KR100765474B1 - Revolution shaft support structure of multistage centrifugal pump type underwater - Google Patents

Abstract

The present invention is to ensure that the impeller is installed in multiple stages to securely and firmly hold the bearing surrounding the pump shaft of the pump to suck and discharge the fluid while rotating at high speed, so that the center of the pump shaft, as well as to prevent vibration and noise The pump shaft support structure of the submerged multi-stage centrifugal pump,

The configuration of the pump body 20 is installed in the lower part of the motor 10, the motor shaft 11 and the pump shaft 22 is installed in the pump body connected via a coupling 12, the pump The shaft 30 is provided with a casing 30 having an impeller 31 and a guide feather body 35 fixed thereto via a bearing 32, and a suction chamber 50 is installed at a lower portion of the casing, and a lower portion of the suction chamber. At the end of the pump shaft, a fluid suction body 40 having a filter 41 installed therein is fixedly installed via a bearing 42, and a casing, suction chamber, and fluid suction body installed at the pump shaft are connected to the band 23. In the submerged multistage centrifugal pump integrated

A bushing seating portion 45 is formed around a through hole formed in the center of the fluid suction body 40, and a bushing 44 which receives a bearing and slides with the bearing is seated in the bushing seating portion to fix the member 46. And a bushing 34 receiving the bearing and sliding with the bearing is installed in the through hole fixed through the center of the guide feather body 35 installed in the casing and fixedly installed through the bearing. The upper portion of the casing consists of a support means 60 for supporting the lower portion of the impeller installed in the casing.

Multistage centrifugal pump, pump shaft impeller, casing, bushing

Description

Revolution shaft support structure of multistage centrifugal pump type underwater}

1 is an exploded perspective view illustrating a conventional submerged multistage centrifugal pump structure;

Figure 2 is an exploded perspective view showing the pump shaft support structure of the submerged multi-stage centrifugal pump according to the present invention,

Figure 3 is an exploded perspective view showing the casing support means in the pump shaft support structure of the submerged multi-stage centrifugal pump according to the present invention,

Figure 4 is an exploded perspective view showing the installation structure of the bushing installed in the fluid suction body in the pump shaft support structure of the submerged multi-stage centrifugal pump according to the present invention,

Figure 5 is a cross-sectional view showing a pump shaft support structure of the submerged multi-stage centrifugal pump according to the present invention.

* Description of the symbols for the main parts of the drawings *

10 motor 11 motor shaft

20: pump body 21: discharge port

22: pump shaft 23: band

30: casing 31: impeller

32,42: bearing 33: spacing rod

34,44 bushing 40: fluid suction

41: filter 43: nut

45: bushing seat 46: fixing member

47: fluid suction hole 50: suction chamber

60: support means 61: impeller seal seating plate

62 impeller seal 63 impeller seal protective cover

The present invention relates to a pump shaft support structure of the submerged multi-stage centrifugal pump, and more particularly, to securely and firmly hold a bearing surrounding the pump shaft of the pump to suck and discharge fluid while the impeller is installed in multiple stages and rotates at high speed. The present invention relates to a pump shaft support structure of an immersion type multi-stage centrifugal pump that is capable of centering the pump shaft as well as preventing vibration and noise.

Immersion type multi-stage centrifugal pump is a device for sucking the fluid by the high-speed rotation of the impeller installed in the pump shaft in multiple stages and discharged to the discharge port, looking at its configuration as follows.

1 shows a conventional submerged multistage centrifugal pump, in which a motor 10 is provided at an upper portion thereof, and a pump body 20 having a discharge port 21 formed at one side thereof is installed at a lower portion of the motor 10. The motor shaft 11 of the 10 is connected to the pump shaft 22 and the coupling 12 via a medium, and the casing 30 in which the impeller 31 is installed is installed in multiple stages on the connected pump shaft 22. In addition, a guide collar main body 35 in which an arc-shaped fluid guide collar 35b is installed on a fixed plate 35a is installed at an upper portion of the inner impeller 31 of the casing 30, and an end of the pump shaft 22 is disposed therein. The fluid suction body 40 provided with the filter 41 is fixedly installed.

In addition, the casing 30 and the fluid suction body 40 installed in multiple stages on the pump shaft 22 are firmly and securely fixed to the pump body 20 via the band 23 in four directions. In addition, the guide shaft main body 35 and the fluid suction body 40 of the casing 30 is installed as described above, the pump shaft 22 is installed through the center of the pump shaft 22 and the casing through the center of the casing 30 Between the guide vane body 35 and the fluid suction body 40 of (30) is provided via the respective bearings (32, 42).

In addition, the gap between the casing 30 and the casing 30 in which the guide blade main body 35 of the fluid suction body 40 and the casing 30 and the guide blade main body 35 are installed, and the impeller 31 and the guide feather The interval between the main body 35 is fixed to be maintained at a constant interval by the gap retaining rod 33, the pump shaft 22 is a radial projection protruding along the longitudinal direction, the pump shaft 22 protruding the projection In the center through-hole of the guide body main body 35 of the fluid suction body 40 and the casing 30 through which the projection penetrates, a projection groove into which the projection of the pump shaft 22 is fitted is radially formed. In addition, a suction chamber 50 is installed between the casing 30 and the fluid suction body 40 positioned at the lowermost portion.

The conventional submerged multistage centrifugal pump having the above configuration has a bearing 32, 42 in a through hole formed in the center of the guide blade body 35 and the fluid suction body 40 of the casing 30 through which the pump shaft 22 passes. Since it is installed only through the medium of the pump shaft 22, the support force of the pump shaft 22 is difficult to center the pump shaft 22, so that the flow of the impeller 31, that is, the casing 30, which is rotated at high speed, generates noise. This occurred, as well as the problem that the suction force of the fluid moving along the guide feather (35b) formed in the guide feather body 35 is reduced.

In addition, if the center of the pump shaft 22 is not aligned, the impeller 31 installed thereon at high speed may vibrate to cause resonance, and thus, the noise caused by fluid flow noise and vibration may occur, as well as, As a result, there is a problem that the life of the pump is shortened.

The present invention has been made to solve the above problems, the object is that the bushing seating portion is formed in the periphery of the through-hole formed in the center of the fluid suction body in which the pump shaft is installed through the bushing seating portion bearing The bearing and sliding bushing is seated and fixed by the fixing member, so that the pump shaft rotated at high speed, as well as the impeller installed and rotated at the pump shaft, does not cause resonance by vibration, thereby reducing noise and absorbing it. The first purpose is to improve the power and at the same time extend the life of the pump, and secondly, the bearing is accommodated in the through-hole which is installed through the center of the guide feather body of the casing and is fixedly installed through the bearing. While installing a bushing that is over-sliding, the lower part of the casing located on the upper part of the casing is supported. By installing the support means, the pump shaft rotated at high speed, as well as the casing installed with the impeller and the guide collar body rotated at the pump shaft, does not cause resonance, thereby reducing noise and improving wicking power, and at the same time, improving pump life. Is to extend.

The pump shaft support structure of the submerged multistage centrifugal pump according to the present invention for achieving the above object, the pump body 20 is installed in the lower portion of the motor 10 and the motor shaft 11 and the inside of the pump body; A pump shaft 22 is installed to be connected via a coupling 12, and a casing 30 in which an impeller 31 and a guide feather body are installed is fixed to the pump shaft via a bearing 32. A suction chamber 50 is installed at a lower portion of the suction chamber, and a fluid suction body 40 having a filter 41 therein is fixedly installed through a bearing 42 at an end of the lower pump shaft of the suction chamber. In the submerged multi-stage centrifugal pump in which the casing, the suction chamber, and the fluid suction body are installed in a band 23,

A bushing seating portion 45 is formed around a through hole formed in the center of the fluid suction body 40, and a bushing 44 which receives a bearing and slides with the bearing is seated in the bushing seating portion to fix the member 46. And a bushing 34 receiving the bearing and sliding with the bearing is installed in the through hole fixed through the center of the guide feather body 35 installed in the casing and fixedly installed through the bearing. The upper portion of the casing consists of supporting means 60 for supporting the lower portion of the impeller.

And, the material of the bushing is made of any one material of ceramic or Teflon, the support means 60 is installed on the upper portion of the casing to support the lower portion of the impeller, the impeller seal seating plate is fixed to the upper surface of the casing (61), an impeller seal 62 fixed to the upper surface of the impeller seal seating plate, and an impeller seal protective cover 63 installed on the impeller seal to fix the impeller seal.

In addition, the material of the impeller seal installed between the impeller seal seating plate and the impeller seal protective cover is made of any one material of ceramic or Teflon, the fixing member for fixing the bushing seated on the bushing seating portion, screw Bolts.

The pump shaft support structure of the submerged multistage centrifugal pump according to the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

Figure 2 is an exploded perspective view showing a pump shaft support structure of the submerged multi-stage centrifugal pump according to the present invention, the pump body 20 is installed in the lower portion of the motor 10, the motor shaft ( 11) and the pump shaft 22 is installed via the coupling 12, the coupling 12 for connecting and installing the motor shaft 11 and the pump shaft 22 is the inside of the pump body (20) Preferably located at. In addition, between the lower portion of the motor 10 and the upper portion of the pump body 20 by using a fixing bolt fixed installation can be disassembled as necessary.

When the pump shaft 22 is connected and installed to the motor shaft 11 as described above, an impeller 31 and a guide plate 35b having an arc-shaped fluid guide feather 35b are installed on the fixed shaft 35a. The casing 30 in which the collar body 35 is installed is installed in multiple stages, and the casing 30 in which the impeller 31 and the guide collar body 35 are installed in the multiple stages is formed with a through hole in the center thereof. 22 is installed through.

At this time, the impeller 31 and the guide feather body 35 are not built in the casing 30 positioned at the top of the pump shaft 22. In addition, a bearing 32 is installed on the pump shaft 22 positioned at the through hole of the casing 30 in which the impeller 31 and the guide feather body 35 located at the bottom of the pump shaft 22 are installed. The outside of the bearing 32 is the bushing 34 is tightly coupled and the sliding between the bearing 32 and the bushing 34 is made.

The reason why the bushing 34 is tightly coupled to the outside of the bearing 32 is to secure the center of the pump shaft 22 which is rotated at a high speed by catching the shaking phenomenon of the bearing 32 and thereby the impeller. The rotation of the 31 is made stable without vibration, thereby improving the suction power of the fluid, as well as reducing the occurrence of noise.

In addition, the upper part of the casing 30 is provided with an impeller seal 62 in close contact with the lower part of the impeller 31 installed inside the casing 30, the reason for installing the impeller seal 62, the guide In order to maintain the airtightness between the flag body 35 and the impeller 31 to increase the suction force of the fluid, as well as to increase the centering effect of the pump shaft 22.

And the impeller seal 62 is an impeller seal seating plate 61 fixed to the upper surface of the casing 30, as shown in Figure 3, and an impeller seal fixedly installed on the upper surface of the impeller seal seating plate 61 ( 62) and an impeller seal protecting cover 63 installed at an upper portion of the impeller seal 62 to fix the impeller seal 62, wherein the impeller seal seat plate 61 is disposed on an upper surface of the casing 30. Fixing by welding or using a separate fixture, the impeller seal 62 made of ceramic or Teflon material is seated and fixed on the impeller seal seat plate 61 fixed in this way, the impeller seal protective cover 63 is the impeller seal While fixing (62), it is fixed by welding or a separate fixture to be integral with the impeller seal seating plate (61). However, the configuration of the impeller seal seating plate 61, the impeller seal 62 and the impeller seal protective cover 63 is referred to collectively as the support means 60 for convenience of description.

On the other hand, the material of the impeller seal 62 is installed between the bushing 34 and the impeller seal seating plate 61 and the impeller seal protective cover 63 is installed surrounding the bearing 32 is any one of ceramic or Teflon The reason is that the ceramic and Teflon materials have high abrasion resistance, excellent lubricity, good chemical resistance and heat resistance, and excellent non-adhesiveness and mechanical strength.

When the installation work of the casing 30 in which the impeller 31 and the guide feather body 35 are installed on the pump shaft 22 is completed as described above, the suction chamber 50 is installed at the lower portion thereof, and the suction chamber 50 is installed. At the end of the lower pump shaft 22 of FIG. 4, a fluid suction body 40 is provided with a filter 41 therein, as shown in FIG. It penetrates the through-hole formed in the center of the suction body 40, and the end of the penetrated pump shaft 22 is fixed using the nut 43.

However, a bearing 42 is installed at a portion of the pump shaft 22 penetrating the through hole of the fluid suction body 40, and an outer side of the bearing 42 is fitted with a bushing 44 to be tightly coupled to the bearing 32. ) Is bushed between the bushing 34 and the bushing 44 is seated on the bushing seat 45 formed around the through hole of the fluid suction body 40, and is firmly fixed by the fixing member 46. do. The fixing member 46 for fixing the bushing 44 seated on the bushing seating portion 45 is a screw bolt, and the screw bolt is configured such that the lower end of the head portion fixes the upper end portion of the bushing 44.

The reason why the bushing 44 is tightly coupled to the outside of the bearing 42 is to secure the center of the pump shaft 22 which is rotated at a high speed by catching the shaking phenomenon of the bearing 42 and thus the pump. Centering of the shaft 22 is made stably without rotational vibration of the impeller 31 to improve the suction power of the fluid, as well as to reduce the noise generation.

However, the material of the bushing 44 which is tightly fitted to the outside of the bearing 42 is made of any one material of ceramic or Teflon, because the ceramic and Teflon material is wear-resistant due to the characteristics of the material It is because of high lubricity, good chemical and heat resistance, and excellent adhesion and mechanical strength.

In addition, a fluid suction hole 47 is formed at a plurality of outer circumferential surfaces of the fluid suction body 40 in which the filter 41 is embedded, so that the fluid is sucked and foreign substances are filtered by the filter 41. On the other hand, when the fluid is sucked into the fluid suction hole 47 of the fluid suction body 40, when the motor 10 is rotated and the motor shaft 11 and the pump shaft 22 is rotated with it, the impeller 31 And the suction casing 30 is rotated to generate suction force, and the fluid sucked by the suction force is fluid suction hole 47-> suction chamber 50 of the fluid suction body 40 in the direction of the arrow of FIG. The discharge is carried out to the discharge port 21 of the impeller 31 and the guide feather main body 35 installed in the casing 30 and the pump main body 20.

As described above, when the casing-> suction chamber-> fluid suction body having the impeller 31 and the guide kit main body 35 in the pump shaft 22 is sequentially installed, the band is used to make it a set product. (23), the fixing band 23 is bent at one end so that the bent portion is combined with the fluid suction body 40, the other end is welded bolt of a predetermined length Was passed through the flange portion of the pump body and tightened with a nut.

In addition, the pump shaft 22, the casing 30 and the suction chamber 50 of the multi-stage with the impeller 31 and the guide feather body 35 is built, and the fluid suction body 40, each of the interval holding rod ( 33), the impeller 31 and the suction chamber, which are fixedly installed and protrude radially on the outer circumferential surface of the pump shaft 22, and the protruding pump shaft 22 penetrates. In the through hole of 50), a projection insertion groove is formed radially so that the projection protruding radially into the pump shaft 22 is inserted.

The pump shaft support structure of the submerged multistage centrifugal pump of the present invention as described above has a bushing seating portion formed around a through hole formed in the center of the fluid suction body, and the bushing seating portion accommodates a bearing and the bushing slides with the bearing. A through hole which is seated and fixed by a fixing member, penetrates the center of the casing, and is fixedly installed through the bearing, is provided with a bushing accommodating the bearing and slid into the bearing. By installing the support means for supporting the lower part of the casing, the pump shaft rotated at high speed, as well as the impeller installed and rotated at the pump shaft does not cause resonance by vibration, thereby reducing noise and improving wicking power and pump It has the effect of extending the life of.

Claims (5)

The pump body 20 is installed at the lower part of the motor 10, and the motor shaft 11 and the pump shaft 22 are connected to each other via the coupling 12 in the pump body, and the impeller is installed at the pump shaft. The casing 30 having the 31 and the guide vane main body 35 is fixedly installed through the bearing 32, and a suction chamber 50 is installed at the lower portion of the casing, and an end of the lower pump shaft of the suction chamber is provided. Therein, a fluid suction body 40 having a filter 41 installed therein is fixedly installed through a bearing 42, and a casing, a suction chamber, and a fluid suction body 40 installed on the pump shaft are band 23. In the submerged multistage centrifugal pump integrated A bushing seating portion 45 is formed around a through hole formed in the center of the fluid suction body 40, and a bushing 44 which receives a bearing and slides with the bearing is seated in the bushing seating portion to fix the member 46. And a bushing 34 receiving the bearing and sliding with the bearing is installed in the through hole fixed through the center of the guide feather body 35 installed in the casing and fixedly installed through the bearing. The pump shaft support structure of the submerged multi-stage centrifugal pump, characterized in that the support means for supporting the lower portion of the impeller is installed on the upper portion of the casing. The pump shaft supporting structure of the submerged multistage centrifugal pump according to claim 1, wherein the bushing is made of any one material of ceramic or Teflon. The method of claim 1, wherein the support means 60 is installed on the upper portion of the casing to support the lower part of the impeller, the impeller seal seat plate 61 is fixed to the upper surface of the casing, and the upper surface of the impeller seal seat plate The pump shaft support structure of the submersible multi-stage centrifugal pump, characterized in that the impeller seal 62 is fixedly installed, and the impeller seal protection cover 63 is installed on the impeller seal to fix the impeller seal. The pump shaft support structure of the submersible multistage centrifugal pump according to claim 3, wherein a material of the impeller seal installed between the impeller seal seating plate and the impeller seal protection cover is made of any one material of ceramic or Teflon. . The pump shaft support structure of an immersion type multistage centrifugal pump according to claim 1, wherein the fixing member for fixing the bushing seated on the bushing seating portion is a screw bolt.

Images