KR200360175Y1 - Large sized vertical pump - Google Patents

Abstract

The present invention relates to a large-sized longitudinal pump, and an object thereof is to provide a large-sized longitudinal pump having a bearing housing installed at the lower end of the shaft member so as to prevent axial vibration generated when the pump is started. It is provided with a casing including a suction casing and a discharge casing, a shaft member vertically installed inside the casing, an impeller installed in a lower end of the shaft member and a suction casing, and an upper end of the casing, It includes a drive motor for providing power and a bearing housing surrounding the lower end of the shaft member, the outer circumferential surface is fixed to the inner circumferential surface of the suction casing radially to support the bearing installed to prevent axial vibration.

Description

Large Vertical Pumps {LARGE SIZED VERTICAL PUMP}

The present invention relates to a large-sized longitudinal pump, and more particularly, a bearing housing is installed at the lower end of the shaft member to prevent axial vibration generated at the start of the pump, and vibrations applied at the time of starting and stopping the pump inside the discharge casing. The present invention relates to a large-sized longitudinal pump for installing a guide feather that absorbs and enables a smooth flow of the fluid.

In general, a pump is a hydraulic machine that moves a liquid from a low place to a high place, or raises a low pressure state to a high pressure, and various types and structures are known.

The vertical axis of the pump is called a vertical pump, which is suitable for deep sewage, drainage, and hydraulic pumps. Advantageously, when the area of the installation site is small or the head is high, cavitation may occur. Good to use when there is.

1 is a cross-sectional view showing a large-sized pump according to the prior art.

As illustrated, the large-sized pump includes a casing 1 including a suction casing 1a and a discharge casing 1b, a shaft member 2 installed vertically inside the casing 1, and the shaft member. It consists of an impeller 3 provided in the lower end part of (2) and the suction casing 1a, and the drive motor 4 which is provided in the upper end of the said casing 1, and supplies power to the shaft member 2. As shown in FIG. .

The large vertical pump configured as described above rotates the shaft member 2 installed vertically by the rotation of the driving motor 4, and the impeller 3 installed at the lower end of the shaft member 2 rotates to supply energy to the fluid. The fluid is discharged through the discharge casing 1b.

However, the large-sized longitudinal pump as described above oscillates from side to side due to the large force applied to the impeller 3 from the pump start to normal operation, and the oscillation occurs. There is a problem that damages the pump by applying a shock to the back.

That is, the pump may be in contact between the suction casing (1a) and the impeller (3) due to the vibration, the impeller (3) and the wear ring (5) does not maintain the gap, the wear of the wear ring (5) Will be generated.

In addition, there is a problem in that the discharge casing 1b is impacted by the fluid when the pump is started and when the pump is stopped, resulting in breakage and vibration of the discharge casing 1b, thereby lowering the moving efficiency of the fluid.

The present invention has been made to solve such a conventional problem, and an object thereof is to provide a large-scale upright pump having a bearing housing installed at the lower end of a shaft member so as to prevent axial vibration generated at the start and stop of the pump.

In addition, another object of the present invention is to prevent the breakage and vibration of the discharge casing due to the reverse flow of the fluid applied when the pump is stopped in the inside of the discharge casing and to provide a guide feather to enable the smooth flow of the fluid It is to provide a large sized pump.

1 is a cross-sectional view showing a large-sized pump according to the prior art.

Figure 2 is a cross-sectional view showing a large-scale particle pump according to the present invention.

Figure 3 is an enlarged view of the suction casing portion of a large-sized longitudinal pump according to the present invention.

Figure 4 is an enlarged view of the discharge casing portion of the large-scale vertical pump according to the present invention.

(Explanation of symbols for the main parts of the drawing)

10: Casing 11: Suction Casing

12: discharge casing 12a: guide feather

20: shaft member 30: impeller

40: drive motor 50: bearing housing

The present invention for achieving the above object is a casing including a suction casing and a discharge casing, a shaft member installed vertically inside the casing, an impeller installed in the lower end and the suction casing of the shaft member, the A drive motor installed at an upper end and supplying power to the shaft member, and a bearing housing surrounding the lower end of the shaft member, the outer housing being radially fixed to the inner peripheral surface of the suction casing to support a bearing installed to prevent axial vibration. will be.

In addition, the guide blade for guiding the fluid in the flow direction of the fluid is provided in the discharge casing.

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

Figure 2 is a cross-sectional view showing a large-diameter pump according to the present invention, Figure 3 is an enlarged view of the suction casing portion of the large-scale vertical pump in accordance with the present invention, Figure 4 is a discharge casing of the large-sized pump in accordance with the present invention This is an enlarged drawing.

As shown, the large-scale vertical pump of the present invention is composed of a casing 10, a shaft member 20, an impeller 30, a drive motor 40, a bearing housing 50.

The casing 10 has a suction casing 11 and a discharge casing 12 at 90 °, and a count casing 13 is installed between the suction casing 11 and the discharge casing 12. To form a fluid flow path.

In addition, the inside of the discharge casing 12 is provided with a guide feather 12a for guiding the fluid in the flow direction of the fluid to improve the movement efficiency of the fluid introduced through the suction casing 11 when the pump is started and stopped. It is possible to improve the efficiency of the pump by smoothly, preventing the breakage and vibration of the discharge casing 12 due to the reverse flow of the fluid at the time of pumping.

The shaft member 20 is installed vertically in the casing 10, the lower end is located in the suction casing 11, the upper end is up to the motor fixing stand 60 located above the discharge casing 12 It is located.

That is, the shaft member 20 is formed vertically to be used as a deep sewage, drainage, hydraulic pump and the like.

In addition, the shaft member 20 is coupled to the coupling shaft of a predetermined size to transfer power.

The impeller 30 is installed in the lower end of the shaft member 20 and the suction casing 11 to impart energy to the fluid by the rotational force of the drive motor 40.

The drive motor 40 is installed on the motor fixing stand 60 installed on the upper end of the casing 10 to provide power to the shaft member 20.

The bearing housing 50 surrounds the lower end of the shaft member 20, and supports the bearing 51 installed to prevent axial vibration by the outer circumferential surface thereof being fixed to the inner circumferential surface of the suction casing 11 radially.

That is, the bearing 51 installed in the bearing housing 50 supports the lower end of the shaft member 20, thereby reducing vibrations due to the torsion of the shaft when the pump is started.

In addition, reference numeral 70 denotes a wear ring.

Referring to the operation according to the present invention in detail as follows.

The large-sized pump of the present invention configured as described above receives the driving force of the driving motor 40 from the shaft member 20 to rotate the impeller 30, and energy is applied to the fluid by the impeller 30 so that the fluid is supplied. Inhaled.

At this time, axial vibration is generated at the lower end of the shaft member 20 at the start of the pump, and the vibration of the shaft member 20 can be reduced by the bearing 51 installed in the bearing housing 50, so that the impeller 30 and the casing ( It is possible to prevent damage due to the contact of 10), the impeller 30 and the wear ring 70 is also well maintained spacing, it is also possible to reduce the wear of the wear ring (70).

In addition, even when the sucked fluid passes through the discharge casing 12, the guide feather 12a provided inside the discharge casing 12 reduces the impact generated when the pump is started and when the pump is stopped, The efficiency can be improved.

In particular, it is possible to prevent breakage and vibration of the discharge casing 12 due to backflow of the fluid when the pump is stopped.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, it will be understood that various modifications and other embodiments are possible to those skilled in the art.

As described above, the large-scale upright pump according to the present invention may improve durability by installing a bearing housing at the lower end of the shaft member so as to prevent the axial vibration generated at the start of the pump.

In addition, the large-scale axial pump according to the present invention is to prevent the breakage and vibration of the discharge casing due to the back flow of the fluid applied to the pump casing inside the discharge casing, and to provide a guide feather to enable the smooth flow of the fluid It can be installed to improve the efficiency of pump movement.

Claims (2)

A casing 10 including a suction casing 11 and a discharge casing 12; A shaft member 20 installed vertically inside the casing 10; An impeller 30 provided in the lower end of the shaft member 20 and the suction casing 11; A drive motor 40 installed at an upper end of the casing 10 and providing power to the shaft member 20; It comprises a bearing housing 50 surrounding the lower end of the shaft member 20, the outer peripheral surface is radially fixed to the inner peripheral surface of the suction casing 11 to support the bearing 51 installed to prevent axial vibration Large granular pump. The large sized pump according to claim 1, wherein a guide vane (12a) is provided inside the discharge casing (12) to guide the fluid in the flow direction of the fluid.