KR20120116663A - Apparatus for testing capacity for main steam isolation valve pump - Google Patents

Abstract

PURPOSE: An MSIV(Main Steam Isolation Valve) pump is provided to prevent damage to a pump by having an accumulator for preventing the excessive discharging pressure of oil discharged to an oil path. CONSTITUTION: An MSIV pump comprises an oil tank(10), an air path(20), an oil path(30), a sensor(31), and a computer(40). The oil tank stores oil being sucked through the lower part of a pump(5) and discharged through an outlet of the pump. The air path is connected to an inlet of the ump, thereby supplying air pressure. The oil path is connected to an outlet of the pump, thereby discharging the oil. The sensor is installed in the air path and oil path, thereby sensing oil pressure. The computer collects sensed values of the sensor, thereby measuring and calculating the pressure of a fluid.

Description

MSAIVE pump performance tester {Apparatus for testing capacity for main steam isolation valve pump}

The present invention relates to a performance test device of the MS AIVE pump, and more specifically, to immerse the lower end of the pump to be tested in the oil tank, supply the appropriate air pressure to the inlet and discharge the oil to the outlet to the air pressure of the input stage and the output stage By comparing and analyzing the oil pressure with a computer to check the performance of the pump, it is possible to check the performance of the accurate pump through the computer, which improves the reliability of the pump. It provides a variety of tests that can be selected and tested in various sizes, and by accumulating the accumulator to prevent the excessive discharge pressure of the oil pressure discharged on the oil flow path, it is possible to prevent damage to the pump In addition, by providing a connection end for testing a separate safety valve on the oil passage, In addition to the test, the safety valve test can be performed in parallel to provide a variety of functions to the PSA pump performance tester.

Generally, a pump is a machine that is driven by externally supplied power such as a motor or an internal combustion engine such as a prime mover to continuously supply the mechanical energy to the fluid. The pump moves the fluid from a low place to a high place according to the method of use. It has a function to raise to a high pressure what is in a low pressure state.

In addition, the state of energy transfer by the pump is the same as the reverse action of a water turbine, and when a gas is handled like a vacuum pump that lowers the pressure of the gas below atmospheric pressure, the pump is generally a machine that handles liquids. .

 Among these pumps, there is a main steam isolation valve pump which is used for a main steam isolation valve in an industrial or nuclear power plant.

However, since the above-mentioned MSA pump of the prior art does not have a test apparatus for accurately measuring and analyzing the fluid pressure at the input and output stages, the accurate pump performance cannot be inspected and reliability is reduced. This results in problems such as damage to the pump or shortened life.

The present invention has been made to solve such a problem, by immersing the lower end of the pump to be tested in the oil tank to supply the proper air pressure to the inlet and to discharge the oil to the outlet to reduce the air pressure of the input stage and the oil pressure of the output stage By comparing and analyzing the performance of the pump with a computer, it is possible to check the performance of the accurate pump through the computer, thereby improving the reliability of the pump, and by providing a plurality of air flow paths. It is possible to prevent the damage of the pump by providing an accumulator to provide a variety of tests that can be selectively tested, and also to prevent the occurrence of excessive discharge pressure of the oil pressure discharged on the oil flow path, By providing a connection stage for testing a separate safety valve on the oil passage, as well as the pump test Before the test valve also can be parallel as there is provided a child LMS V pump performance test apparatus to be able to provide a variety of functions.

In order to achieve the above object, the PSA pump performance test apparatus of the present invention is sucked through the lower end of the pump by the air pressure introduced into the lower end of the pump and the pump inlet therein, the outlet of the pump An oil tank in which oil discharged to the tank is stored; An air passage connected to an inlet of the pump to supply air pressure; An oil channel connected to an outlet of the pump to discharge oil; A sensor installed on the air channel and the oil channel to sense hydraulic pressure; And a computer that collects the sensing values of the sensors to measure and calculate the pressure of the fluid.

In addition, according to the embodiment of the PS A-pump performance test apparatus according to an embodiment of the present invention, between the oil tank and the oil passage is further provided with a circulation passage for circulating the oil discharged to the oil passage back to the oil tank. desirable.

In addition, in the MSA pump performance test apparatus according to an embodiment of the present invention, the air flow passage is preferably made of a plurality of selectively connectable according to the inlet size of the pump.

In addition, in the MSA pump performance test apparatus according to an embodiment of the present invention, it is preferable that a filter for removing impurities contained in the air supplied on the air flow path is further provided.

In addition, in the MSA pump performance test apparatus according to an embodiment of the present invention, it is preferable that an air pressure regulator for adjusting the air pressure supplied to the air flow path is further provided.

In addition, in the MSA pump performance test apparatus according to an embodiment of the present invention, it is preferable that a safety valve is further provided on the air flow path to be opened only within a set pressure range.

In addition, in the MSA pump performance test apparatus according to an embodiment of the present invention, it is preferable that a hand pump for applying a fine pressure so that the air pressure matches the set pressure on the air flow path is connected.

In addition, in the MSA pump performance test apparatus according to an embodiment of the present invention, it is preferable that an accumulator for preventing an excess oil discharge pressure greater than the discharge pressure is generated on the circulation passage.

In addition, in the MSA pump performance test apparatus according to an embodiment of the present invention, it is preferable that a pressure preventing valve is further provided at the rear end of the accumulator to prevent the accumulator from being pushed by the discharge pressure.

In addition, in the MSA pump performance test apparatus according to an embodiment of the present invention, a shutoff valve is provided on the oil passage, and a separate safety valve is connected to a rear end of the shutoff valve to test the safety valve. It is preferable that a connection stage is provided.

As described above, the MSA pump performance test apparatus according to an embodiment of the present invention, by immersing the lower end of the pump to be tested in the oil tank to supply the appropriate air pressure to the inlet and to discharge the oil to the outlet air By comparing and analyzing the pressure and oil pressure of the output stage with a computer, you can check the performance of the pump, so that you can check the performance of the pump accurately through the computer, which improves the reliability of the pump. It provides a variety of tests that can be variously selected and tested according to the inlet size of the pump, and also prevents damage to the pump by providing an accumulator to prevent the excessive discharge pressure of the oil pressure discharged on the oil flow path And by providing a connection stage for testing a separate safety valve on the oil passage, In addition to the dump test, the safety valve test can be performed in parallel to provide various functions.

1 is a flow chart showing an MS A-pump performance test apparatus according to an embodiment of the present invention.
Figure 2 is a schematic front view showing a test device for the performance of the MSA pump according to an embodiment of the present invention.
Figure 3 is a schematic side view showing an apparatus for testing the PS A pump according to an embodiment of the present invention.
Figure 4 is a schematic plan view showing an PS A performance pump test apparatus according to an embodiment of the present invention.

Hereinafter, the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the MSA pump performance test apparatus according to the exemplary embodiment of the present invention is provided with a lower end of the pump 5 and an inlet 5a of the pump 5 therein. An oil tank 10 in which oil is sucked through the lower end of the pump 5 and discharged to the outlet 5b of the pump 5 by air pressure, and an inlet 5a of the pump 5. An air passage 20 connected to supply air pressure, an oil passage 30 connected to an outlet 5b of the pump 5 to discharge oil, and the air passage 20 and an oil passage 30 It is configured to include a sensor (21,31) installed on the ()) for sensing the hydraulic pressure and a computer 40 for collecting the sensing value of the sensor (20,30) to measure and calculate the pressure of the fluid.

In addition, a circulation passage 50 is provided between the oil tank 10 and the oil passage 30 to circulate the oil discharged to the oil passage 30 back to the oil tank 10.

In addition, the air flow path 20 is composed of a plurality of selectively connectable according to the inlet size of the pump (5).

That is, in the present invention consists of a pair that is selectively connected according to the size of the inlet (5a) of the pump (5).

Here, the air flow path 20, the filter 22 for removing impurities contained in the air to be supplied, the air pressure regulator 23 for adjusting the air pressure supplied and the air pressure within the set pressure range only The safety valve 24 which opens the flow path 20 is provided.

In addition, a hand pump 25 is applied to apply a fine pressure such that the air pressure to be supplied to the sensor 21 adjacent to the air passage 20 is consistent with the set pressure.

In this case, when the supply pressure is insufficient, the hand pump 25 may be pumped to the handle 25a to supplement the pressure.

In addition, a separate accumulator line 60 is connected to the circulation passage 50, and an accumulator 61 is provided on the accumulator line 60 to prevent excessive oil discharge pressure greater than the discharge pressure. .

A pressure preventing valve 62 is provided on the accumulator line 40 which is the rear end of the accumulator 61 to prevent the accumulator 61 from being pushed by the discharge pressure.

In addition, a test line 70 is connected to the oil passage 30, and a shutoff valve 71 is provided on the test line 70, and a separate safety valve is provided at the rear end of the shutoff valve 71. ) Is provided with a connection end 72 for testing this safety valve.

Reference numeral v indicates an on-off valve for opening and closing the flow path on each line.

According to one embodiment of the present invention, an PSA performance test apparatus according to the above configuration may connect an inlet 5a of a pump 5 to be tested with a suitable air passage 20 and an outlet 5b of an oil passage ( 30) and then prepare the test by immersing the lower end of the pump (5) in the oil tank (10).

In this state, when an appropriate air pressure is applied to the test, the oil in the oil tank 10 is sucked into the outlet 5b while the air pressure is introduced through the inlet 5a of the pump 5 and discharged to the outlet 5b. In this case, the hydraulic pressure is sensed through each sensor 21 and 31 on the air flow path 20 and the oil flow path 30, and the sensed value is collected by the computer 40 and displayed on a graph after measurement and calculation. It is possible to test the performance of the pump (5).

On the other hand, if it is not possible to adjust the air pressure supplied accurately to the correct air pressure through the hand pump 25, the oil in the oil tank 10 discharged from the outlet (5b) again to the circulation passage (50) Through the oil tank 10 is circulated through it is possible to reuse.

At this time, the shutoff valve 71 of the test line 70 for testing a separate safety valve is in a closed state.

In addition, it is possible to prevent the excess oil discharge pressure from being generated through the accumulator 61 of the separate accumulator line 60 connected to the circulation passage 50. 62), it is possible to secondaryly prevent the accumulator 61 from being pushed by the discharge pressure.

In addition, when the oil is discharged, the shutoff valves V on the circulation line 50 and the pressure storage line 60 are blocked, and the shutoff valve 71 of the test line 70 connected to the oil flow path 30 is opened. The safety valve (not shown) may be connected to the connection end 72 provided at the rear end of the shutoff valve 71 so as to test the safety valve.

In this way, the MSA pump performance test apparatus according to an embodiment of the present invention, by immersing the lower end of the pump to be tested in the oil tank, supplying the proper air pressure to the inlet and the oil to be discharged to the outlet, By comparing and analyzing the oil pressure of the output stage with a computer, the performance of the pump can be checked. The performance of the pump can be confirmed through the computer, which improves the reliability of the pump. It provides a variety of tests that can be variously selected and tested according to the inlet size, and also by accumulating the accumulator to prevent the excessive discharge pressure of the oil pressure discharged on the oil flow path, it is possible to prevent damage to the pump In addition, by providing a connection stage for testing a separate safety valve on the oil flow path, In addition, it is possible to test in parallel, as is also the safety valve will be able to provide a variety of functions.

As described above, the present invention has been described with reference to the above preferred embodiments, but the embodiments to which such embodiments are simply combined with conventionally known techniques, as well as the technical field of the present invention in the claims and detailed description of the present invention. It will be appreciated that those skilled in the art can readily be modified and used within the technical scope of the present invention.

5: pump 5a: inlet
5b: outlet 10: oil tank
20: air path 21: sensor
21a: indicator 22: filter
23: air pressure regulator 24: safety valve
25: hand pump 25a: handle
30: oil euro 31: sensor
31a: indicator 40: computer
50: circulation passage 60: pressure storage line
61: accumulator 62: pressure preventing valve
70: test line 71: shut-off valve
72: connecting end

Claims (10)

An oil tank storing oil discharged through the lower end of the pump and discharged to the outlet of the pump by an air pressure introduced into the lower end of the pump and introduced into the inlet of the pump;
An air passage connected to an inlet of the pump to supply air pressure;
An oil channel connected to an outlet of the pump to discharge oil;
A sensor installed on the air channel and the oil channel to sense hydraulic pressure; And
A computer which collects the sensing values of the sensors to measure and calculate the pressure of the fluid;
MS Aviv pump performance test apparatus comprising a.
The method of claim 1,
MS A-pump performance test device, characterized in that further provided between the oil tank and the oil passage circulating passage for circulating the oil discharged to the oil passage back to the oil tank.
The method of claim 1,
The air flow passage of the PSA pump, characterized in that the plurality of selectively made according to the inlet size of the pump.
The method of claim 1,
MS A-pump performance test apparatus further comprises a filter for removing impurities contained in the air supplied on the air flow path.
The method of claim 1,
MS A-pump performance test apparatus further comprises an air pressure regulator for adjusting the air pressure supplied to the air flow path.
The method of claim 1,
MS A-pump performance test device, characterized in that the safety valve is further provided to open only within the set pressure range on the air flow path.
The method of claim 1,
MS A-pump performance test device, characterized in that the hand pump for applying a fine pressure so that the air pressure on the air flow path to match the set pressure.
The method of claim 2,
MS A-pump performance test apparatus, characterized in that the accumulator for preventing the excessive oil discharge pressure more than the discharge pressure is generated on the circulation passage.
9. The method of claim 8,
MS A-pump performance test apparatus, characterized in that the pressure-reducing valve for preventing the accumulator is pushed by the discharge pressure at the rear end of the accumulator.
The method of claim 1,
A shut-off valve is provided on the oil passage, and a connection end for testing the safety valve by connecting a separate safety valve to the rear end of the shut-off valve is provided.

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