KR101881086B1 - Stage of vertical multi-stage centrifugal pump - Google Patents

Abstract

The present invention relates to a stage for a vertical multistage pump, capable of enhancing pumping efficiency. According to the present invention, the stage for a vertical multistage pump comprises: a cylindrical housing (310); an impeller (330) disposed on the lower part of a diffuser (350) inside the cylindrical housing (310) and having a suction hole (332b) formed in the center of a lower disc (332), wherein a curved guide part (332a) is formed around the lower disc (332), such that the lower disc (332) is formed in a round dish shape; and a diffuser including a ring-shaped curved guide plate (351) disposed in an upper corner of the cylindrical housing (310) to be attached to a cylinder part (311) of the cylindrical housing (310) and an upper disc (312) and disposed corresponding to the curved guide part (332a), a plurality of first guide blades (352) radially disposed on the curved guide plate (351), and a plurality of second guide blades (354) radially disposed on a support plate (353), wherein a second passage (355) is formed by the support plate (353), the curved guide plate (351), and the upper disc (312) of the cylindrical housing (310).

Description

STAGE OF VERTICAL MULTI-STAGE CENTRIFUGAL PUMP

[0001] The present invention relates to a stage for a multi-stage multi-stage pump, and more particularly to a multi stage multi-stage pump having a curved guide formed around a lower disk of the impeller, a curved guide plate of the diffuser corresponding to the curved guide, Stage.

Korean Utility Model Registration No. 20-0420955 (registered on June 30, 2006), "Vortex prevention guide device for multi-stage pump" is introduced.

The vortex prevention guide device of the multi-stage pump includes a plurality of impeller housings stacked on a circumference of a rotary shaft of the multi-stage pump at a predetermined interval, and a plurality of intermediate chambers are defined. In each of the intermediate chambers, And an inner plate and a vane for guiding the upward movement of the fluid pressurized by the impeller are fixedly formed on the inner wall surface of the upper wall of the impeller housing and a sealer for sealing the airtightness is provided between the inside of the upper wall of the impeller housing and the inlet of the impeller. Wherein the vortex preventing member is a vortex preventing member for preventing the fluid passing through the braid of the impeller from being directly guided between the outer periphery of the inner plate and the inner periphery of the side wall of the impeller housing, A guide is formed above the upper wall of the impeller housing The vortex prevention guide may include a fluid attraction portion bent at a top of the height compensation portion toward the outside in a gentle curve with reference to a height compensation portion formed at a predetermined height to compensate for a height difference between an upper surface of the impeller housing and a lower impeller And the lower portion of the height compensating portion is formed along the upper side inclination of the impeller housing to be fixedly coupled to the impeller housing.

However, in the vortex prevention guide device of the multi-stage pump, the fluid pressurized by the impeller naturally flows upward along the curved shape of the fluid inlet portion and is guided to the next upper impeller housing, but is fixedly mounted on the impeller housing, A friction loss is generated when the fluid is introduced into the stopped fluid inflow portion.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an impeller in which a curved guide portion is formed around a lower disk, a curved guide plate of a diffuser corresponding to a curved guide portion is disposed at an upper corner of a cylindrical housing, The present invention is to provide a stage for a multi-stage multi-stage pump capable of reducing the pressure loss of the fluid rather than ejecting the fluid in a radial direction, preventing the occurrence of swirling flow at the corner of the cylindrical housing, and increasing the pumping efficiency.

Another object of the present invention is to provide an impeller in which a vane is radially arranged in a curved shape and a vane is inclined in a rotating direction of the impeller so that a fluid introduced into the impeller is smoothly guided to the diffuser, Thereby increasing the pressure of the fluid that has passed through the impeller, and improving flowability.

It is a further object of the present invention to provide a diffuser in which first and second blades are angularly disposed, fluid injected from the impeller is smoothly guided to the first guide blade, and is smoothly guided along the upper inclined surface of the first guide blade to the second guide blade So that the friction loss of the fluid can be remarkably reduced.

In order to achieve the above object, according to the present invention, there is provided a stage for a multi-

A cylindrical housing in which an upper circular plate is integrally formed on an upper end of the cylindrical portion and a discharge hole is formed in the center of the upper circular plate,

A plurality of vanes are disposed between the upper cover plate and the lower disk, a first flow path through which the fluid passes is formed between the upper cover plate and the lower disk, The rotation axis of the yoke boss formed in the center is inserted and rotated relative to the diffuser by the rotation axis, and the curved guide portion is formed around the lower disk, the lower disk is formed into a round dish shape, An impeller in which a suction hole is formed at the center of the lower disk,

A ring-shaped curved guide plate disposed at the upper corner of the cylindrical housing and attached to the cylindrical portion of the cylindrical housing and to the upper circular plate and corresponding to the curved guide portion of the lower disk of the impeller; A plurality of second guide blades radially disposed on the support plate, and a plurality of second guide blades disposed radially on the support plate, wherein the support plate, the curved guide plate, and the cylindrical housing And a diffuser having a second flow path formed by an upper disk of the first diffuser plate.

The vane is formed in a curved long band shape and radially arranged to a circumferential portion of the lower circular plate around the suction hole of the lower circular plate. The lower end contacts the lower circular plate. The upper end contacts the upper cover plate. The fluid is guided by the inclined surface and the portion of the entire portion contacting the lower disk is in contact with the curved guide portion so as to be curved in the same shape as the curved guide portion.

The curved shape of the vane is characterized by being either an involute curve, a cycloid curve, a spiral curve, or a helix curve.

The first guide blade is inclined so as to guide the flow of the fluid induced by the vane of the impeller to the second guide blade without interfering with the flow of the fluid, and the joining end is curved like a curved guide plate so that it can be attached to the curved guide plate. Shape.

Accordingly, the stage for the multi-stage pump according to the present invention can reduce the pressure loss of the fluid rather than ejecting the fluid in a radial direction, prevent the swirl flow at the corner of the cylindrical housing, So that the pumping efficiency can be increased.

FIG. 1 is a cross-sectional view of a general multi-
2 is a perspective view showing a stage for a multi-stage pump according to the present invention;
3 is an exploded perspective view showing a stage for a multi-stage pump according to the present invention.
4 is a schematic cross-sectional view of a stage for a multi-stage pump according to the present invention
Fig. 5 is an exploded perspective view of the impeller of Fig.
6 is an exploded perspective view showing the diffuser
7 is a schematic view for explaining the action of the first and second blades in the diffuser

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

Referring to FIG. 1, generally, the multi-stage multi-stage pump has an outer sleeve 20 and a multi-stage stage 30 mounted on a lower casing 10 having a suction port 11 and a discharge port 12, A stage 30 is stacked in a plurality of stages in the interior of the outer sleeve 20 and a flow path 25 is formed between the stage 30 and the outer sleeve 20 stacked in a multi- An upper casing 40 is mounted on an upper end of a stage 30 stacked in a plurality of stages and an impeller 330 and a diffuser 350 are disposed in each of the stages 30 and a driving shaft 55 of the motor 50, The impeller 350 is coupled to the rotary shaft 60 connected to the rotary shaft 60 by the coupling 65 and the impeller 350 is rotated in the stage 30 by the rotary shaft 60, A cyanic seal 70 is disposed on the head portion 45 of the upper casing 40 so that leakage of the fluid by the mechanical seal 70 It is prevented.

The configuration and operation of the stage multi-stage pump 30 according to the present invention in the above-mentioned multi-stage pump will be described in detail with reference to FIG. 2 to FIG.

FIG. 2 is a perspective view illustrating a stage 30 for a multi-stage pump according to the present invention. FIG. 2 shows a cylindrical housing 310 and a diffuser 350 disposed inside the cylindrical housing 310.

FIG. 3 is a perspective view illustrating a stage 30 for a multi-stage pump according to the present invention. The stage 30 for a multi-stage pump according to the present invention includes a cylindrical housing 310 and a cylindrical housing 310 An impeller 330 and a diffuser 350. [

The cylindrical housing 310 has an upper circular plate 312 formed integrally with the upper end of the cylindrical portion 311 and a discharge hole 313 formed at the center of the upper circular plate 312.

4 is a sectional view showing a stage 30 for a multi-stage pump according to the present invention. The fluid sucked by the impeller 330 flows through the first flow path 334 of the impeller 330 and the second flow path 332 of the diffuser 350, And is discharged upward from the discharge hole 313 of the cylindrical housing 310 through the flow path 355. As shown in FIG. The vanes 333 of the impeller 330 and the first and second blades 352 and 354 of the diffuser 350 are not shown in Fig.

5 is an exploded perspective view showing the impeller 330. FIG. The impeller 330 has a plurality of vanes 333 disposed between the upper cover plate 331 and the lower circular plate 332. The upper cover plate 331 and the lower circular plate 332 and the vane 333 are integrally formed However, for convenience of explanation, the upper cover plate 331 is shown separately.

3 to 5, the impeller 330 is disposed at a lower portion of the diffuser 350 inside the cylindrical housing 310, and a plurality of vanes 330 are disposed between the upper cover plate 331 and the lower disk 332, A first flow path 334 (see FIG. 4) through which a fluid passes is formed between the upper cover plate 331 and the lower disk 332, and a boss 332 formed in the center of the upper cover plate 331, The rotary shaft 60 is fitted in the shaft hole 331b of the lower portion 331a so as to rotate relative to the diffuser 350 by the rotary shaft 60 and the curved guide portion 332a is formed around the lower circular plate 332 The lower original plate 332 is formed to be wider as the curved guide portion 332a than the upper cover plate 331 and the lower original plate 332 A hole 332b is formed.

5, the vane 333 is formed in a curved long band shape and radially arranged around the suction hole 332b of the lower disk 332 to the circumferential portion 332c of the lower disk 332 The upper end 333b abuts against the upper cover plate 331 and the upper end thereof is inclined obliquely with respect to the lower end so that the flow of the fluid is guided by the inclined surface 333c And the portion 333d contacting the curved guide portion 332a among all the portions contacting the lower original plate 332 is curved in the same shape as the curved guide portion 332a.

The curved shape of the vane 333 is either an involute curve, a cycloid curve, a spiral curve, or a helix curve.

4 and 6 and 7, the diffuser 350 is disposed at an upper corner of the cylindrical housing 310 and attached to the cylindrical portion 311 of the cylindrical housing 310 and the upper circular plate 312 Shaped curved guide plate 351 disposed to correspond to the curved guide portion 332a of the lower original plate 332 of the impeller 330 and a plurality of first guide blades 351 radially disposed on the curved guide plate 351, A support plate 353 disposed on the top of the upper cover plate 331 in correspondence with the upper cover plate 331 of the impeller 330 and a plurality of second guides 352 radially disposed on the support plate 353, And a second flow path 355 (see FIG. 4) is formed by the support plate 353, the curved guide plate 351, and the upper circular plate 312 of the cylindrical housing 310.

The first guide blade 352 is disposed obliquely to guide the second guide blade 354 without interfering with the flow of fluid induced by the vane 333 of the impeller 330 and the curved guide plate 351 So that the joining end has the same curved shape as the curved guide plate 351.

A plurality of the second guide blades 354 are radially disposed on the support plate, and curved curved shapes are formed on an involute curve, a cycloid curve, a spiral curve, or a helix curve curve).

4, when the impeller 330 is rotated by the rotary shaft 60, the fluid is sucked into the suction hole 332b by the suction force, The fluid sucked into the impeller 330 through the suction hole 332b is guided to the second flow path 355 of the diffuser 350 through the first flow path 334 and flows into the second flow path 355 of the diffuser 350 through the second flow path 355, Is discharged upward through the discharge hole (313) of the discharge port (310).

At this time, the curved guide portion 332a is formed in the lower circular plate 332 of the impeller 330 so that the entire fluid that has passed through the first flow path 334 is naturally guided upward by the curved guide portion 332a, The fluid is guided from the curved guide portion 332a to the curved guide plate 351 and the fluid is guided to the second flow path 351 by the curved guide plate 351, 355).

In this way, since the fluid is sprayed upward through the curved guide portion 332a, the pressure loss can be significantly reduced as compared with the case where the impeller is radially injected, and the fluid is guided by the curved guide plate 351 to the corner of the cylindrical housing 310 And the fluid is smoothly guided to the second flow path 355, the pressure loss can be reduced, and the pumping efficiency as a whole can be increased.

5, a plurality of vanes 333 are radially arranged in a curved shape, and in particular, in a process in which the upper end is inclined obliquely with respect to the lower end and the flow of fluid is induced by the inclined face 333c , The vertical thrust is generated by the inclined surface 333c, so that the pressure of the fluid passing through the impeller 330 is increased, and the flowability is improved.

7, the impeller 330 rotates counterclockwise so that the fluid is guided to the first guide blade 352 through the vane 333. At this time, the first guide blade 352 is arranged so as to be inclined counterclockwise, so that the fluid injected upward through the vane 333 can smoothly flow along the upper inclined surface 352a of the first guide blade 352, (354). Since the second guide blade 354 also has a curved shape convexly in the counterclockwise direction, the fluid that has passed through the first guide blade 352 is guided smoothly between the second guide blades 354, .

310: Cylindrical housing 330: Impeller
350: Diffuser

Claims (5)

A cylindrical housing 310 in which an upper circular plate 312 is integrally formed at the upper end of the cylindrical portion 311 and a discharge hole 313 is formed at the center of the upper circular plate 312,
A plurality of vanes 333 are disposed between the upper cover plate 331 and the lower disk 332 and the upper cover plate 331 and the lower cover 332 are disposed in the lower part of the diffuser 350 in the cylindrical housing 310, A first flow path 334 through which the fluid passes is formed between the disk 332 and the rotary shaft 60 is fitted in the shaft hole 331b of the boss portion 331a formed in the center of the upper cover plate 331, The curved guide portion 332a is formed around the lower original plate 332 so that the lower original plate 332 is formed into a round dish shape and the lower original plate An impeller 330 is formed which is wider than the upper cover plate 331 by a curved induction portion 332a and a suction hole 332b is formed at the center of the lower circular plate 332,
And is attached to the cylindrical portion 311 and the upper circular plate 312 of the cylindrical housing 310 and is attached to the curved guide portion 332a of the lower circular plate 332 of the impeller 330 A plurality of first guide blades 352 arranged radially in the curved guide plate 351 and a plurality of second guide blades 352 arranged in the radial direction correspond to the upper cover plate 331 of the impeller 330 And a plurality of second guide blades 354 radially disposed on the support plate 353. The support plate 353 and the curved guide plate 351 And a diffuser 350 in which a second flow path 355 is formed by the upper circular plate 312 of the cylindrical housing 310,
The curved guide plate 351 of the diffuser 350 is disposed so as to face the curved guide portion 332a formed around the lower original plate 332 of the impeller 330. The fluid that has passed through the first flow channel 334 is guided by the curved guide portion 332a, Is naturally guided to the curved guide plate (351) upwardly by the guide groove (332a), and the fluid is smoothly guided by the curved guide plate (351) to the second flow path (355).
The method according to claim 1,
The vane 333 is formed in a curved long band shape and disposed radially to the circumferential portion 332c of the lower circular plate 332 around the suction hole 332b of the lower circular plate 332 and has a lower end 333a, The upper end 333b is in contact with the upper cover plate 331 and the upper end is inclined obliquely with respect to the lower end so that the flow of the fluid is induced by the inclined face 333c and the lower circular plate 332 , The portion 333d contacting the curved guide portion 332a is curved in the same shape as the curved guide portion 332a.
3. The method of claim 2,
The curved shape of the vane 333 may be any one of an involute curve, a cycloid curve, a spiral curve, and a helix curve. For stage.
The method according to claim 1,
The first guide blade 352 is disposed obliquely to guide the second guide blade 354 without interfering with the flow of fluid induced by the vane 333 of the impeller 330 and the curved guide plate 351 Wherein the joining end has the same curved shape as that of the curved guide plate 351 so as to be attached to the stage.
The method according to claim 1,
A plurality of the second guide blades 354 are radially disposed on the support plate, and curved curved shapes are formed on an involute curve, a cycloid curve, a spiral curve, or a helix curve wherein the stage is a curved one of the curves.

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