KR200331914Y1 - a multi-stage Centrifugal Pump - Google Patents

Abstract

The present invention relates to a multi-stage centrifugal pump, and an object of the present invention is to provide a multi-stage centrifugal pump that enables the simplification and compactness of components by integrally improving the structure of the body and the base of the casing.

To this end, the multi-stage centrifugal pump according to the present invention, the body portion 28 and the base portion 23 of the case 20 forming the appearance is integrally formed, the body portion 28 is a high pressure, the base portion 23 In order to maintain and pump the low pressure therein, a stage 30 having an impeller 32 in the body portion 28 is placed therein and a predetermined space S formed therein and a storage space formed for smooth pumping in the base portion 23. It is characterized in that the sealing support tube 26 for sealing the (AS) is provided in the base portion 23.

Therefore, according to the present invention, production cost reduction effects such as component cost reduction and assembly process time can be obtained, thereby enabling the production of a competitive multistage centrifugal pump.

Description

Multi-stage Centrifugal Pump

The present invention relates to a multi-stage centrifugal pump, and more particularly, to a multi-stage centrifugal pump having improved production efficiency by improving a separate case divided into a body and a base, and which can be easily assembled.

In general, multi-stage centrifugal pumps that are widely used in industries such as drainage, water supply and drainage, mining, and chemical industry use liquid pressure by using centrifugal force generated by impellers connected and rotated to the drive shaft of an electric motor. It is a type of pump that is equipped with a plurality of impeller stages (stage) to move, but to move the liquid requiring high head. On the other hand, as shown in Figs. 1 and 2, the case 1 constituting the exterior thereof has a body 5 in which a plurality of stages 7 with impellers 6 are built, and supports the body 5. And it is coupled to the body (5) consists of a base (2) formed with an inlet (3) and discharge port (4) for introducing or discharging fluid to the outside. These are separate and assembled after each casting.

However, since it is a separate type, if organic supply of each part is not desired, product completion will be hindered, and the volume of the base is large, taking up a lot of installation space, and it is difficult to manufacture precision compacts. Therefore, the multi-stage centrifugal pump with a conventional detachable case due to the increase in labor cost, parts cost, etc., is inferior in competitiveness by leading the high cost of the finished product.

The present invention is to solve this problem, by improving the structure to be composed of the case consisting of the body and the separate type of the body integrally, it is possible to manufacture a compact pump by uniting parts and reducing the volume of the parts, this The purpose of the present invention is to provide a multi-stage centrifugal pump that can be installed in a narrow space and has more efficiency and economy in manufacturing.

1 is a perspective view showing a multi-stage centrifugal pump having a conventional detachable case.

2 is a cross-sectional view of a conventional multistage centrifugal pump with a separate case.

3 is a perspective view showing a multi-stage centrifugal pump according to the present invention.

Figure 4 is an exploded perspective view of a multistage centrifugal pump according to the present invention.

5 is a cross-sectional view of the case according to the present invention.

6 is a cross-sectional view of a multistage centrifugal pump according to the present invention.

*** Explanation of symbols for main parts of drawing ***

20: case 22: inlet

23: base portion 24: discharge port

26: sealed support body 26a: distribution port

26b: flange 26c, 26d: sealing surface

27: sealing ring 28: body

30: stage 32: impeller

The present invention devised to achieve the above object is, the drive motor is mounted on the top, and a common case formed with an inlet and outlet for communicating fluid; In the multi-stage centrifugal pump having an impeller mounted inside the case, and rotates in accordance with the rotation of the drive motor to pump the fluid, the case, the discharge port is formed on the side, the stage inside the internal impeller Is multi-stage arranged in the center and the body portion is formed with a constant separation space, the upper and lower ends are integrally extended to the lower portion of the body portion, and the fluid flowing through the inlet formed on the side temporarily stored inside The base portion and the base portion is formed to support the stage in the storage space of the base portion, wherein the body portion and the base portion in one side so as to maintain the pressure difference by varying the layer and sealed to one side spaced apart space and Seal the water storage space of the base portion, the other side is sealed the open lower portion of the base portion It characterized in that it comprises a closed support tube.

In addition, the hermetic support tube body supports the stage while the central portion is perforated, and a side surface is provided to seal a flange contacting the inner circumference of the base portion, an upper surface of the lower portion of the stage, and an open lower portion of the base portion. A plurality of floor plates are provided between them to integrally connect the edges of the flange and the bottom plate, and are characterized by consisting of struts forming a distribution port between mutually neighboring ones.

In addition, the flange is characterized in that the sealing ring is mounted on the side.

Hereinafter, the multi-stage centrifugal pump having an integrated case according to the present invention will be described according to the embodiment shown in the accompanying drawings.

First, referring to FIGS. 3 to 6, the structure of the multistage centrifugal pump will be described. By rotating the plurality of impellers 32 in the sealed case 20 so that the pressure difference is maintained, pumping is performed using the centrifugal force generated accordingly. The multi-stage centrifugal pump includes a drive motor 10 having a rotating shaft 12 coupled to a lower portion of the drive motor 10, and a case 20 having inlets 22 and outlets 24 formed on both sides thereof. And an impeller 32 installed inside the case 20 and mounted on the rotation shaft 12 to rotate in accordance with the rotation of the rotation shaft 12 to generate centrifugal force. It consists of a plurality of stages 30, which are internally placed.

The driving motor 10 electrically drives the rotating shaft 12, and when the impeller shaft 14 connected to the rotating shaft 12 by a coupling (not shown) rotates, the impeller 32 mounted thereto rotates. It causes a pressure difference inside. On the other hand, it is disposed between the drive motor 10 and the case 20 is mounted downward on the upper end of the coupling case 16 for supporting the drive motor 10. In the coupling case 16, a coupling for connecting the pivot shaft 12 and the impeller shaft 14 is placed therein.

Meanwhile, as shown in FIGS. 5 and 6, the upper part is coupled to the coupling case 16, and the lower part supports the load of the pump and is coupled to the bed 29 for fixing to the installation surface. ) Is formed in a single body, the upper end of the cylindrical shape is open, the upper body portion 28 is in contact with the coupling case 16 is closed and the base portion extending from the body portion 28 and forms a lower portion (23) and an airtight support tube (26) sealing the lower portion of the base (23) opened in the base (23). The discharge port 24 is formed in the side surface of the trunk | drum 28, and the inlet port 22 is formed in the side surface of the base part 23, respectively.

The upper part of the body part 28 is closed and the upper part is closed, and the discharge pipe body 25 for smooth communication of the fluid pumped through the upper stage 30 is provided to communicate with the discharge port 24 of the case 20. . The upper end of the uppermost stage 30 of the plurality of stages 30 to be described later is coupled to the lower end of the discharge tube 25. On the other hand, the stage 30 is arranged in the center in multiple stages are arranged to form the inner periphery of the body portion 28 and a predetermined space (S).

The base portion 23 extends integrally with the upper and lower ends open to the lower portion of the body portion 28, and there is a storage space (RS) for temporarily storing the fluid flowing through the inlet formed in the side Formed,

One side is in the storage space (RS) in the base portion 23, the other side of the airtight support tube 26 is disposed on the bed 29, the central portion is through the stage 30, the side is supported An inner circumference of the base portion 23 and an upper surface thereof include a flange 26b contacting the lower outer circumference of the stage 30, a bottom plate 26f provided to seal an open lower portion of the base portion 23, and the bottom thereof. It is provided with a plurality of predetermined lengths along the edge of the plate 26f, and forms a distribution port and consists of a support, which integrally connects the flange and the bottom plate.

The body 28 and the base 23 have different layers to maintain the pressure difference, and the flange 26b is spaced apart from the space S of the body 28 and the storage space of the base 23. RS is sealed and the open lower part of the base part 23 is sealed by the bottom plate 26f.

Referring to FIG. 6, when the configuration of the hermetic support body 26 is more permanently supported, the stage 30 of the multi-stage is supported, and a collecting space AS for storing the temporary fluid is an inlet 22 of the base 23. It is provided inside to communicate with). The cylindrical shape is provided with a flange (26b) having a sealing surface (26c, 26d) in the upper portion, the support (26e) corresponding to the lower end of the stage 30 is formed in the flange (26b) forming an inner circumference The lower end of the lowermost stage 30 is inserted while being caught outside the support 26e. The stage 30 of the multi-stage is thus communicated with and supported by the collecting space A.S. Each flow port 26a formed between a plurality of neighboring struts 26g connecting the flange 26b and the bottom plate 26f has an inlet 21 and a case (inside) as shown in FIG. Communication with the inlet 22 of 20 is made possible in any direction.

Meanwhile, the sealing surfaces 26c and 26d formed on the flange 26b so that the body portion 28 and the base portion 23 of the case 20 are integrally formed, as shown in FIG. 6, are integrally formed. It is formed in order to prevent an error due to pressure loss by making one side end portions of the body portion 28 and the base portion 23 formed in communication with each other, which is the outer periphery of the stage 30 and the inner periphery of the case 20. The upper and lower spaces 26d for sealing up and down the predetermined spaced space S and the storage space RS spaced apart from each other, and the outer circumferential surface 26c sealing in close contact with the inner circumference of the base part. On the other hand, the outer circumferential surface is formed with a groove 26c-1 for inserting the sealing ring 27 to more fully seal. The discharge port 24 is formed on the upper side, and the inlet port 22 is formed on the lower side on the basis of the sealed surfaces 26c and 26d, respectively, and the high pressure liquid is above the sealed part 26c and 26d, and the low pressure is below. Of the liquid is maintained without forming a pressure loss, the high pressure liquid is maintained through the discharge port 24, the low pressure liquid is maintained at a constant pressure through the inlet port 22, and the discharge and inlet are efficiently performed.

On the other hand, the cylindrical stage 30, which is provided inside the body portion 28 and the outer peripheral surface is sealed, and the impeller 32 is built therein, as shown in FIG. 6, the diameter of the body portion 20 It is configured to be smaller than the inner diameter to form the outer periphery and a certain space (S) of the body portion 28 is disposed in the center. In order to increase the pressure of the liquid, the pump 30 has a higher lift, and a plurality of stages 30 are vertically stacked and stacked in multiple stages. Each stage 30 has a guide feather 34 provided to lead the flow of liquid and A corresponding outflow hole 35 is formed, and the impeller shaft 14 coupled to the rotation shaft 12 mounts each impeller 32 and penetrates from the upper end to the lower end of the multi-stage stage 30. A through hole 36 is formed, and an inlet hole 37 for inflow of liquid is formed at the bottom thereof, and the function of the through hole 36 is also performed at the same time.

Referring to the operation and effects of the multi-stage centrifugal pump according to the present invention configured as described above are as follows.

As shown in FIGS. 5 and 6, the low pressure liquid collected into the collection space 21 inside the hermetic support tube 26 through the inlet 22 formed in the base 23 is a multi-stage stage 30. It passes through the pressure rising to the high pressure liquid, and discharges the high pressure liquid through the discharge port 24 formed in the body portion 20, which is rotated by the drive motor 10 mounted on the upper body portion 20 Due to the centrifugal force generated by the impeller 32, vacuum and atmospheric pressure act on the center of the impeller 32, and the low pressure liquid flows inward, outward, and toward the center of the impeller 32. The low pressure liquid flowing in this way passes through the stage 30 of each stage through the center of each impeller 32, and is discharged under pressure as high pressure liquid. In this case, the sealing surfaces 26c and 26d provided on the flange 26b of the sealed support tube 26 to maintain high-efficiency pumping without pressure loss are spaced apart spaces S formed in the trunk portion 20 and the base portion 20. ) And the water storage space (RS) tightly sealed up, down, left, and right so that the high pressure liquid passing through the stage 30 of the multi-stage is maintained at a constant pressure without losing pressure and discharged to the discharge port 24.

Therefore, the body portion and the base portion of the case 20 are integrally formed while the efficiency of the pump is kept constant.

As described above, according to the present invention by improving the structure so that the case consisting of a separate type of the body and the base to be integrally formed, it is possible to manufacture a compact pump by uniting parts and reducing the volume of parts, thereby It can be installed even in a small space, and the production efficiency of assembly and the cost of parts are more excellent. Therefore, it is possible to produce a competitive multi-stage centrifugal pump.

Claims (3)

A drive case 10 mounted at an upper portion thereof, the case 20 having an inlet 22 and an outlet 24 for communicating the pumped fluid; In the case 20, the multi-stage centrifugal pump having an impeller 32, which rotates in accordance with the rotation of the drive motor 10, pumping the fluid; The case 20, The discharge port 24 is formed on the side, and the inside of the body portion 28 is formed in the center in a multi-stage stage (30) to the internal impeller 32 is formed, and a constant separation space (S), The base portion is formed in the lower portion of the body portion 28, the upper portion and the lower portion is integrally extended and the reservoir portion (RS) is formed therein to temporarily store the fluid flowing through the inlet 22 formed on the side With 23, The stage 30 is disposed while supporting the stage 30 in the storage space RS of the base portion 23, so that the body portion 28 and the base portion 23 are sealed while maintaining a pressure difference by varying layers. One side seals the space S of the body portion 28 and the storage space RS of the base portion 23, and the other side seals the open lower portion of the base portion 23. Multi-stage centrifugal pump comprising a support tube (26). The method of claim 1, The sealed support tube 26, The central portion is supported through the stage 30, the side is the inner circumference of the base portion 23, the upper surface is in contact with the lower outer circumference of the stage 30, and A bottom plate 26f provided to seal the open lower portion of the base portion 23; A plurality of pillars are provided between them to integrally connect the edges of the flange 26b and the bottom plate 26f, and are formed of struts 26g that form a distribution port 26a between neighboring ones. Multistage centrifugal pump. The method of claim 2, Multi-stage centrifugal pump, characterized in that the sealing ring 27 is mounted on the side of the flange (26b).