KR200216272Y1 - multi-stage, high-pressure water pump of a centrifugal type - Google Patents

Abstract

The present invention can improve the performance of the pump by greatly reducing the flow loss to the hydraulic loss, it provides a centrifugal multi-stage high pressure water supply pump that can be greatly miniaturized with the same performance and the manufacturing cost can be low.

The centrifugal multistage high pressure water supply pump is provided with at least two stages of impellers 21 so as to rotate together on the rotating shaft 12 of the motor portion 11, and an upstream side of the upstream impellers 21 of the impellers 21. In the inlet 13 is fixed to the inlet casing 30 is formed in the center, the pumping guide member 25 and the sealing plate to guide the high pressure water discharged to the outer periphery of the upstream impeller 21 downstream 23 is fixedly installed between the upstream side impeller 21 and the downstream side impeller 21, and the pumping guide member to guide and discharge the high pressure water discharged to the outer periphery of the downstream side impeller 21 downstream ( A discharge port casing 40 having a discharge port 14 at its periphery 25 is provided to be fixed downstream of its downstream impeller 21, and the impeller 21 has a plurality of centrifugal plates in the front and rear plates thereof. It is fixed with the impeller blades in between, the inlet is formed at the center of the front plate, and the rear plate is rotated. In at least two or more stages of centrifugal multistage high-pressure water supply pumps installed to rotate together with (12), the pumping guide member 25 includes: an outer circumferential flange 25a that surrounds the outer circumference of the impeller 21 at regular intervals; The through hole 25e for guiding the high pressure water discharged outward from the impeller 21 to the rear (downstream direction) is formed, is in airtight contact with the impeller 21 on one surface, and with respect to the rotary shaft 12. The disk 25b in the outer circumferential flange 25a in which the sliding hole 25c is formed in the center so as to have a sliding rotational relationship, and the high pressure water formed on the other surface of the disk 25b and passed through the through hole 25e. It is characterized by consisting of a guide blade (25d) for guiding in the center direction between the sealing plate 23 and the discharge port casing (40).

Description

Multi-stage, high-pressure water pump of a centrifugal type

The present invention relates to a centrifugal multistage high pressure water supply pump, and more particularly, it is possible to greatly improve the performance of the pump by greatly reducing the flow loss or the hydraulic loss, the same performance can be greatly miniaturized and manufacturing cost is low The present invention relates to a centrifugal multistage high pressure water pump.

In the conventional well-known centrifugal multistage high pressure water pump, at least two stages of an impeller are installed so as to rotate together on a rotating shaft, and an inlet casing having a suction port in the center of the upstream side of the impeller of the two stages of the two stages is fixed. And a pumping guide member and a sealing plate are fixedly installed between the upstream side impeller and the downstream side impeller so as to guide the high pressure water discharged to the outer periphery of the upstream impeller, and the high pressure discharged to the outer periphery of the downstream impeller. A discharge port casing having a pumping guide member and a discharge port on the outer circumference is fixedly installed downstream of the downstream impeller to guide and discharge the water downstream, wherein the impeller has a plurality of centrifugal impeller blades in its front and rear plates. It is fixed in between, the suction flange and the suction port is formed in the center of the front plate, the rear plate is installed so as to rotate together on the rotating shaft. A guide vane is formed radially outward to guide the high pressure water discharged from the circumference of the impeller, and the high pressure water guided along the guide blade flows backward through the through hole, and the high pressure water induced backward is again It is guided to the center along the guide vane and flows into the suction port of the impeller at the rear end, thereby enabling efficient multistage pumping.

The conventional pumping guide member and the installation structure of the impeller, as shown in Figures 1 and 2, is composed of a structure in which the impeller 21 is inserted into the front surface of the pumping guide member 25. That is, in FIG. 2 and FIG. 3, the impeller 21 is inserted into the inner circumference of the guide vane 25 ′ of the front face formed on the front circumference of the disk 25 b of the pumping guide member 25. In addition, the pumping guide member 25 has an outer circumferential flange 25a formed on the outer circumference of the guide vane 25 'so that the pumping guide member 25 is hermetically sealed to each other by the fixing bolt 17 as shown in FIG. 30 and the discharge port casing 40 is fixedly assembled.

The centrifugal multistage high pressure water supply pump 10 assembled as described above is fixed to an installation position via a pedestal 50 and is connected to a rotating means such as a motor through a connecting flange 12 so that the rotary shaft 11 is connected. By rotating together with the impeller 21, water is supplied from the suction port 13 to the discharge port 14 at high pressure.

This conventional pumping guide member 25, as shown in Figs. 2 and 3, the front surface of the disk 25b, the guide blade 25 'is formed on the outer periphery, the impeller 21 is installed in the inner center Since the guide blade 25d is formed at the rear surface of the disk 25b so that the high pressure water guided through the through hole 25e is guided to the center, multi-stage pumping is possible, but the guide blade 25 'of the outer periphery of the impeller 21 is provided. In addition to increasing the outer diameter of the pump by twice the width w), the performance of the pump is deteriorated due to the flow resistance due to the induction of high pressure water while passing through the guide vane 25 'and the like.

Therefore, the present invention is to solve this problem, it is possible to improve the performance of the pump by greatly reducing the flow loss or hydraulic loss, centrifugal type that can be greatly miniaturized with the same performance and the manufacturing cost can be low The purpose is to provide a multistage high pressure water pump.

1 is a perspective view of a conventional centrifugal multistage high pressure water pump;

Figure 2 is a longitudinal cross-sectional view of Figure 1 shown by rotating the inlet upwards,

3 is a left side view of the pumping guide member of FIG. 2;

Figure 4 is a cross-sectional view similar to Figure 2 of the centrifugal multistage high pressure water pump in accordance with an embodiment of the present invention,

FIG. 5 is a left side view similar to FIG. 3 of the pumping guide member of FIG. 4; FIG.

6 is a right side view of the pumping guide member of FIG.

<Description of the symbols for the main parts of the drawings>

10: centrifugal multistage high pressure water pump 11: rotating shaft

12: Connecting flange 13: Inlet

14: discharge port 21: impeller

23: sealing plate 25: pumping guide member

25a: Outer flange 25b: Disc

25c: sliding ball 25d: guide vane

25e: through hole 30: inlet casing

40: discharge port casing 50: stand

In order to achieve this object, the centrifugal multistage high pressure water supply pump according to an embodiment of the present invention has at least two or more stages of impellers installed on the rotating shaft of the motor unit, and an inlet of the upstream side of the impellers. The inlet casing formed in the center is fixedly installed, and the pumping guide member and the sealing plate are fixedly installed between the upstream impeller and the downstream impeller so as to guide the high pressure water discharged to the outer periphery of the upstream impeller downstream. A discharge port casing having a pumping guide member and a discharge port on the outer periphery is fixedly installed downstream of the downstream impeller so as to guide and discharge the high pressure water discharged to the outer periphery of the downstream impeller, and the impeller has its front and rear plates. In the middle, a plurality of centrifugal impeller blades are fixed therebetween, a suction port is formed in the center of the front plate, and the rear plate rotates. In the at least two-stage centrifugal multistage high pressure water supply pump installed to rotate together with the pump: The pumping guide member, the outer circumference flange surrounding the outer circumference of the impeller at regular intervals, and the high pressure water discharged from the impeller to the outer circumference A through hole for guiding in the downstream direction is formed, the disc is in airtight contact with the impeller on one side, and a disc in the outer circumferential flange having a sliding hole formed at the center so as to have a sliding rotational relationship with respect to the rotation axis, and the other side of the disc And a guide vane for guiding the high pressure water passing through the through hole toward the center between the sealing plate and the discharge port casing.

In this case, the induction groove connected to the through hole in front of the through hole is further formed on one surface of the disk so that the high pressure water discharged in the circumferential direction from the impeller to the through hole can be induced more easily while reducing the fluid resistance. desirable.

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

4 is a cross-sectional view similar to FIG. 2 of the centrifugal multistage high pressure water pump according to an embodiment of the present invention is shown by rotating the inlet 13 upward, and FIG. 5 is similar to FIG. 3 of the pumping guide member of FIG. The left side view and FIG. 6 show the right side view of the pumping guide member of FIG. 4.

In FIG. 4, the centrifugal multistage high pressure water pump 10 according to an embodiment of the present invention includes a connection flange 12, a rotating shaft 11, and an impeller 21 as in the related art, and a pedestal 50. It is fixed to the installation position via the.

On the rotary shaft 12, the impeller 21, the pumping guide member 25 and the sealing plate 23 are installed in multiple stages between the inlet casing 30 and the outlet casing 40.

The pumping guide member 25 according to the present invention, as shown in Figures 4 to 6, comprises a peripheral flange 25a, a disk 25b and a guide vane 25d. The outer circumferential flange 25a is configured to surround the outer circumference of the impeller 21 with a flow gap of some water, and the disk 25b forms the inner surface of the outer circumferential flange 25a, and the impeller ( A through hole 25e for guiding the high pressure water discharged to the outer circumference 21 from the rear side (downstream direction) is formed. Further, the guide groove 25f is formed in the circumferential front (upstream side) of the through hole 25e to guide the high pressure water discharged circumferentially from the impeller 21 to the circumferential direction as shown in FIGS. 4 and 5. It is more preferable that the through hole 25e can be guided to the through hole 25e while reducing the fluid resistance more easily.

The disk 25b is provided with a sliding hole 25c at the center so as to have a sliding rotational relationship in a hermetic manner at the outer periphery on the rotary shaft 11 or the rotary bushing. The guide vane 25d is formed on the other surface of the disk 25b so as to guide the high pressure water having passed through the through hole 25e toward the center between the sealing plate 23 and the discharge port casing 40. .

Since the pumping guide member 25 is configured as described above, unlike the conventional pumping guide member 25 shown in FIGS. 2 and 3, the circumferential diameter is 2 of the width W because the pump guide guide member 25 is not formed. Much smaller than the prior art can be configured to be compact, thereby requiring less manufacturing cost and installation space. In addition, since it is not guided along the guide vane 25 'on the front side, the pressure loss or flow resistance due to the guide vane 25' on the front side is reduced. In addition, in the present invention, when the induction groove 25f is formed, the performance of the pump is greatly improved with respect to the size of the same impeller 21, and the performance of the pump can be compactly configured.

In other words, when the impeller 21 has the same diameter as in the related art, the outer diameter of the pumping guide member 25 is largely reduced, so that the impeller 21 is compactly configured as a pump having the same performance and can be installed while occupying only a narrow space.

The water sucked through the suction port 13 is pumped radially outward by the first stage impeller 21, and is led to the rear of the disk 25b through the guide groove 25f and the through hole 25e. In the rear, guided to the center along the guide vane 25d is again sucked into the inlet of the two-stage impeller 21, pumped in the same way, after being pumped in multiple stages, the high pressure water is discharged through the discharge port 14 It can discharge.

In the centrifugal multistage high pressure water supply pump 10 having such a structure, as described above, water pumped from the impeller 21 is led to the through hole 25e along the guide groove 25f, and the rear guide vane 25d is provided. Since it is guided to the side, since it is not guided from the front as in the prior art, the flow loss or resistance is extremely reduced and the pump performance is improved.

According to the configuration and action of the centrifugal multistage high pressure water supply pump 10 according to the embodiment of the present invention described above, by removing the front guide vane of the pumping guide member 25 to form guide grooves and through holes flow loss to hydraulic pressure It is possible to improve the performance of the pump by greatly reducing the loss, and the same performance has the effect of not only making the manufacturing cost cheap, but also miniaturizing it considerably.

Claims (2)

At least two stages of the impeller 21 are provided so as to rotate together on the rotation shaft 12 of the motor portion 11, and the inlet 13 is located at the upstream side of the upstream impeller 21 of the impeller 21. The inlet casing 30 formed is fixedly installed, and the pumping guide member 25 and the sealing plate 23 are configured to guide the high pressure water discharged to the outer periphery of the upstream impeller 21 downstream thereof. And the pumping guide member 25 and the discharge port 14 on the outer circumference to guide and discharge the high pressure water discharged to the outer circumference of the downstream impeller 21 to be discharged. A discharge port casing 40 having a bottom portion is installed to be fixed downstream of the downstream impeller 21, and the impeller 21 is fixed with a plurality of centrifugal impeller blades interposed between the front plate and the rear plate. Inlet is formed in the center of the front plate, the rear plate is installed to rotate together with the rotating shaft 12 For at least two stage centrifugal multistage high pressure water pumps: The pumping guide member 25 includes an outer circumferential flange 25a which surrounds the outer circumference of the impeller 21 at regular intervals, and guides the high pressure water discharged from the impeller 21 to the circumference rearward (downstream direction). Through holes 25e for forming are formed, and in contact with the impeller 21 in one airtight, the sliding hole 25c is formed in the outer circumferential flange 25a to have a sliding rotational relationship with respect to the rotating shaft 12 A guide vane formed on the disk 25b and the other surface of the disk 25b to guide the high pressure water passing through the through hole 25e toward the center between the sealing plate 23 and the discharge port casing 40. A centrifugal multistage high pressure water supply pump, comprising: 25d. The through-hole in front of the through-hole 25e according to claim 1, wherein the high-pressure water discharged from the impeller 21 in the circumferential direction to the circumferential direction can be guided to the through-hole 25e more easily while reducing the fluid resistance. Centrifugal multistage high pressure water supply pump, characterized in that the induction groove (25f) connected to the (25e) is formed on one surface of the disk (25b).