 as flow velocity data. Further, an electromagnet 2-5 for generating a magnetic field as an electromagnetic velocity meter is separately provided and is excited from the measuring device main body 5 through an input terminal 2-6. As the water pressure sensor 3, for example, a pressure / voltage conversion element such as a semiconductor strain gauge is used as the water pressure detection unit 3-1, and this voltage output is amplified by the preamplifier 3-2 and output terminal 3 as water depth data. Output from 3.
As the water temperature sensor 4, for example, a heat sensitive element such as a thermistor is used as the water temperature detection unit 4-1.

In the measuring device body 5, each input signal from the detector 1 is first input to the analog board 7 as shown in the block diagram of FIG.

The flow velocity data is input to the sample hold circuit 10. Separately, the output of the timing circuit 14 is also input, the flow velocity data that has been continuously input is separated at regular time intervals, and is input to the time constant circuit 11. The time constant circuit 11 gives a constant time constant and outputs it as a flow velocity signal to the CPU board 8 via the amplifier 12.

The water depth data is sent to the CPU as a water depth signal via the amplifier 15.
Output to the boat 8.

The water temperature data is output to the CPU board 8 via the amplifier 17.

The output of the timing circuit 14 is the drive circuit 13
, And the electromagnet 2-5 of the flow velocity sensor 2 is excited in synchronization with the intervals of the flow velocity data at regular intervals.

The flow velocity signal and the water depth signal are input to the CPU boat 8.
On the other hand, the CPU board 8 has an A / D converter 8-
1. Setting circuit 8-2, clock 8-3, CPU 8-4, and setting circuit 8-2 has data of channel shape (diameter in case of round type, open channel in square type and underdrain) To the waterway width)
Etc. are entered in stages (for example, 10 types).

The CPU 8-4 inputs the output of the analog board 7 as a digital signal in the A / D converter 8-1, while the setting circuit 8
-2, the flow velocity data, the water depth data, and the water channel shape data are input, and the flow rate is calculated by the equation (1) and recorded in the memory circuit 9.

The water temperature signal is compared with the water temperature signal at the immediately preceding timing by the CPU board 8, and if the water temperature change exceeds a predetermined range, the water temperature data is stored.

The power supply circuit related to the above description is publicly known, and the description thereof will be omitted.

Next, the recording operation of the data change based on the water temperature data will be described. FIG. 5 is a flowchart thereof, and the CPU board 8 makes a judgment operation according to this flow. That is, after calculating the flow rate, the data is compared with the flow rate data at the immediately preceding timing. If the difference is within a certain range, it is displayed normally. If it exceeds a certain range, it is determined whether the water temperature data has changed from the data at the immediately preceding timing. If there is no change as a result, the flow rate data is normally displayed. If it rises or falls beyond a certain range, the flow rate data is displayed abnormally.

(Effects of the Invention) As described above, it is possible to automatically determine whether or not there is a change in the inflow situation from the change in the temperature data, so that it is possible to predict the inflow water source.

[Brief description of drawings]

1 is a block diagram of the flow rate measuring device of the present invention, FIG. 2 is a block diagram of the same detector, FIG. 3 is a block diagram of an analog board, FIG. 4 is a block diagram of a CPU board, and FIG. 5 is a CPU. It is a flowchart of a board. 1: Detector, 2: Flow velocity sensor, 3: Water pressure sensor, 4: Water temperature sensor.

Claims (1)

[Claims] 1. When continuously measuring the amount of flowing water using a flow rate measuring device provided with a detector immersed in the flowing water of a drainage channel,
A method for measuring the flow rate by detecting flow velocity and water depth data with a detector, wherein the water temperature data is also detected to determine whether the water flow is normal or abnormal.