KR20060070106A - The method and apparatus to evaluate accuracy of thermodynamic pump flowmeters - Google Patents

Abstract

 The present invention relates to a method for evaluating the precision of a thermodynamic pump flowmeter, and to install a multi-temperature, pressure measuring device in a conventional evaluation device, and to increase the reliability of the fluid measurement temperature by adding a vortex device and a heat insulation pipe, The flowmeter can be evaluated simultaneously under ideal conditions. By utilizing the present invention, it is possible to simultaneously evaluate the precision of the thermodynamic pump flowmeter, thereby dramatically reducing time and cost.

Thermodynamics, Flowmeters, Precision Evaluation

Description

The method and apparatus to evaluate accuracy of thermodynamic pump flowmeters

1 is a block diagram of a precision evaluation device for a thermodynamic flowmeter according to the related art.

2 is a block diagram of a precision evaluation device of the thermodynamic pump flowmeter according to the present invention.

Figure 3 is a detailed view of the multiple temperature, pressure measuring device.

Figure 4 is a detailed view of the installation method of the multi-temperature, pressure measuring device installed on the pump inlet and outlet side.

5 is a detailed view of the vortex apparatus.

 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for evaluating the precision of a thermodynamic pump flowmeter, and more particularly, to reduce time and cost by evaluating a plurality of pump flowmeters simultaneously.

-Composition of the prior art

 There are several ways to measure the flow rate of the pump. The most typical method is to calculate the flow rate by measuring the velocity of the fluid supplied from the pump and multiplying it by the cross-sectional area of the pipe. On the other hand, there is a method of obtaining a flow rate using a thermodynamic method without measuring the flow rate. This can be done by measuring the temperature of the pump inlet and outlet fluids, the pressure and the power of the pump motor. Flowmeters built using thermodynamic principles require precision measurements before they are shipped from the product.

 1 is a device for evaluating the precision of a thermodynamic flowmeter. The precision evaluation device includes a motor (1), a pump (2), a pipe (3), an outlet flow control valve (4), a certified reference flow meter (5), an intake control valve (6), and a temperature sensor of the pump inlet and outlet fluid. (T1, T2), the pressure sensors (P1, P2) of the pump inlet and outlet fluid, the sensor (W) for measuring the input power of the motor (1), the thermodynamic flow meter (7) to be inspected, and connecting the sensor and the flowmeter It is composed of a plurality of signal lines (8), circulating water storage tank (9).

-Description of the operation of the prior art

 Referring to FIG. 1, the pump 2 driven by the electric motor 1 continuously transmits the fluid through the pipe 3 in the direction of the arrow as shown in FIG. At this time, the authorized reference flow meter 5 displays the flow rate in the pipe and stores it in a separate device if necessary. The thermodynamic flowmeter to be inspected is thermodynamically measured by measuring the temperature (T1), the pressure (P1), the outlet temperature (T2), the pressure (P2), and the input power (W) of the motor (1). The flow rate is indicated by the phosphorus calculation and stored in a separate device if necessary. In order to evaluate the precision according to the flow rate increase and decrease, the accuracy is evaluated using the value displayed by the reference flowmeter 5 and the value displayed by the flowmeter to be inspected while adjusting the pump outlet side valve 4.

-Problems of the prior art

 As described above, there are two major problems in evaluating the accuracy of the flowmeter to be inspected.

 The first problem was that it was time-consuming and expensive to evaluate multiple flowmeters by evaluating the accuracy of each flowmeter one by one.

 The second problem is the reliability of the measured temperature T1 value of the pump suction side fluid. Thermodynamic flowmeters are reliable when precise temperature measurements are assured. At this time, the temperature measurement should be measured up to 1/1000 degrees Celsius (0.001 degrees), and the temperature should be representative of the average temperature of the fluid flowing through the pipe section where the sensor is installed. In order to measure the average temperature of the fluid, there is a method in which a plurality of sensors are installed on the cross section of the pipe where the sensor is installed and the average value is taken, but this method is expensive and time-consuming. If the fluid to be measured is ideally mixed, the temperature can be reliably measured with one sensor. In the conventional apparatus, since there is no apparatus for forcibly mixing the fluid on the pump suction side, it is difficult to see that the fluid is ideally mixed. On the other hand, the measured temperature T2 of the fluid at the pump outlet is relatively reliable because the impeller in the pump 2 completely mixes water.

The present invention has been made to solve the above problems, and an object of the present invention is to significantly increase the efficiency of evaluating the precision of a thermodynamic pump flowmeter and to improve the reliability of the evaluation. In order to achieve the object of the present invention, multiple temperature and pressure measuring devices 10 and 20 are respectively added to the pump suction side and the outlet side so as to reliably evaluate a plurality of flow meters simultaneously as in FIG. In addition, a vortex device 30 was added to the inside of the pipe to increase the reliability of the pump suction side fluid measurement temperature. In addition, even if the fluid to be measured by the impeller in the vortex device 30 or the pump 2 according to the present invention is completely mixed, the external conditions of the device are higher or lower than the fluid, so that heat transfer from outside air (heat or heat) Because it can cause a slight temperature change due to the vortex device 30 through the inlet multi-temperature, pressure measuring device 10, the insulated pipe 40 to the outlet multi-temperature, pressure measuring device 20 was added.

 In the configuration of the present invention, a multi-temperature, pressure measuring device (10, 20), the vortex device (30), the heat insulation pipe (40) was added to the conventional evaluation device. 2 is a device for simultaneously evaluating the precision of a plurality of thermodynamic flowmeters. Precision evaluation apparatus according to the present invention is a multi-temperature installed on the motor (1), pump (2), pump outlet side. Pressure measuring device 20, pipe 3, outlet side flow control valve 4, certified reference flow meter 5, circulating water storage tank 9, suction side control valve 6, fluid vortex device 30 ), Adiabatic pipe (40), multiple temperature installed at the pump inlet side, pressure measuring device (10), sensor (W) for measuring the input power of the motor (1), a number of thermodynamic flowmeters to be inspected (7) And signal lines (8) connecting the sensor and the flow meter.

 3 is a detailed view of the multiple temperature, pressure measuring devices 10 and 20 installed at the pump inlet and outlet sides, and the left figure of FIG. 4 is the temperature at the multiple temperature, pressure measuring device 10 installed at the inlet side of the pump. 4 shows a method of installing a pressure sensor, and the right figure of FIG. 4 shows a method of installing a temperature and pressure sensor in the multiple temperature and pressure measuring device 20 installed at the outlet side of the pump. As shown in the figure, drill holes by dividing the pipe circumference into 8 parts so that 8 sensors can be installed at the same time, and install 15mm gate valve there. The centerline of the 15mm pipe should be installed at right angles to the centerline of the pump pipe, with the sum of the 15mm pipe and the 15mm valve length being the minimum. The capital letter T in the figure is a temperature measuring sensor, and P is a pressure measuring sensor. The lowercase letter (i) shown after the capital letter T or P means the pump inlet side, and the lowercase letter (o) means the pump outlet side. The Arabic numerals following the lowercase letters are unique numbers for several temperature sensors.

 5 is a detailed view of the vortex device 30. Guide Vane was installed to be mixed by the flow of fluid when fluid flows in the existing pipe.

<Description of operation>

 2, 3, 4, and 5, the pump 2 driven by the electric motor 1 continuously transmits the fluid through the pipe 3 in the direction of the arrow as shown in FIG. At this time, the authorized reference flow meter 5 displays the flow rate in the pipe and stores it in a separate device if necessary. Multiple inspected thermodynamic flowmeters 7 have multiple temperatures as indicated in FIG. 4. Temperature of the pump suction side fluid (Ti1, Ti2, Ti3, Ti4, Ti5, Ti6, Ti7), pressure Pi, outlet side temperature (To1, To2, To3, To4, To5) by the pressure measuring devices 10, 20 , To6, To7) and pressure Po, and the input power (W) of the motor 1 is measured and thermodynamic calculation is performed as shown in FIG. 2, and then the flow rate is displayed for each flowmeter (7). And store it on a separate device if necessary.

 At this time, the fluid supplied by the pump (2) is ideally mixed by passing through the storage tank (9) and the vortex device (30), so that the temperature of the fluid in the pump suction side pipe in several places in the circumferential direction of the pipe as shown in FIG. Even if they measure, the temperature value is the same and can represent the average temperature of a fluid. Since the fluid temperature in the pump outlet pipe is completely mixed by the pump 2 impeller, their temperature values are the same even when measured in several places in the circumferential direction of the outlet pipe, and can represent the average temperature of the fluid.

 Inlet multiple temperature from vortex device 30. Outlet multiple temperature via pressure measuring device (10). The insulation pipe 40 installed up to the pressure measuring device 20 increases the precision of the temperature measurement by preventing the heat transfer to the outside air from the fluid in a completely mixed state by the vortex device 30 and the pump 2 impeller.

 In order to evaluate the accuracy according to the flow rate increase and decrease, the accuracy is evaluated by using the value displayed by the reference flow meter 5 and the value displayed by the plurality of flowmeters 7 to be inspected while adjusting the valve 4 at the pump outlet side. .

The present invention can significantly reduce time and cost by simultaneously evaluating the precision of a plurality of thermodynamic pump flowmeters, and improve the reliability of the pump flowmeter accuracy evaluation by improving the reliability of the temperature measurement of the pump inlet side.

Another effect is to easily evaluate the remaining thermodynamic flowmeters at the same time using a thermodynamic pump flowmeter that has been secured through a certified reference flowmeter.

Thermodynamic pump flowmeters require a very accurate measurement of the temperature of the fluid, which requires the calibration of a temperature sensor and requires high calibration equipment and skilled work. Checking if calibration is successful requires comparing the absolute value and the slope with the reference temperature sensor. This is also a difficult task. By using the apparatus according to the present invention, the degree of calibration can be easily evaluated by installing and testing a plurality of temperature sensors in the apparatus. That is, multiple temperature sensors installed at the inlet (or outlet) side of the pump must display the same value. If there is a sensor with a wrong calibration, the temperature values are different from each other so that they can be corrected again. As described above, the present invention can significantly reduce time and cost in evaluating the precision of the thermodynamic pump flowmeter.

Claims (3)

When the pump 2 driven by the electric motor 1 sends the fluid to the storage tank 9 through the pipe 3, An authorized reference flow meter (5) installed in the pipe between the outlet valve (4) and the storage tank (9) for indicating the flow rate in the pipe and storing it in a separate device if necessary; A vortex device 30 that ideally mixes the fluid supplied by the pump 2; Insulation pipe 40 to increase the precision of the temperature measurement by preventing the heat transfer to the outside air is completely mixed by the vortex device 30 and the pump (2) impeller; Temperature of pump suction side fluid (Ti1, Ti2, Ti3, Ti4, Ti5, Ti6, Ti7), pressure Pi, outlet side temperature To1, To2, To3, To4, To5, To6, To7, pressure Po Multi-temperature, pressure measuring device 10, 20 to measure simultaneously; Thermodynamic calculations are performed by measuring temperature and pressure from the input power (W), multiple temperatures, and pressure measuring devices (10, 20) of the motor (1), and then displaying the flow rates respectively and storing them in separate devices if necessary. Inspected thermodynamic flowmeters 7; And a pump outlet valve 4 for adjusting and comparing the value displayed by the reference flow meter 5 and the value displayed by the plurality of inspected thermodynamic flowmeters 7 according to the flow rate increase and decrease. A precision evaluation device for a thermodynamic pump flowmeter.  The method of claim 1, An apparatus for evaluating precision of a thermodynamic pump flowmeter which compares and evaluates a value displayed by one recognized thermodynamic reference flowmeter (5) according to a flow rate increase and decrease, and a value displayed by the remaining thermodynamic flowmeters (7). The method of claim 1, One authorized temperature sensor and a plurality of inspection target temperature sensors are installed in the pump suction side multiple temperature measuring apparatus 10, and one authorized temperature sensor and multiple inspection targets are installed in the pump outlet multiple temperature measuring apparatus 20. Apparatus for simultaneously evaluating the accuracy of calibration for a plurality of temperature sensors to be inspected by installing temperature sensors

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