KR102303918B1 - Centrifugal submersible pump - Google Patents

Abstract

The present invention relates to a centrifugal submersible pump, which is installed under water to pump water to the outside. The centrifugal submersible pump comprises: a pump casing (20) disposed under a motor casing (15) including a motor (10); an impeller (30) disposed inside the pump casing (20), and driven by a driveshaft (11) of the motor (10); a suction cover (40) mounted in a suction port (21) of the pump casing (20) to prevent pressure loss of an impeller (30); and a suction stand (50) disposed under the pump casing (20) to support the pump casing (20), and further comprises a flow balance block (60) mounted on the inner upper surface (22) of the pump casing (20). Between the impeller (30) and the flow balance block (60) mounted on the inner upper surface (22) of the pump casing (20) is a gap (S2) capable of minimizing the dynamic pressure on components. Therefore, the efficiency can be effectively increased by installing the flow balance block.

Description

Centrifugal Submersible Pump {CENTRIFUGAL SUBMERSIBLE PUMP}

The present invention relates to a centrifugal submersible pump installed in water to pump water to the outside, and more particularly, to a centrifugal submersible pump in which a flow balance block is mounted on an inner upper surface of a pump casing.

In Korean Patent No. 10-2046318 (November 13, 2019, registered), "a submersible pump efficiency correction system using a spacer" is introduced.

The submersible pump efficiency correction system using the spacer is an upper casing; The lower casing is bolted to the upper casing; a wear ring mounted on the inner circumferential surface of the lower casing, the inner diameter of which becomes narrower toward the lower end of the lower casing; an impeller connected to the upper casing and positioned inside the lower casing; It includes a spacer installed between the upper casing and the lower casing, the spacer includes a body portion in which a bolt hole through which the bolt is formed; It is fitted between the main body and the upper casing, and consists of a gap adjusting part that adjusts the gap between the wear ring and the impeller by changing the thickness.

However, the submersible pump efficiency correction system using the spacer cannot be applied to the centrifugal submersible pump in the form applied to the axial submersible pump, and only adjusts the interval between the wear ring and the impeller, but fails to optimize the flow path. Further, adjusting the gap up and down by a few mm may be good for maintenance, but no mechanism has been described to compensate for the efficiency of the submersible pump.

Therefore, an object of the present invention is to mount a flow balance block on the inner upper surface of the pump casing, and adjust the gap with the impeller, thereby reducing the flow of fluid in the pump casing, thereby reducing the power, thereby reducing the impeller It is to provide a centrifugal type submersible pump capable of optimally designing a flow path without increasing manufacturing cost because the dynamic pressure component generated when the is rotated can be changed to a static pressure component without processing as a loss.

An example of a centrifugal submersible pump according to the present invention for achieving the above object is

A pump casing disposed under the motor casing including the motor, an impeller disposed inside the pump casing and driven by a drive shaft of the motor, and a suction cover mounted on the suction port of the pump casing to prevent pressure loss of the impeller; In the centrifugal submersible pump consisting of a suction stand disposed under the pump casing to support the pump casing,

It further comprises a flow balance block mounted on the inner upper portion of the pump casing, characterized in that the gap that can minimize the dynamic pressure component is formed between the flow balance block and the impeller mounted on the inner upper surface of the pump casing.

The flow balance block is characterized in that it is composed of a disk portion, a ring-shaped guide rib formed around the disk portion, and a mounting groove formed between the disk portion and the guide rib.

A guide groove is formed in the guide rib, and the guide groove is disposed at the inlet of the discharge port of the pump casing.

The flow balance block is characterized in that the upper surface of the disc part is joined to the inner upper surface of the pump casing by an adhesive.

In addition, the flow balance block is divided into a plurality of pieces so that it can be put into the inside of the pump casing through the suction port of the pump casing, a coupling groove is formed on one side of any one piece, and a coupling protrusion on the other side of the piece is formed, characterized in that the plurality of pieces are coupled in such a way that the coupling protrusion of the other piece is coupled to the coupling groove of one piece.

By this, the centrifugal submersible pump according to the present invention can effectively increase the efficiency by installing a flow balance block without casting the pump casing according to the size of each pump, and separate the flow balance block into a plurality of pieces to pump the pump It has the effect that it can be easily installed on the casing.

1 is a cross-sectional view showing a general centrifugal submersible pump.
2 is a perspective view showing a centrifugal submersible pump according to the present invention.
3 is an exploded perspective view showing a centrifugal submersible pump according to the present invention.
4 is a cross-sectional view taken along line AA of FIG. 2 showing a centrifugal type submersible pump according to the present invention.
5 and 6 are perspective views illustrating a flow balance block.
7 is an exploded perspective view showing a flow balance block.
8 is a comparison of the flow field before and after mounting the flow balance block.
9 is a comparison of the efficiency before and after mounting the flow balance block.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 1 , in general, a centrifugal submersible pump includes a pump casing 20 disposed under a motor casing 15 including a motor 10 , and a motor 10 disposed inside the pump casing 20 . ), the impeller 30 driven by the drive shaft 11, the suction cover 40 that is mounted on the suction port 21 of the pump casing 20, and prevents the pressure loss of the impeller 30, and the pump casing ( It is disposed in the lower part of the 20) and consists of a suction stand 50 for supporting the pump casing (20).

When a pump manufacturer produces a series of centrifugal submersible pumps, by using the pump casing 20 in common and manufacturing the impeller 30 by size, as shown in FIG. 1, the upper surface 22 of the pump casing 20 ) and the gap S1 between the impeller 30 is large, resulting in a decrease in lift and efficiency.

To avoid this, the pump casing must be made differently for each series. However, if the pump casings are manufactured individually for each series, an increase in production cost and an increase in logistics cost due to the production of wooden molds and castings is inevitable. Moreover, it is a serious problem in the pump industry that, despite the fact that the pumping efficiency is lowered, the pump casing cannot be manufactured for each series.

2 to 4, in the centrifugal submersible pump configured as described above, the centrifugal submersible pump according to the present invention is a flow balance block 60 mounted on the inner upper surface 22 of the pump casing 20. further includes

The flow balance block 60 secures an optimal flow path through flow analysis and is mounted on the inner upper surface 22 of the pump casing 20 based on the result to adjust the gap S2 with the impeller 30 By doing so, the dynamic pressure component generated when the impeller 30 rotates in the pump casing 20 can be changed to a static pressure component, and the flow path can be optimally designed.

In addition, the flow balance block 60 can be installed in the casing by changing only the shape of the flow balance block without changing the casing according to the series change or model change of the centrifugal type submersible pump, so that the pump can be manufactured quickly.

5 and 6, the flow balance block 60 includes a circular plate part 61, a ring-shaped guide rib 62 formed around the circular plate part 61, and a circular plate part 61 and It consists of a mounting groove (63) formed between the guide ribs (62).

In addition, the flow balance block 60 may be formed of a material having a reduced weight and strength by an injection molding method.

A guide groove 64 is formed in the guide rib 62 , and the guide groove 64 is disposed at the inlet of the discharge port 21 (so-called 'cochlear flow path') of the pump casing 20 .

Thereby, the disc part adjusts the gap (S2; see FIG. 2) with the impeller 30, and the guide rib 62 adjusts the inlet size of the outlet 21 of the pump casing 20 and the flow of fluid. will do

In the flow balance block 60 , the upper surface of the disc part 61 may be bonded to the inner upper surface 22 of the pump casing 20 by an adhesive.

In addition, the flow balance block 60 is a plurality of (for example, four) pieces (a, b, c and d), a coupling groove 65 is formed on one side of the piece (a), and a coupling protrusion 66 is formed on the other side of the piece (a), A plurality of (four) pieces are coupled in such a way that the coupling protrusions 66 of the other pieces (b) are coupled to the coupling grooves 65 of ).

In the centrifugal submersible pump according to the present invention configured as described above, when the impeller 30 rotates inside the pump casing 20 and the fluid is discharged through the outlet 21 of the pump casing 20, the flow balance block In the gap (S2; , the fluid flow at the outlet 21 of the pump casing 20 is discharged without a vortex by the guide rib 62, as shown in FIG. 9, the relative efficiency is improved by 4% to 5%.

Since the CFD efficiency of FIG. 9 is pump efficiency, motor efficiency is not considered. In other words, the KTC experiment is the overall efficiency, and about 83% of motor efficiency should be considered.

As such, the centrifugal submersible pump according to the present invention can effectively increase the efficiency by installing a flow balance block without casting the pump casing to fit each size, and separate the flow balance block into a plurality of pieces to pump the pump It has a very big advantage that it can be easily mounted on the casing.

10: motor 15: motor casing
20: pump casing 30: impeller
40: suction cover 50: suction stand
60: flow balance block

Claims (5)

The pump casing 20 disposed under the motor casing 15 including the motor 10 , and the impeller 30 disposed inside the pump casing 20 and driven by the drive shaft 11 of the motor 10 . ) and a suction cover 40 mounted on the suction port 21 of the pump casing 20 to prevent pressure loss of the impeller 30, and a pump casing 20 disposed under the pump casing 20 In the centrifugal submersible pump consisting of a suction stand (50) to support,
Further comprising a flow balance block 60 mounted on the inner upper surface 22 of the pump casing 20, the flow balance block 60 and the impeller mounted on the inner upper surface 22 of the pump casing 20 A gap (S2) that can minimize the dynamic pressure component is formed between (30),
The flow balance block 60 is formed between the disk portion 61, the ring-shaped guide rib 62 formed around the disk portion 61, and the disk portion 61 and the guide rib 62. Consists of a mounting groove (63),
The flow balance block 60 is divided into a plurality of pieces so that it can be put into the inside of the pump casing 20 through the suction port 21 of the pump casing 20, and a coupling groove 65 on one side of any one piece ) is formed, and a coupling protrusion 66 is formed on the other side of the piece, so that a plurality of pieces are coupled in such a way that the coupling protrusion 66 of the other piece is coupled to the coupling groove 65 of one piece. A centrifugal submersible pump.
delete The pump casing 20 disposed under the motor casing 15 including the motor 10 , and the impeller 30 disposed inside the pump casing 20 and driven by the drive shaft 11 of the motor 10 . ) and a suction cover 40 mounted on the suction port 21 of the pump casing 20 to prevent pressure loss of the impeller 30, and a pump casing 20 disposed under the pump casing 20 In the centrifugal submersible pump consisting of a suction stand (50) to support,
Further comprising a flow balance block 60 mounted on the inner upper surface 22 of the pump casing 20, the flow balance block 60 and the impeller mounted on the inner upper surface 22 of the pump casing 20 A gap (S2) that can minimize the dynamic pressure component is formed between (30),
The flow balance block 60 is formed between the disk portion 61, the ring-shaped guide rib 62 formed around the disk portion 61, and the disk portion 61 and the guide rib 62. Consists of a mounting groove (63),
A guide groove (64) is formed in the guide rib (62), and the guide groove (64) is disposed at the inlet of the discharge port (21) of the pump casing (20).
The method of claim 1,
The flow balance block (60) is a centrifugal type submersible pump, characterized in that the upper surface of the disc part (61) is joined to the inner upper surface (22) of the pump casing (20) by an adhesive.
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