KR20120046380A - An oil tanks flow measuring device - Google Patents

Abstract

PURPOSE: A portable flow rate measuring device is provided to easily manage and maintain a flow rate inside a tank and to measure an accurate flow rate by using a laser distance measuring unit. CONSTITUTION: A portable flow rate measuring device comprises a manipulation panel unit(1), a power source unit(11), a laser distance measuring unit(14), a data converting unit(6), a parameter inputting unit(7), a second central processing device(9), a display unit(8), a wireless transmitting unit(10), and a wireless receiving unit(12). The laser distance measuring unit comprises a laser transmission unit(2), a laser receiving unit(3), a phase difference measuring unit(4), and a first central processing device(5). The laser transmission unit transmits laser beams toward the bottom of an oil tank by manipulation of the manipulation panel unit in the state a portable flow rate measuring device(100) is positioned in an inlet of the oil tank. The phase difference measuring unit distinguishes the phase difference and converts into a pulse width according to the time. The first central processing device processes a change of the phase difference transmitted from the phase difference measuring unit by distance units. The data converting unit converts data of a distance value processed by the first central processing device into a flow rate. The parameter inputting unit inputs required data such as a sort, a size of the oil tank, a sort, a temperature of the oil etc. to the data converting unit. The second central processing device performs a controlling and execution processing of each unit and data input through the parameter inputting unit.

Description

Portable oil flow meter {An oil tanks flow measuring device}

The present invention is to measure the distance in the tank for storing the oil at the gas station and refinery, etc. with the laser distance measuring unit, and input the type of the tank type and size of the oil and temperature in the processing para meta input unit The data converting unit converts the distance data into a flow rate to accurately calculate the flow rate value measured on the display unit, and wirelessly transmits the flow rate value data to a PC.

In general, the tank is installed in the basement tank of the gas station or refinery to store the oil, and is a tank size that can store a very large amount of oil.

Therefore, a very conventional method is used to measure the gas station oil tank flow rate, which uses a long square bar that can reach the bottom of the tank.

Since the depth of the oil tank is at least 5m to about 10m, the length of the ledge is as long as the depth of the oil tank.

Therefore, when measuring the flow rate stored in the tank, insert the bar into the tank, the tip touches the bottom of the tank and pulls it out, and then visually identifies the oil position on the surface of the bar to measure the flow.

However, at the gas station, the oil in the tank is surveyed at night, which is difficult to measure with the naked eye.In case of gasoline, it is a little reddish, so it is easy to identify it. It is often difficult for the naked eye to identify and difficult to measure accurately, so the measurer often takes several measurements.

In addition, the use of a very long standard bar is not only difficult to raise and lower the standard bar, but also involves cumbersome problems.

Therefore, in recent years, some gas stations have installed level sensors that accurately measure flow rates, or sensors with different functions, to measure the flow rate inventory.

However, the measuring method using the sensor requires the installation of a separate display device, a control device, and a sensor with different functions, so that the installation cost is excessive, and the integrated management is not properly performed, so the management and maintenance of oil can be efficiently performed. Not done.

In addition, since the wiring must be installed for each sensor installed in the tank, there is a problem in that the installation work and the wiring process are very difficult.

In addition, since the expensive installation cost of the sensor and the ultrasonic method enters, there is a problem in that it is not easily used at the gas station and only a limited use thereof.

The problem to solve the above problems should be to accurately measure the flow rate stored in the oil tank installed in the gas station, etc. without using the measuring rod with the naked eye as in the prior art, and to facilitate the measurement work.

In addition, the sensor can easily measure the flow rate accurately and transmit the measured data wirelessly to a PC for efficient management and maintenance of oil without the hassle of wiring work and wiring process. It aims at being able.

In order to solve the above problems, the present invention minimizes the volume so that the measurer can easily carry the flow meter, and in order to display an accurate flow rate value, the laser distance measuring unit, the processing para meta input unit, the data conversion unit, It consists of the central processing unit display unit, data wireless transmission unit, and power supply unit, and sequentially interlocks the laser to send the laser into the tank, receives the reflected laser, converts the measured distance back into the flow rate, and checks the flow rate value through the display unit. Provides a portable flow meter for transmitting flow numerical data.

As described above, the portable flow meter of the present invention not only is easy to carry, but also measures distance with a laser, changes it to a flow rate, displays the measured flow rate on the display unit, and wirelessly transmits the measured data to a PC to determine the flow rate. It is possible to easily manage and maintain the flow rate in the tank by basically carrying out the entry and exit and inventory status.

In addition, the present invention has the effect that can measure the precise flow rate because the laser distance measuring unit is used without using the measuring rod.

In addition, the present invention is a portable flow meter is cheaper than the conventional sensor and ultrasonic method has an effect that can be widely used in major elements.

1 is a block diagram of the present invention portable flow meter.

In order to achieve the above objects and effects, it will be described in detail by the accompanying drawings as follows.

1 is a block diagram of a portable flow meter of the present invention.

The portable flow meter 100 of the present invention inputs the distance measurement value in the tank, the type and size of the oil tank, the type of the oil, the temperature, and the like through the laser distance measuring unit 14 to the data conversion unit 6. The distance value is converted into a flow rate and displayed on the display unit 8 as well as transmitting, managing and maintaining the flow rate data measured wirelessly to the PC 13.

Therefore, the portable flow meter 100 of the present invention has an operation panel unit provided with a button to turn on / off the portable flow meter 100, operate the laser distance measuring unit 14, and transmit the measured flow rate as data. 1) is provided.

Moreover, the power supply part 11 which supplies power by the on / off operation of the operation panel part 1 is provided.

The power supply unit 11 uses a rechargeable battery to increase the portability of the portable flow meter 100.

Therefore, the power of the portable flow meter 100 is turned on, the laser is sent to the inside of the oil tank while the laser distance measuring unit 14 is positioned inside the inlet of the oil tank, and the distance value of the reflected laser is measured. .

The laser distance measuring unit 14 is a laser sending unit 2 for transmitting a low-level laser (power less than 1mW) for measurement, and the laser beam sent to the solid portion including the oil and the bottom portion of the tank hit the reflection And a phase difference measuring unit 4 for determining a phase difference between transmission and reception of the laser received by the laser receiver 3, and converting the laser beam received by the laser receiver 3 into a pulse width over time, and measuring the phase difference. And a first central processing unit (CPU) 5 for processing the change in phase difference transmitted from the unit 4 in units of distance (in mm).

On the other hand, the operation principle of the laser distance measuring unit 14 is to compare the data reflected by firing a laser having a constant wavelength to the subject. Regarding the distance, the wavelength of the reflected wave and the emitted wavelength generate a phase difference, and the generated phase difference is measured and converted into distance units.

Therefore, the data of the distance value processed by the first CPU 5 is sent to the data converter 6.

The data converter 6 converts the distance value into a flow rate and calculates the distance value sent from the first central processing unit 5, the type and size of the oil tank input from the processing para meta input unit 7, and the type of oil. Calculate the conversion by combining the necessary data, such as temperature.

In addition, the second central processing unit (CPU) 9 performs control and arithmetic processing of each part including the data inputted through the processing para meta input unit 7 and the data conversion unit 6.

The flow rate value converted in the data conversion unit 6 is displayed on the display unit 8 so that the inspector can visually check.

The display unit 8 configures the measured flow rate value as an LED to display the flow rate in volume as well as the type of oil.

In addition, the data of the measured flow rate value is wirelessly transmitted to the wireless receiver 12 through the wireless transmitter 10.

The wireless receiver 12 that receives the data transmitted through the wireless transmitter 10 is connected to the PC 13 to transmit the received data to the PC 13.

The PC 13 computerizes the receipt and sale of gasoline, diesel, kerosene, and stock status by year, month, and day through the data received through the wireless receiver 12 to facilitate management and maintenance.

On the other hand, the second central processing unit (9) is converted to the distance in mm unit in the first central processing unit (5) is a distance value that has been reflected on the solid, so it is reflected by the oil liquid of gasoline, diesel, kerosene Convert to distance value.

Gasoline, diesel, and kerosene values are greater than the distances reflected by the solids, which are about 45mm for gasoline, 55mm for diesel, and 35mm for kerosene. Subtract the distances from the gasoline, diesel, and kerosene that are equal to the distance from the solid.

In addition, in preparation for the change of the surface of gasoline, diesel, kerosene 3? By dividing the distance value added by 4 consecutive measurements, the average value can be displayed on the display.

In addition, a program for calculating the volume of tanks of gasoline, diesel, and kerosene buried underground is input to the second central processing unit 9 in advance.

In addition, the types of tanks are roughly horizontal cylindrical, cylindrical cylindrical, rectangular, square, etc., and the volume can be known by knowing the values of the horizontal axis and the vertical axis in the drawings. Enter the height to get the volume.

In addition, it is possible to calculate the value by inputting the current temperature of the oil to accurately calculate the volume of gasoline, diesel, kerosene with a large volume change in the temperature change.

Gasoline, diesel and kerosene usually change by 1 ℃ based on 15 ℃, so the volume of gasoline is ± 0.11, kerosene is ± 0.10 and diesel is ± 0.09 so the volume can be calculated by converting the temperature.

On the other hand, when the embodiment of the present invention will be described.

The tank is in the shape of a cylinder, and if you calculate the volume of the cylinder,

Since the volume of the cylinder = the area of the circle (πr ² ) × height (h),

The area of the circle = 3.14 × radius (0.5m) ² , and the height is 2m,

As a result, the volume of the cylinder

3.14 x (0.5 m) ² x 2 m = 1.57 m ³ . Converting this value into liters, it is 1570 liters.

When the oil is filled in the cylindrical empty tank as described above, the amount of oil filled in the tank can be calculated.

That is, when the oil corresponding to the 1.3 m height of the tank is filled, the amount of oil filled in the tank becomes the area x height of the circle, so the area of the circle = 3.14 x (0.5 m) ² and the height = 1.3 m. The amount of oil filled = 3.14 x (0.5 m) ² x 1.3 m = 1.0205 m ³ , which is 1020.5 liters in liters.

Gasoline, diesel, and kerosene are stored in the oil tank one by one, and the flow rate is measured by a portable laser flow meter three times.

In general, the error range of the commercially available laser range finder is within ± 3mm, and the slight difference in the measured flow rate is estimated by the change of the oil level and the volume change according to the temperature.

Therefore, it can be seen that the measured value with the portable flow meter of the present invention is a fairly accurate value to obtain an approximate value as shown in Table 1.

1: Operation panel part 2: Laser sending part
3: laser receiver 4: phase difference measuring unit
5: first CPU 6: data converter
7: Para meta input for processing 8: Display
9: second CPU 10: wireless transmitter
11: power supply unit 12: wireless receiving unit
13: PC 14: laser meter
100: portable flow meter

Claims (2)

An operation panel unit 1 provided with a button for turning on / off the portable flow meter 100, operating the laser distance measuring unit 14, and transmitting the measured flow rate as data;
A power supply unit 11 for supplying power by the operation of the operation panel unit 1;
A laser transmitter 2 for transmitting a laser toward the bottom of the oil tank by operating the operation panel unit 1 while the portable flow meter 100 is located at the inlet of the oil tank; Receiving laser receiver 3, a phase difference measuring unit 4 for determining the phase difference between the transmission and reception of the laser received by the laser receiving unit 3, and converts it into a pulse width over time, and the phase difference measuring unit ( A laser distance measuring unit (14) comprising a first CPU (5) for processing the change in phase difference transmitted from 4) in units of distance;
A data converter (6) for converting and calculating the data of the distance value processed by the first central processing unit (5) into a flow rate;
A para meta input unit 7 for inputting necessary data such as type and size of oil tank, type of oil, temperature, etc. to the data converting unit 6;
A second central processing unit (CPU) 9 which performs control and arithmetic processing of each part including the data inputted through the processing para meta input unit 7 and the data conversion unit 6;
A display unit 8 for displaying the measured flow rate value on an LED display;
A wireless transmitter 10 for wirelessly transmitting data of the measured flow rate value;
Portable flow meter, characterized in that consisting of a wireless receiver (12) for receiving the data transmitted through the wireless transmitter (10) to transmit to the PC (13). According to claim 1, The portable flow meter 100 transmits the data transmitted from the wireless transmitter 10 to the PC 13, the receipt and sale of gasoline, diesel, kerosene from the PC 13, the inventory status year, month Portable flow meter, characterized in that the computerized processing in units of days.

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