KR20150066717A - Pump with Bearing kit - Google Patents

Abstract

The present invention relates to a pump having a bearing kit. The present invention can prevent the concentration of load on a bearing to support a motor shaft by distributing the load transferred from a pump shaft to a motor shaft in a pump having a structure where a motor part is arranged on the top of a pump part while connecting the motor shaft and the pump shaft; thereby improving the durability of the pump. The pump comprises a pump part having at least one impeller to suck and deliver fluid and a motor part arranged on the top of the pump part to generate rotation force to rotate an impeller. According to the present invention, the pump additionally comprises a bearing kit installed between the pump part and the motor part to connect the motor shaft and the pump shaft, but distributing vibration and impact load transferred to the motor shaft through the pump shaft to prevent damage to a motor. The bearing kit comprises: a bearing housing positioned between the pump part and the motor part, having the upper end coupled to the motor part and the lower end coupled to the pump part, and in which the motor shaft protruding downward from the motor part is inserted; a bearing shaft having the upper end coupled to the motor shaft inserted in the bearing housing and the lower end coupled to the pump shaft while protruding downward from the bearing part; and a bearing installed in the bearing housing to support the upper end of the bearing shaft to be rotated such that the vibration and the impact load transferred from the bearing shaft can be distributed to the bearing housing.

Description

A pump equipped with a bearing kit {Pump with Bearing kit}

The present invention relates to a pump in which a motor portion is disposed at an upper end portion of a pump portion, and more particularly, to a pump in which a load due to a difference between a self weight of components constituting the pump and a vertical pressure difference generated when the pump is driven is concentrated in a bearing To a pump equipped with a bearing kit that can improve the durability of the pump.

Generally, a multistage pump is a pump in which two or more impellers are installed in one pump shaft in one pump in order to obtain a high head or high pressure water.

In the meantime, the standing type multi-stage pump is a multi-stage pump arranged so that two or more impellers are stacked in the vertical direction, and a plurality of impellers are connected to each other by a vertical pump shaft to sequentially pressurize and discharge the fluid from the lower impeller And a motor for generating rotational force is formed at the upper end of the pump shaft. The structure of such a standing type multi-stage pump is disclosed in Korean Patent Laid-Open Publication No. 10-2007-0049720 and Japanese Laid-Open Patent Publication No. 2005-120862.

In the conventional multi-stage multi-stage pump, the motor shaft and the pump shaft are directly coupled by a coupling. However, when the motor shaft and the pump shaft are directly coupled by coupling, There is a problem in that the bearings are easily damaged by the load caused by the pressure generated in the driving of the motor so as to support the rotation of the motor shaft.

More specifically, bearings for supporting the rotation of the motor shaft are installed at the upper and lower ends of the motor, respectively.

On the other hand, when the motor shaft is directly coupled to the pump shaft by coupling, a load due to the self weight of the motor shaft, the pump shaft, and the impeller is concentrated in the bearing.

In the normal operation of the pump, a low pressure is formed at the lower end of the pump, while a high pressure is formed at the upper end of the pump. An axial load acts on the pump shaft due to the pressure difference between the upper and lower ends. The direction load is added to the self-weight by the above-described parts, and a large load is concentrated on the bearing, thereby accelerating the damage of the bearing.

In addition, although the phenomenon is abnormal, the pressure on the inlet side of the lower end of the pump may rise instantaneously. When such a phenomenon occurs, a large axial load in the reverse direction (upward) acts on the pump shaft and the motor shaft instantaneously, The bearing supporting the motor shaft is damaged.

Korean Patent Publication No. 10-2007-049720 (2007.05.14) Japanese Patent Application Laid-Open No. 2005-120862 (2005.05.12)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a pump having a structure in which a motor is disposed at an upper end of a pump unit, To prevent a load from being concentrated on a bearing supporting the motor shaft, thereby improving the durability of the pump.

Another object of the present invention is to provide a pump equipped with a bearing kit that can minimize the loss of power and damage to parts of the power transmission system by minimizing the connection site between the parts for transmitting the rotational force of the motor shaft to the pump shaft .

According to an aspect of the present invention, there is provided a turbomolecular pump comprising: a pump unit including at least one impeller for sucking and discharging a fluid; And a motor shaft connected to the motor shaft and connected to the pump shaft so as to distribute vibration and impact load transmitted to the motor shaft through the pump shaft, The bearing kit is disposed between the pump unit and the motor unit. The upper end of the bearing kit is coupled to the motor unit. The lower end of the bearing kit is coupled to the pump unit. A bearing housing into which a motor shaft is inserted; An upper end portion coupled to the motor shaft inserted into the bearing housing and a lower end portion projecting toward the lower portion of the bearing housing and coupled to the pump shaft; And a bearing installed in the bearing housing for rotatably supporting the upper end of the bearing shaft and dispersing vibration and impact load transmitted from the bearing shaft into a bearing housing.

The bearing shaft may include a motor shaft coupling portion in which the motor shaft is inserted and coupled to the motor shaft; A bearing support portion formed at a lower portion of the motor shaft coupling portion and supporting a lower portion of the bearing; And a pump shaft coupling portion formed at a lower portion of the bearing support portion and inserted into and coupled to the inside of the pump shaft.

At this time, the motor shaft coupling portion is formed in a cylindrical structure, and can be configured to rotate together with the motor shaft by being coupled with the motor shaft via a key.

It is preferable that the outer diameter of the pump shaft coupling portion inserted and coupled to the pump shaft so that the pump shaft and the motor shaft are directly coupled when the bearing kit is removed is the same as the outer diameter of the motor shaft.

According to the present invention having such characteristics as described above, since the load applied to the bearing supporting the motor shaft is shared by the bearing kits, the damage of the bearing and the burning of the motor due to the load being concentrated by the bearing can be prevented, Accordingly, the durability of the pump can be improved and the durability of the pump can be increased, thereby reducing manpower required for maintenance and time and cost.

In addition, there is an effect that loss of power and damage of the components of the power transmission system can be reduced by connecting the motor shaft and the pump shaft so as to minimize the connection portion between the components that transmit the rotational force of the motor shaft to the pump shaft.

1 is a sectional view showing the structure of a pump according to the present invention,
2 is an exploded perspective view showing a structure of a bearing kit according to the present invention,
3 is a sectional view showing the structure of a bearing kit according to the present invention,
4 is a cross-sectional view showing a connection relationship between the bearing shaft of the present invention and the motor shaft and the pump shaft,
5 is a cross-sectional view of an inline pump to which a pump structure according to the present invention is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 is an exploded perspective view showing a structure of a bearing kit 300 according to the present invention, and FIG. 3 is a sectional view showing the structure of a bearing kit 300 according to the present invention. Sectional view showing the connection relationship between the bearing shaft 320 of the present invention and the motor shaft 210 and the pump shaft 120. Figure 5 is a cross-sectional view of the in- Fig.

The pump according to the present invention includes a pump unit 100 including at least one impeller 110 for sucking and discharging a fluid, such as a known standing multi-stage pump or an inline pump, The pump shaft 100 of the pump unit 100 is connected to the motor shaft 210 of the motor unit 200 by connecting the pump shaft 100 of the pump unit 100 to the motor shaft 210 of the motor unit 200. [ A bearing kit 300 for dispersing vibration and impact load transmitted to the motor shaft 210 through the pump shaft 120 is installed between the pump unit 100 and the motor unit 200.

The pump unit 100 and the motor unit 200 may be configured in the same manner as the pump unit 100 and the motor unit 200 that are used in a conventional standing multi-stage pump or an inline pump. And the motor unit 200 will not be described in detail.

The bearing kit 300 connects the motor shaft 210 and the pump shaft 120 so that vibration or impact load transmitted from the pump shaft 120 concentrates on the bearing supporting the rotation of the motor shaft 210. [ And is composed of a bearing housing 310, a bearing shaft 320, and a bearing 330.

Hereinafter, each component constituting the bearing kit 300 will be described in detail.

The bearing housing 310 is installed between the pump unit 100 and the motor unit 200 and connects the pump unit 100 and the motor unit 200. The bearing housing 310 is connected to the pump shaft 100 by the bearing shaft 320, A flange 311 for coupling with the motor unit 200 is formed at an upper end and a pump unit 311 is provided at a lower end of the flange 311, And a flange 312 for coupling with the flange 312.

The flanges 311 and 312 formed at the upper end and the lower end of the bearing housing 310 are formed to have the same structure, that is, to have the same outer diameter, and have a fastening hole formed at the same position. When the bearing kit 300 is removed So that the pump unit 100 and the motor unit 200 can be directly coupled to each other.

On the inner surface of the bearing housing 310, a bearing end 313 on which the bearing 330 is seated is formed.

The bearing shaft 320 is installed in the bearing housing 310 through a bearing 330 and connects the motor shaft 210 and the pump shaft 120 to connect the rotational force of the motor shaft 210 to the pump shaft 120. [ A bearing support portion 322 and a pump shaft coupling portion 323. The motor shaft coupling portion 321 and the bearing support portion 322 and the pump shaft coupling portion 323 Is formed as an integral structure.

The motor shaft coupling portion 321 is formed at the upper end of the bearing shaft 320 and is coupled to the motor shaft 210. The motor shaft coupling portion 321 is formed into a cylindrical shape so that the motor shaft 210 can be inserted and coupled therewith. do.

The motor shaft coupling portion 321 is coupled to the motor shaft 210 via the key K and rotated together with the motor shaft 210.

The bearing support portion 322 is formed at the lower end of the motor shaft coupling portion 321 and supports the lower portion of the bearing 330. The bearing support portion 322 is formed to have a larger outer diameter than the outer diameter of the motor shaft coupling portion 321, So that it supports the lower portion of the bearing 330. As shown in FIG.

The pump shaft coupling portion 323 is formed at the lowermost end of the bearing shaft 320 and is coupled to the pump shaft 120. The pump shaft coupling portion 323 extends from the bottom of the bearing support portion 322 to be inserted into the pump shaft 120, And is protruded downward. Of course, the pump shaft coupling portion 323 may be indirectly coupled via a known coupling without directly coupling with the pump shaft 120. 1 shows a structure in which a bearing shaft 320 is coupled to a pump shaft 120 via a coupling C and FIG. 5 shows a structure in which a bearing shaft 320 is directly coupled to a pump shaft 120 Lt; / RTI >

In order to prevent slippage between the pump shaft 120 and the pump shaft coupling portion 323, another bolt B is fastened to the outside of the pump shaft 120 so that the inner end of the bolt is coupled to the pump shaft coupling The pump shaft 120 and the pump shaft coupling portion 323 can be more stably coupled by pushing the outer surface of the pump shaft 323.

The outer diameter D1 of the pump shaft coupling portion 323 is preferably the same as the outer diameter D2 of the motor shaft 210. [ According to this structure, when the bearing kit 300 is removed for maintenance or replacement of the bearing kit 300, the motor shaft 210 is directly coupled to the portion where the pump shaft coupling portion 323 is coupled, Since the shaft 120 and the motor shaft 210 can be connected to each other, even if the bearing kit 300 is removed for maintenance or replacement of the bearing kit 300, the pump can be continuously used, .

The bearing 330 is installed in the bearing housing 310 to support the rotation of the bearing shaft 320. These bearings 330 are placed on a bearing end 313 formed on the inner side of the bearing housing 310 and are fixed by retaining rings 331 and 332 respectively mounted on the bearing shaft 320 and the bearing housing 310.

The bearing pump 300 according to the present invention is installed between the pump unit 100 and the motor unit 200. The bearing shaft 320 provided in the bearing kit 300 is connected to a pump The shaft 120 and the motor shaft 210 are connected to transmit the rotational force of the motor shaft 210 to the pump shaft 120.

In the case of the standing type multi-stage pump or the inline pump, the self-weight of the pump shaft 120 and the motor shaft 210 and the pressure difference generated at the upper and lower ends of the pump when the pump is driven, A vibration force or an impact load is applied depending on the operation state of the pump unit 100. [0054]

The vibration and load transmitted to the motor shaft 210 from the pump shaft 120 may be partially transmitted to the bearing 210. In this case, The load is concentrated on the bearings provided in the motor unit 200, so that the bearings are damaged, and the motor is prevented from being burned due to the damage of the bearings.

The motor shaft coupling portion 321 coupled to the motor shaft 210, the pump shaft coupling portion 323 coupled to the pump shaft 120, and the bearing support portion 322 for supporting the bearing 330 are integrally formed The motor shaft 210 and the pump shaft 120 have a structure directly connected to the bearing shaft 320 so that the rotational force of the motor shaft 210 is transmitted through the bearing kit 300 There is an advantage that it is possible to prevent a part from being lost in the process of being transmitted to the pump shaft 120.

Particularly, since the motor shaft 210 and the pump shaft 120 are connected to each other by using a single bearing shaft 320, a plurality of parts connecting the motor shaft 210 and the pump shaft 120 are formed, It is possible to prevent damage to the coupling parts between the parts which can be made in advance, and it is advantageous in that the manufacturing and maintenance are easy with a simple structure.

In the case of the pump according to the present invention, when the bearing kit 300 is temporarily removed for maintenance or replacement, after removing the bearing kit 300, the motor shaft 210 Since the pump shaft 120 can be directly coupled and used, there is an advantage that a quick and flexible response can be made in case of emergency.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
100: pump unit 110: impeller
120: pump shaft 200: motor part
210: motor shaft 300: bearing kit
310: Bearing housing 320: Bearing shaft
321: motor shaft coupling portion 322: bearing support portion
323: pump shaft coupling portion 330: bearing

Claims (4)

A pump unit 100 including at least one impeller 110 for sucking and discharging a fluid and a motor unit 200 provided at an upper end of the pump unit 100 to generate a rotational force for rotating the impeller 110 ),
The motor shaft 210 is installed between the pump unit 100 and the motor unit 200 and connects the motor shaft 210 and the pump shaft 120. The vibration of the motor shaft 210 is transmitted to the motor shaft 210 through the pump shaft 120, And a bearing kit (300) for dispersing an impact load to prevent burnout of the motor,
The bearing kit 300 is disposed between the pump unit 100 and the motor unit 200 and has an upper end coupled to the motor unit 200 and a lower end coupled to the pump unit 100, A bearing housing 310 into which a motor shaft 210 protruding to a lower portion of the motor unit 200 is inserted;
The upper end of the bearing shaft 310 is coupled to the motor shaft 210 inserted into the bearing housing 310 and the lower end of the bearing shaft 320 protrudes to the lower portion of the bearing housing 310 and is directly or indirectly coupled to the pump shaft 120. ); And
And a bearing 330 installed in the bearing housing 310 for rotatably supporting the upper end of the bearing shaft 320 and dispersing vibration and impact load transmitted from the bearing shaft 320 to the bearing housing 310 Features a bearing kit equipped with a pump. The bearing according to claim 1, wherein the bearing shaft (320)
A motor shaft coupling portion 321 into which the motor shaft 210 is inserted and coupled;
A bearing support portion 322 formed at a lower portion of the motor shaft coupling portion 321 and supporting a lower portion of the bearing 330; And
And a pump shaft coupling portion (323) formed at a lower portion of the bearing support portion (322) and inserted into the pump shaft (120) to be coupled therewith. The method of claim 2,
Wherein the motor shaft coupling portion 321 is formed in a cylindrical shape and is coupled to the motor shaft 210 via the key K and rotated together with the motor shaft 210. [ . The method of claim 2,
The outer diameter D1 of the pump shaft coupling portion 323 inserted into and coupled to the pump shaft 120 to directly connect the pump shaft 120 and the motor shaft 210 when the bearing kit 300 is removed, Is formed to be the same as the outer diameter (D2) of the bearing (210).

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