KR101852326B1 - Centrifugal pump - Google Patents

Abstract

The present invention relates to a centrifugal pump comprising: a casing (10) having a fluid inlet (12) and a fluid outlet (14); a bearing housing (20) coupled to the casing (10); a casing cover (30) coupled between the casing (10) and the bearing housing (20); a shaft (40) installed inside the bearing housing (20); an impeller (50) coupled to an end part of the shaft (40); a first cylindrical sleeve (60) installed on the outer circumferential surface of the shaft (40); a second cylindrical sleeve (70) installed on the outer circumferential surface of the shaft (40), having one end coupled to the first sleeve (60), and having the other end to be supported to the impeller (50); a shaft chamber (80) installed on the outer circumferential surface of the first sleeve (76); and an O-ring (90) installed between the first and second sleeves (60, 70). Moreover, at least one rectification plate (16) is installed on the fluid inlet (12). Accordingly, functionality and usability of the centrifugal pump are able to be improved.

Description

Centrifugal pump {CENTRIFUGAL PUMP}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a centrifugal pump, and more particularly, to a centrifugal pump capable of improving irregular flow of a fluid such as turbulence or vortex using a rectifying plate.

Generally, a pump is a machine for reliably transporting a fluid such as a liquid or gas through a pipe using a pressure action, and is divided into various types according to the purpose of use.

These pumps are used in all fields of industry, and their use is increasing.

In response to this trend, the development of centrifugal pump technology has been actively carried out.

As shown in Fig. 1, a conventional centrifugal pump includes a casing 1; A bearing housing (2) coupled to the casing (1); A casing cover (3) coupled between the casing (1) and the bearing housing (2); A shaft (4) installed inside the bearing housing (2); An impeller 5 coupled to an end of the shaft 4; A cylindrical sleeve (6) provided on the outer peripheral surface of the shaft (4); And a shaft seal (shaft rod) 7 provided on the outer circumferential surface of the sleeve 6.

However, such a centrifugal pump has a problem in that the flow of the fluid is irregularly formed when the fluid is sucked through the fluid inlet 12 of the casing 10, such as vortex or turbulent flow. As a result, Pump performance deteriorates.

Also, noise is generated due to vortex or turbulence due to suction of the fluid.

This results in relatively lowering the functionality and usability of the centrifugal pump.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a centrifugal pump capable of improving the irregular flow of fluid when the fluid is sucked into the casing, .

According to an aspect of the present invention, there is provided a centrifugal pump including: a casing having a fluid inlet and a fluid outlet; A bearing housing coupled to the casing; A casing cover coupled between the casing and the bearing housing; A shaft installed inside the bearing housing; An impeller coupled to an end of the shaft; A first sleeve having a cylindrical shape and provided on an outer circumferential surface of the shaft; A cylindrical second sleeve installed on an outer circumferential surface of the shaft and having one end connected to the first sleeve and the other end supported on the impeller; A shaft seal provided on an outer circumferential surface of the first sleeve; And an O-ring disposed between the first sleeve and the second sleeve, wherein at least one rectifying plate is provided on the fluid inlet.

The centrifugal pump according to the present invention can improve irregular flow of fluid such as vortex or turbulent flow when the fluid is sucked into the inlet port by providing the rectifier plate on the fluid inlet port of the casing.

And noise generated when the fluid is sucked into the fluid inlet can be reduced.

As a result, the functionality and usability of the centrifugal pump can be relatively improved.

1 is a schematic view of a conventional centrifugal pump,
2 is a schematic view of a centrifugal pump according to the present invention,
3 is a front view showing a state in which a rectifying plate is installed in a centrifugal pump according to the present invention;
FIG. 4 is a front view showing another embodiment of the state in which the rectifier plate of the centrifugal pump according to the present invention is installed;
FIG. 5 is a sectional view showing the installation state of the first and second sleeves of the centrifugal pump according to the present invention,
6 is a perspective view showing the first and second sleeves of the centrifugal pump according to the present invention,
7 is a cross-sectional view of the first and second sleeves of the centrifugal pump according to the present invention,
8 is a sectional view showing another embodiment of the first and second sleeves of the centrifugal pump according to the present invention,
9 is a sectional view showing a state where an elastic body is interposed between a second sleeve and an impeller of a centrifugal pump according to the present invention;
10 is a sectional view showing another embodiment of the actual retarder of the centrifugal pump according to the present invention,
11 is a cross-sectional view showing the installation state of the first and second sleeves according to another embodiment of the centrifugal pump according to the present invention.

Hereinafter, a centrifugal pump according to the present invention will be described in detail with reference to the accompanying drawings.

2 to 7, the centrifugal pump according to the present invention includes a casing 10; A bearing housing (20) coupled to the casing (10); A casing cover (30) coupled between the casing (10) and the bearing housing (20); A shaft (40) installed inside the bearing housing (20); An impeller 50 coupled to an end of the shaft 40; A first sleeve 60 formed on the outer circumferential surface of the shaft 40; A cylindrical second sleeve 70 provided on the outer circumferential surface of the shaft 40; A shaft seal (80) installed on an outer circumferential surface of the first sleeve (60); An O-ring 90 installed between the first sleeve 60 and the second sleeve 70; And a lantern ring 100 installed on an outer circumferential surface of the second sleeve 70.

The casing 10 is made of a metal material having excellent physical properties such as durability and water resistance, and has a fluid inlet 12 through which the fluid is sucked and a fluid outlet 14 through which the fluid is discharged.

Particularly, on the fluid inlet 12, a rectifying plate 16 is provided to stabilize the flow of the fluid through the rectifying plate 16 and to prevent the fluid from splashing. It is needless to say that such a rectification plate 16 may be integrally formed on the fluid inlet 12 or may be detachably installed on the fluid inlet 12 for maintenance of the rectification plate 16. [

3, two rectifying plates 16 are provided so as to be symmetrical to each other on the upper and lower sides of the fluid inlet 12, and two rectifying plates 16 are provided so as to cross the fluid inlet 12, as shown in FIG. And the number and type of installation thereof can be appropriately changed. Further, a configuration such as a groove or a hole for stably maintaining the flow of the fluid may be added to the rectification plate 16. [

The casing 10 is formed with an internal space portion of a predetermined size in which the impeller 50 is accommodated.

On the other hand, the shape, material, etc. of the casing 10 can be appropriately changed as necessary.

The bearing housing 20 is made of a metal material having excellent physical properties such as durability and water resistance, and is detachably coupled to the rear of the casing 10 by a coupling means such as a screw.

On the other hand, the shape and material of the bearing housing 20 can be changed as necessary.

The casing cover (30) covers the casing (10) and serves to support the shaft (40).

3, a plurality of depressurized grooves 32 are formed on the circumferential surface of the casing cover 30 spaced from the second sleeve 70 so as to face the second sleeve 70. Through the depressurized grooves 32, 30 and the second sleeve 70 can be relatively reduced.

It is needless to say that the shape, size and arrangement of the depressurized grooves 32 can be selectively changed.

The shaft 40 is rotated by receiving the driving force of the motor, and the impeller 50 is interlocked by the rotational force of the shaft 40.

The first sleeve 60 serves to prevent abrasion or damage caused by the rotation of the shaft 40.

The first sleeve 60 is disposed between the shaft 40 and the shaft chamber 80 so as to completely surround the outer circumferential surface of the shaft 40 and is made of a metal material having excellent physical properties.

A wear-resistant coating layer (not shown) having a predetermined thickness may be formed on the outer circumferential surface of the first sleeve 60.

Since the first sleeve 60 has a structure separable from the second sleeve 70, when wear or damage occurs due to friction with the shaft chamber 80, only the first sleeve 60 can be individually replaced Maintenance can be improved and the maintenance cost can be reduced.

For reference, when the centrifugal pump is operated, as the abrasion concentrates on the first sleeve 60 directly contacting the shaft chamber 80, only the first sleeve 60 may be exchanged separately, but conventionally, So that the entire sleeve is replaced by having an integral structure.

5, the microprojections 61 serve as a release agent in the replacement operation of the first sleeve 60, and the microprojections 61 are formed on the inner surface of the shaft 40 So that the first sleeve 60 can be smoothly separated from the outer peripheral surface of the first sleeve 60. For example, in the case where a plurality of fine protrusions 61 are not formed on the inner surface of the first sleeve 60, the first sleeve 60 is adhered to the outer circumferential surface of the shaft 40, .

On the other hand, the first sleeve 60 is stably supported by the elastic body 110 located at one side thereof.

The second sleeve 70 is provided to completely enclose the outer circumferential surface of the shaft 40 and stably protects the shaft 40. The second sleeve 70 is made of a metal material having excellent physical properties. A wear-resistant coating layer (not shown) may be additionally formed on the outer circumferential surface of the first sleeve 60.

One end of the second sleeve (70) is connected to the first sleeve (60), and the other end is supported on the impeller (50).

Particularly, the inner diameter of the second sleeve 70 is the same as the inner diameter of the first sleeve 60 and the outer diameter of the first sleeve 60 is larger than the outer diameter of the first sleeve 60, A step is generated. Accordingly, the lower end of the shaft chamber 80 can be engaged with the second sleeve 70, so that the shaft chamber 80 can be assembled at the correct position during the replacement operation of the shaft chamber 80.

The outer diameter of the second sleeve 70 is larger than the outer diameter of the first sleeve 60 when the lancet ring 100 is installed on the outer circumferential surface of the second sleeve 70 so as to be adjacent to the shaft chamber 80 It is possible to prevent a part of the end of the shaft chamber 80 from being drawn into the lower portion of the lantern ring 100 located adjacent thereto. For example, when a part of the end of the shaft chamber 80 is rolled into the lower space of the lancet ring 100, the function of the shaft chamber 80 may be deteriorated due to damage to the shaft chamber 80.

The shaft seal 80 is for maintaining the watertightness of the shaft 40, and gland packing is applied. The o-ring 90 is for maintaining the airtightness of the connection part between the first sleeve 60 and the second sleeve 70, and the lantern ring 100 sucks the pressure water from the pressure water connection pipe, To prevent solid contact and to cool down.

Although not shown in the drawing, a spacer ring is interposed between the shaft 40 and the shaft 40 to which the first sleeve 60 is retained so that the spacer ring is removed when the first sleeve 60 is worn. The life of the first sleeve 60 can be further extended by moving the position of the first sleeve 60 to change the portion in contact with the shaft chamber 80. [

Reference numerals 120, 130, and 140 denote bearings, bearing cases, and oil chambers.

8 is a sectional view showing another embodiment of the first and second sleeves of the centrifugal pump according to the present invention. (a) shows a first sleeve structure, and (b) shows a second sleeve structure.

Each of the first and second sleeves (60, 70) includes a left sleeve (62, 72) surrounding one side peripheral surface of the shaft (40); A right sleeve 64, 74 which is in abutment with the left sleeve 62, 72 and surrounds the other outer circumferential surface of the shaft 40; And sealing members 66 and 76 interposed between the left and right sleeves 62 and 72 and the right and left sleeves 64 and 74, respectively.

One of the left sleeves 62 and 72 and the right sleeves 64 and 74 has coupling grooves 63 and 73 and the other has coupling projections 65 and 75 corresponding to the coupling grooves 63 and 73, Respectively.

Thus, the left and right sleeves 62 and 72 and the right sleeves 64 and 74 can be easily coupled to each other by a one-touch method, so that the first and second sleeves 60 and 70 can be efficiently engaged have.

9 is a cross-sectional view showing a state where an elastic body is interposed between a second sleeve and an impeller of a centrifugal pump according to the present invention.

As shown in the figure, an elastic body 70a is interposed between the second sleeve 70 and the impeller 50, and the elastic body 70a has the second sleeve 70 as the first It is possible to further improve the airtightness maintaining effect between the first and second sleeves 60 and 70 by adhering to the sleeve 60.

Also, even if some error occurs in the length of the second sleeve 70, the connection state with the first sleeve 60 can be stably adhered by the elastic force of the elastic body 70a.

On the other hand, as the elastic body 70a, various known types having an elastic function can be selectively applied.

10 is a cross-sectional view showing another embodiment of the actual holding member of the centrifugal pump according to the present invention. The actual holding member 110 includes a first body 110a: a second body 110b which is bolted to the first body 110a ).

The first body 110a and the second body 110b are separated from each other and completely detached when the shaft chamber 80 is replaced, 80 can be sufficiently secured, the replacement operation of the shaft chamber 80 can be performed more simply and efficiently. For example, when the actual supporting member 110 has an integral structure, it is difficult to secure a space for replacing the supporting member 110 when the shaft chamber 80 is replaced, which is relatively difficult and complicated.

The first body 110a and the second body 110b have a shape symmetrical to each other. Each of the first and second bodies 110a and 110b includes a coupling portion 112 having a bolt hole 111 formed therein; And a pressing portion 114 integrally projecting from the engaging portion 112 to press the first sleeve 60.

11 is a cross-sectional view showing the installation state of the first and second sleeves according to another embodiment of the centrifugal pump according to the present invention.

As shown in the drawing, the first sleeve 60 and the second sleeve 70 are separated from each other. The outer diameter of the second sleeve 70 is larger than the outer diameter of the first sleeve 60 So that the shaft chamber 80 is hooked on one end of the second sleeve 70.

In particular, in the case of the shaft chamber 80 to which the mechanical seal is applied, accuracy is required in its assembling work. However, in the present invention, the screw, which is fastened by the step difference caused by the difference in outer diameters of the first and second sleeves 60, Since the fixing position of the hole 77 is determined, the assembly work is easy.

Since the centrifugal pump is the same as the centrifugal pump described above with reference to FIG. 3 except that a mechanical seal is applied to the shaft chamber 80, detailed description thereof will be omitted.

10: casing 12: fluid inlet
14: Fluid outlet 16:
20: Bearing housing 30: Casing cover
40: shaft 50: impeller
60: first sleeve 61: fine protrusion
62: left sleeve 63: engaging groove
64: right sleeve 65: engaging projection
66: sealing material 70: second sleeve
72: left sleeve 73: engaging groove
74: right sleeve 75: engaging projection
76: sealing material 80: shaft seal
90: o-ring 100: lantern ring

Claims (8)

A casing (10) having a fluid inlet (12) and a fluid outlet (14) formed therein;
A bearing housing (20) coupled with the casing (10);
A casing cover (30) coupled between the casing (10) and the bearing housing (20);
A shaft 40 installed inside the bearing housing 20;
An impeller (50) coupled to an end of the shaft (40);
A cylindrical first sleeve 60 installed on an outer circumferential surface of the shaft 40;
A cylindrical second sleeve 70 installed on an outer circumferential surface of the shaft 40 and having one end connected to the first sleeve 60 and the other end supported by the impeller 50;
A shaft chamber (80) provided on an outer circumferential surface of the first sleeve (60);
And an O-ring (90) installed between the first sleeve (60) and the second sleeve (70)
At least one rectifying plate (16) is provided on the fluid inlet (12)
Each of the first and second sleeves (60, 70) includes a left sleeve (62, 72) surrounding one side of the shaft (40); A right sleeve (64, 74) coupled to the left sleeve (62, 72) and surrounding an outer circumferential surface of the shaft (40); The left and right sleeves 62 and 72 and the right and left sleeves 64 and 74 are made of a sealing material 66 and 76 interposed between the left and right sleeves 62 and 72 and the right and left sleeves 64 and 74, The coupling grooves 63 and 73 are formed in one of the coupling grooves 63 and 73 and the coupling protrusions 65 and 75 are formed in the other coupling groove 63 and 73,
The body member 110 further includes a first body 110a and a second body 110b that is coupled to the first body 110a by bolting with the first body 110a. Each of the first and second bodies 110a and 110b includes a coupling part 112 formed with a bolt hole 111 and a coupling part 112 integrally protruding from the coupling part 112, And a pressing portion 114 for pressing the pressing portion 114,
And a pressure reducing groove (32) is formed on a circumferential surface of the casing cover (30).
delete The method according to claim 1,
Wherein an outer diameter of the second sleeve (70) is larger than an outer diameter of the first sleeve (60), and the shaft chamber (80) is engaged with one end of the second sleeve (70) .
The method of claim 3,
The shaft seal (80) is a gland packing,
Further comprising a lancet ring (100) installed on an outer circumferential surface of the second sleeve (70) so as to be adjacent to the shaft chamber (80).
The method of claim 3,
Wherein the shaft chamber (80) is a mechanical chamber.
delete delete The method of claim 3,
And a plurality of fine protrusions (61) are formed on the inner surface of the first sleeve (60).

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