KR101783248B1 - The performance test apparatus for vertical and long shaft pump - Google Patents

Abstract

The present invention relates to a performance test apparatus for a vertical long shaft pump, which comprises: a vertical long shaft pump (100) having a pump introduction part (110) introducing a fluid into a lower end thereof as well as a pump discharge part (120) discharging a fluid to an upper end thereof; a main tank (200) allowing the pump introduction part (110) and the pump discharge part (120) to be arranged on a lower part of an interior and an upper part of an exterior thereof respectively; a measurement pipe (300) having one end connected to the pump discharge part (120); a drain tank (400) storing a fluid discharged by the vertical long shaft pump (100); at least one fluid level control pipe (500) introducing the fluid of the drain tank (400) into the main tank (200); a cooling device (600) uniformly maintaining a temperature of the fluid inside the main tank (200); and a level gauge (710) measuring a level of an inner fluid. The fluid level control pipe (500) has a flow rate control valve (510) and controls the flow adjustment valve (150) in accordance with a level signal of the level gauge (710) to uniformly maintain the level of the fluid inside the main tank (200).

Description

[0001] The present invention relates to a vertical longitudinal-axis pump,

The present invention relates to a performance testing apparatus for a vertical longitudinal-axis pump, and more particularly, to a performance testing apparatus for a vertical longitudinal-axis pump capable of performing an effective suction head performance test of a vertical longitudinal-axis pump according to a water level by freely adjusting a water level.

Generally, a pump is a mechanical device that transports fluid through a pipe by pressure action, or pressurizes a fluid in a low-pressure container through a pipe into a high-pressure container.

Such pumps include reciprocating pumps, centrifugal pumps, axial flow pumps, friction pumps, etc. The centrifugal pumps transport or pump the fluid using centrifugal force generated by rotating one or more impellers in a closed casing.

Particularly, a suction port is disposed at a lower portion, a transmission is installed at an upper portion of the pump, and a vertically installed pump is vertically pressurized and supplied to a lower portion of the pump. In a power plant and an industrial plant, Long, large, longitudinal long-axis pumps are used.

It is difficult to perform the NPSH (effective suction head) performance test by adjusting the pressure of the water source by installing a flow rate or pressure control valve at the front of the pump or installing a vacuum pump, unlike other types of pumps because of the structure and installation position of the vertical long axis pump.

Therefore, the NPSH performance test should be performed while changing the water level in the tank equipped with the vertical long axis pump, and development of a performance test apparatus for this is required.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for controlling the flow rate, power and pump speed of a pump according to a suction head as well as NPSH performance test by freely adjusting the level of a tank equipped with a vertical long- Which is capable of measuring a longitudinal long-axis pump performance.

In order to achieve the above object, the apparatus for testing the performance of a vertical long-axis pump according to the first embodiment of the present invention comprises a pump inlet 110 for introducing a fluid into a lower end thereof, A vertical long-axis pump (100) having a suction port (120); A main tank 200 storing a fluid therein, the pump inlet 110 being disposed at a lower portion of the interior, and the pump outlet 120 being disposed at an upper portion of the exterior; A measurement pipe 300 having one end connected to the pump discharge unit 120; A drain tank 400 connected to the other end of the measurement pipe 300 for storing the fluid discharged by the vertical long axis pump 100; At least one level control pipe 500 disposed between one side of the main tank 200 and one side of the drain tank 400 for introducing the fluid of the drain tank 400 into the main tank 200, ; A part of the fluid flowing into the drain tank 400 from the other end of the measurement pipe 300 is cooled and discharged to the drain tank 400 in order to keep the temperature of the fluid inside the main tank 200 constant. A cooling device 600 for maintaining the temperature of the fluid inside the main tank 200 constant; And a level gauge (710) disposed inside the main tank (200) and measuring the level of the internal fluid; The level control pipe 500 is provided with a flow rate control valve 510 and controls the flow rate control valve 510 according to the level signal of the level gauge 710 to control the flow rate of the inside of the main tank 200 And the level of the fluid is kept constant.

Further, the apparatus for testing the performance of a vertical long-axis pump capable of adjusting the level according to the second embodiment of the present invention may further include a volume fluctuation device 800 whose volume changes according to the level signal of the level gauge 710, The volume changer 800 is disposed at the lower end of the main tank 200 and changes the volume of fluid in the main tank 200 as the volume of the volume changer 800 changes.

In addition, the volume changer 800 includes a bulky bulge portion 810; And is disposed between the vertical long axis pump 100 and the bulky bulge portion 810 disposed on one side of the main tank 200 to be spaced apart from the vertical long axis pump 100 by a predetermined distance from the bulky bulge portion 810) is prevented from expanding toward the vertical longitudinal axis pump (100); And a pump unit 830 connected to the bulky bulge 810 to expand or reduce the volume of the bulky bulge 810.

The vertical longitudinal axis pump performance testing apparatus according to the third embodiment of the present invention further includes an additional volume changer 900 whose volume is adjusted according to the level signal of the level gauge 710, The additional volume changer 900 is disposed at the lower end of the drain tank 400 and changes the level of fluid in the drain tank 400 as the volume of the additional volume changer 900 changes, The flow rate of the fluid flowing into the main tank 200 from the tank 400 is changed.

According to the embodiment of the present invention, the level control valve 510 or the transfer pump is provided in the level control pipe 500, so that the level of the fluid in the main tank 200 can be maintained at a desired level.

In addition, the volume variation device 800 is provided in the main tank 200, so that the level of the fluid in the main tank 200 can be constantly maintained at a desired level irrespective of the level of the fluid in the drain tank 400.

Even when the level of the level control pipe 500 is not sufficiently large and the fluid can not be sufficiently moved due to a level difference between the level of the fluid in the drain tank 400 and the level of the fluid in the main tank 200, The fluid level in the main tank 200 can be adjusted through the volume change of the main tank 200.

Further, when the feed pump is further provided in the level control pipe 500, the capacity of the feed pump is smaller than the capacity of the vertical long-axis pump to be tested, so that the fluid is sufficiently transferred from the drain tank 400 to the main tank 200 The level of the fluid in the main tank 200 can be kept constant through the volume change of the volume changer 800. [

Since the volume change device 800 whose volume is changed by pneumatic pressure or the like can quickly change its volume, the fluid is simply transferred from the drain tank 400 to the main tank 200 through the water level control pipe 500 The level of the fluid in the main tank 200 can be adjusted more quickly and finely than in the case where the fluid is conveyed by adding the transfer pump.

The volume change device 800 in the main tank 200 and the additional volume change device 900 in the drain tank 400 are separately provided so that the fluid level in the main tank 200 and the fluid level in the drain tank 400 The level can be adjusted separately.

It is also possible to increase the level of fluid in the main tank 200 without further injection of fluid into the tank.

1 is a schematic view of a device for testing the performance of a vertical longitudinal-axis pump according to a first embodiment of the present invention.
2 is a schematic view of a device for testing the performance of a vertical long-axis pump according to a second embodiment of the present invention.
FIG. 3 is a schematic view showing a level change of a fluid according to a volume change of a volume fluctuation device of a vertical longitudinal-axis pump performance test apparatus according to a second embodiment of the present invention. FIG.
4 is a schematic view of a device for testing the performance of a vertical long-axis pump according to a third embodiment of the present invention.

Hereinafter, an apparatus for testing the performance of a vertical long-axis pump according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view of a vertical longitudinal-axis pump performance test apparatus according to a first embodiment of the present invention. 1, a vertical longitudinal axis pump performance test apparatus capable of adjusting the water level according to an embodiment of the present invention includes a vertical long axis pump 100, a main tank 200, a measurement pipe 300, a drain tank 400 A water level control pipe 500, a cooling device 600, and a level gauge 710. [

First, the vertical long axis pump 100 includes a pump inlet 110 for introducing a fluid to a lower end thereof and a pump outlet 120 for discharging a fluid to an upper end thereof.

The main tank 200 stores the fluid therein and the vertical long axis pump 100 is disposed in the lower portion of the main tank 200 so that the pump inlet portion 110 is disposed at the lower portion of the interior, (Not shown).

One end of the measurement pipe 300 is connected to the pump discharge unit 120 and the other end is connected to the drain tank 400 so that the fluid discharged by the vertical long axis pump 100 flows into the drain tank 400 . The other end of the measurement pipe 300 may be connected to the upper portion of the drain tank 400 and extended to the inner lower side of the drain tank 400.

At this time, the measurement pipe 300 is provided with a check valve 310 for allowing the fluid from the vertical long axis pump 100 to flow in one direction, a pressure gauge 320 for measuring the pressure at the rear end of the vertical long axis pump 100, A straightener 330 for rectifying the flow to the steady flow, a flow meter 340 for measuring the flow rate of fluid from the pump, and a flow rate control valve 350 for controlling the flow rate.

Since the temperature of the fluid rises due to the operation of the pump and the movement of the fluid, it may affect the performance of the vertical long-axis pump 100, the cooling device 600 may be provided. A part or all of the fluid is introduced into the cooling device 600 in the measurement pipe 300 before entering the drain tank 400 to keep the temperature of the fluid inside the main tank 200 constant, It is cooled and discharged to the drain tank 400 to finally maintain the temperature of the fluid inside the main tank 200 at a constant level. At this time, the cooling device 600 is applicable as long as it can cool the fluid. Specifically, it may be a cooling tower that cools the fluid through the outside air, or a refrigerator including a heat exchanger. All of the fluid transported by the pump can be directly introduced into the drain tank 400 and some or all of the transported fluid can be introduced into the cooling device 600 and cooled and then introduced into the drain tank 400.

The cooling performance of the cooling device 600 is controlled in accordance with the temperature signal of the thermometer 720 disposed in the main tank 200 or the drain tank 400 to measure the temperature of the internal fluid, The temperature of the inflowing fluid can be kept constant.

The water level control pipe 500 may be disposed between one side of the main tank 200 and one side of the drain tank 400 to allow the fluid in the drain tank 400 to flow into the main tank 200. The water level control pipe 500 is formed to have a sufficient size to allow the fluid in the drain tank 400 to flow into the main tank 200 by the amount of the fluid discharged from the main tank 200 by the vertical long axis pump 100 And a plurality thereof can be installed for this purpose.

The water level control pipe 500 may include a flow rate control valve 510 to control the amount of fluid flowing from the drain tank 400 to the main tank 200. At this time, the flow control valve 510 is opened or closed according to the level signal of the level gauge 710 disposed inside the main tank 200 to measure the level of the fluid, The level can be kept constant at a desired height.

When the level of the fluid in the main tank 200 is adjusted by the flow rate control valve 510, the level of the fluid in the drain tank 400 is higher than the level of the fluid in the main tank 200, The level of the fluid in the drain tank 400 must be maintained at a level higher than the level of the fluid in the main tank 200 and the level of the fluid in the drain tank 400 should be maintained higher than the level of the fluid in the main tank 200 It is preferable to install them in the order from the lower end to the upper end.

On the other hand, the water level control pipe 500 may further include a transfer pump. In this case, since the fluid in the drain tank 400 is transferred to the main tank 200 by the transfer pump, even when the level of the fluid in the drain tank 400 is not maintained higher than the level of the fluid in the main tank 200 The fluid level inside the main tank can be kept constant at a desired height. Even when the fluid level is not sufficiently large due to a difference in level between the level of the fluid in the drain tank 400 and the level of the fluid in the main tank 200, The fluid level inside the main tank can be kept constant at a desired height.

The main tank 200 and the drain tank 400 are tanks capable of storing fluids in the internal space and may have a rectangular parallelepiped shape whose upper side is opened so that the internal pressure is maintained at atmospheric pressure to be tested. In addition, the main tank 200 and the drain tank 400 may be formed in a rectangular parallelepiped shape having an entire surface including the upper surface, and the inner tank 200 and the drain tank 400 may be maintained in a state where the inner pressure is not at atmospheric pressure. At this time, the pressure control valves 210 and 220 are installed on the upper part of the main tank 200 and the drain tank 400, respectively, and the pressure control valves 210 and 220 are opened to maintain the internal pressure of the tank at atmospheric pressure And a pressure pump or a vacuum pump may be connected to the pressure control valves 210 and 220 to maintain the internal pressure of the tank at a desired pressure. Thereby, there is an advantage that the performance test of the vertical long-axis pump can be performed in accordance with the change in the fluid level in the main tank 200 as well as the pressure change in the main tank 200.

2 is a vertical longitudinal-axis pump performance test apparatus according to a second embodiment of the present invention. The apparatus for testing the performance of a vertical long-axis pump capable of adjusting the level according to the second embodiment of the present invention is formed by further including a volume fluctuation device 800 in the main tank 200 of the apparatus for testing the performance of a vertical long- .

2, the volume changer 800 is disposed at the lower end of the main tank 200, occupies a certain space in a space where the fluid in the main tank 200 is located, and is connected to the level signal of the level gauge 710 The volume of the fluid in the main tank 200 can be changed by expanding or reducing its volume.

Specifically, the volume changer 800 may include a bulky bulge portion 810, a pump portion 830, and the like. The bulky bulge portion 810 may have a structure in which air can be introduced into the bulky interior or a bulky bulky bulky bulky bulky bulky bulky bulky bulky bulb 810 can be formed. A pump portion 830 for expanding or reducing the volume of the bulky bulge portion 810 may be connected to the bulky bulge portion 810 by introducing air into the bulge bulge portion 810 or discharging air to the outside .

3, the pump unit 830 is controlled according to the level signal of the level gauge 710 to expand or reduce the volume of the volume expanding unit 810 to adjust the level of the fluid in the main tank 200 It can be kept constant at a desired height.

3 (a) shows a case where the volume of the fluid in the main tank 200 is kept low while the volume of the bulge expanding portion 810 is kept small. 3 (b) shows a case in which the volume of the fluid in the main tank 200 is maintained at a high level while expanding the volume of the volumetric expansion portion 810 to increase the volume. That is, by expanding or reducing the volume of the bulge expanding portion 810, the fluid level in the main tank 200 can be maintained at a high level or kept low.

Accordingly, the level of the fluid in the main tank 200 can be maintained at a desired level by the volume fluctuation device 800 irrespective of the level of the fluid in the drain tank 400.

Even when the level of the level control pipe 500 is not sufficiently large and the fluid can not be sufficiently moved due to a level difference between the level of the fluid in the drain tank 400 and the level of the fluid in the main tank 200, The fluid level in the main tank 200 can be adjusted through the volume change of the main tank 200.

Further, when the feed pump is further provided in the level control pipe 500, the capacity of the feed pump is smaller than the capacity of the vertical long-axis pump to be tested, so that the fluid is sufficiently transferred from the drain tank 400 to the main tank 200 The level of the fluid in the main tank 200 can be kept constant through the volume change of the volume changer 800. [

Since the volume change device 800 whose volume is changed by pneumatic pressure or the like can quickly change its volume, the fluid is simply transferred from the drain tank 400 to the main tank 200 through the water level control pipe 500 The level of the fluid in the main tank 200 can be adjusted more quickly and finely than in the case where the fluid is conveyed by adding the transfer pump.

As shown in FIG. 2, the bulky bulge 810 may have a stretchable structure such that its bulky volume can be increased or decreased like a balloon. However, when the volume of the bulky bulge portion 810 increases in the left-right direction, the pump inlet portion 110 of the vertical long-axis pump 100 disposed at a certain distance from the bulge bulging portion 810 is blocked, It is possible to prevent the volume expansion portion 810 from expanding in the direction of the vertical long axis pump 100 between the vertical long axis pump 100 and the bulk expansion portion 810, (820) may be further provided.

The blocking bulge 820 may have a structure that allows the fluid to pass but does not allow the bulge bulge 810 to pass therethrough. The blocking bulge 820 may include a plurality of bulges 820, It is preferable that the bulky bulge portion 810 is inflated in the vertical direction and the bulky bulging portion 820 is not inflated beyond the level of the fluid.

As shown in FIG. 4, the bulky bulge portion 810 may have a stretchable structure so as to be expanded only in the vertical direction, and may have a large bellows shape.

4 is a vertical longitudinal axis pump performance test apparatus according to a third embodiment of the present invention. The apparatus for testing the performance of a vertical long-axis pump capable of adjusting the level according to the third embodiment of the present invention may further include a volume changer 800 of the apparatus for testing the performance of a vertical long-axis pump according to the second embodiment in a drain tank 400 .

4, the additional volume changer 900 is disposed at the lower end of the drain tank 400 to occupy a certain space in a space where the fluid in the drain tank 400 is located, The volume of the fluid in the drain tank 400 can be changed by expanding or decreasing the volume of the liquid level in accordance with the level signal of the level gauge 730 located in the gauge 710 or the drain tank 400, The level of the fluid in the main tank 200 may be increased finally by raising the level of the fluid to increase the flow rate of the fluid flowing from the drain tank 400 to the main tank 200.

The additional volume changer 900 may include an additional volume expander 910, an additional pump portion 930, such as a volume changer 800. The additional bulky bulge 910 may have a structure such as a balloon in which air can be introduced into the bulky bulb or bulky bulky bulky bulky bulky bulge. The additional volume expanding portion 910 is provided with an additional pump portion 930 for inflating or reducing the volume of the additional volume expanding portion 910 by introducing air into the additional volume expanding portion 910 or discharging air to the outside, Lt; / RTI >

4, the volume fluctuation device 800 in the main tank 200 and the additional volume fluctuation device 900 in the drain tank 400 are separately provided so that the fluid level in the main tank 200 and the drain The fluid level in the tank 400 can be separately adjusted.

In addition, a certain amount of fluid is stored in the tank of the test apparatus before the performance test of the vertical long-axis pump. It is preferable that the amount of fluid to be stored is about 2/3 of the height of the main tank 200 in the performance test. However, if it is necessary to further increase the level of the fluid during the test, it is not possible without additional injection of the fluid, but the volume change device 800 in the main tank 200 and the additional volume change device 900 in the drain tank 400, The level of the fluid in the main tank 200 can be increased without further injection of the fluid. This becomes more important when the fluid is expensive, or when additional fluids are difficult to penetrate, such as those used in special applications such as nuclear power.

As shown in FIG. 4, the additional bulky bulge portion 910 may have a stretchable structure so as to expand only in the up-down direction, or may have a large bellows shape.

The additional volume changer 900 may be of the same construction as the volume changer 800.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

It goes without saying that the characteristic feature described in each embodiment can be applied to other embodiments.

100: vertical long axis pump 110: pump inlet 120: pump outlet
200: main tank 300: measuring pipe 400: drain tank
500: water level control pipe 510: flow rate control valve 600: cooling device
710; Level gauge 800: volume fluctuation device 810: volume bulge
820: blocking screen 830: pump unit 900: additional volume changer

Claims (4)

A vertical longitudinal-axis pump performance test apparatus capable of adjusting the water level,
A vertical long axis pump (100) having a pump inlet (110) for introducing fluid into a lower end and a pump outlet (120) for discharging fluid to an upper end;
A main tank 200 storing a fluid therein, the pump inlet 110 being disposed at a lower portion of the interior, and the pump outlet 120 being disposed at an upper portion of the exterior;
A measurement pipe 300 having one end connected to the pump discharge unit 120;
A drain tank 400 connected to the other end of the measurement pipe 300 for storing the fluid discharged by the vertical long axis pump 100;
At least one level control pipe 500 disposed between one side of the main tank 200 and one side of the drain tank 400 for introducing the fluid of the drain tank 400 into the main tank 200, ;
A part of the fluid flowing into the drain tank 400 from the other end of the measurement pipe 300 is cooled and discharged to the drain tank 400 in order to keep the temperature of the fluid inside the main tank 200 constant. A cooling device 600 for maintaining the temperature of the fluid inside the main tank 200 constant;
A level gauge 710 disposed inside the main tank 200 to measure the level of the internal fluid; And
And a volume changer (800) whose volume is changed according to a level signal of the level gauge (710)
The level control pipe 500 is provided with a flow rate control valve 510 and controls the flow rate control valve 510 according to the level signal of the level gauge 710 to adjust the level of the fluid in the main tank 200 Keep it constant,
The volume changer 800 is disposed at the lower end of the main tank 200 and changes the level of fluid in the main tank 200 as the volume of the volume changer 800 changes. Vertical Long Axis Pump Performance Test System. delete The method according to claim 1,
The volume changer (800)
A bulky portion 810;
And is disposed between the vertical long axis pump 100 and the bulky bulge portion 810 disposed on one side of the main tank 200 to be spaced apart from the vertical long axis pump 100 by a predetermined distance from the bulky bulge portion 810) is prevented from expanding toward the vertical longitudinal axis pump (100); And
And a pump unit (830) connected to the bulky bulge (810) to expand or reduce the volume of the bulky bulge (810). The method according to claim 1,
Further comprising an additional volume changer (900) volume controlled according to a level signal of the level gauge (710)
The additional volume changer 900 is disposed at the lower end of the drain tank 400 and changes the level of fluid in the drain tank 400 as the volume of the additional volume changer 900 changes, Wherein the flow rate of the fluid flowing from the tank (400) to the main tank (200) is changed.

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