KR101784909B1 - Apparatus for cooling submerged motor pump - Google Patents

Abstract

The present invention relates to a cooling apparatus for an underwater motor pump installed inside a casing of an underwater motor pump, and more particularly, to a cooling apparatus for an underwater motor pump which includes a charging unit installed to charge cooling water into an inside of a casing at an outlet of an underwater motor pump, And a discharge unit connected to a downstream side of the circulation unit and configured to discharge the cooling water to the outside of the casing. Therefore, by circulating the discharged water to the inside of the motor casing of the submersible motor pump with the cooling water, the cooling efficiency of the submersible motor pump is improved and the circulation performance of the cooling water is improved by the discharged water of the submersible motor pump do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a submerged motor pump,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling device for an underwater motor pump, and more particularly to a cooling device for an underwater motor pump installed inside a casing of an underwater motor pump to cool the motor.

Generally, an underwater motor pump is installed to discharge water to a water purification plant, a wastewater treatment plant, a basement where flooding is likely to occur, or a fish farm or a well containing a large amount of water.

Such an underwater motor pump is classified as a submersible submersible motor pump, a submerged submersible motor pump and a ground-mounted submersible motor pump, and is a device installed in the water reservoir and discharging the fluid stored in the water reservoir to the outside.

The underwater motor pump includes a motor unit including a rotating shaft driven by electricity, a housing that hermetically surrounds the motor unit, and an impeller that rotates by the motor unit to suck and discharge the fluid stored in the water storage tank.

The conventional submersible motor pump is supported by the upper bearing and the lower bearing so that the rotating shaft smoothly rotates inside the housing. Since the upper bearing and the lower bearing are located inside the housing, they can not be heat- , The expansion due to heat and the supplied lubricating oil are not easily performed, and the rotation shaft can not rotate smoothly, resulting in a decrease in the efficiency of the pump.

Particularly, in a submersible motor pump, a large amount of heat is generated during operation of the stator and the rotor of the motor, and the heat generated inside the casing of the submersible motor pump is not cooled by direct contact with the cooling water outside the casing, And is cooled by development.

Therefore, if the heat generated from the inside of the underwater motor pump exceeds a certain limit, there is a limit to the cooling by the heat conduction, so that the internal windings and bearings are overheated and the lifetime of the underwater motor pump is shortened. In particular, since the temperature of the winding is directly related to the life of the motor, the lower the winding temperature, the longer the life of the underwater motor pump.

Therefore, in order to prevent overheating of the underwater motor pump, a discharge hole communicating with the discharge port of the submersible motor pump is formed, and then a water distribution pipe having a certain length directed to the submerged motor pump in the discharge hole is airtightly sealed And it is prevented that the underwater motor pump is overheated through the water sprayed by the underwater motor pump through the discharge pipe and the water distributing pipe.

However, there is a problem that the efficiency of the submersible motor pump is lowered because a part of the water discharged from the submersible motor pump through the discharge pipe always flows into the water dispersion pipe through the discharge hole.

In addition, there is a problem in that the worker is inconvenient because the operator has to connect and fix the water distribution pipe in a state in which the discharging hole is formed in the discharging pipe in a troublesome manner. In order to reduce the cost of the underwater motor pump, The pump is pumped with a small size so that the motor of the pump is damaged by overheating.

Korean Patent Publication No. 10-2014-0115041 (September 30, 2014) Korean Registration Practice No. 20-0297152 (December 06, 2002) Korean Registration Practice No. 20-0388407 (June 29, 2005)

An object of the present invention is to provide a cooling device for an underwater motor pump capable of improving cooling efficiency of an underwater motor pump and improving circulation performance of cooling water by discharging water from an underwater motor pump, And the like.

It is still another object of the present invention to provide a cooling device for an underwater motor pump that can improve the cooling performance by combining the water cooling of the circulation part and the air cooling part.

It is another object of the present invention to provide a cooling device for an underwater motor pump that can improve the circulation performance of cool air inside a casing and cool the cool air by the circulation unit to further improve cooling efficiency by cool air .

Another object of the present invention is to provide a cooling device for an underwater motor pump capable of improving the flow performance and circulation performance of cooling water in the lower part of the internal space of the casing.

According to an aspect of the present invention, there is provided a cooling apparatus for an underwater motor pump installed inside a casing of an underwater motor pump, the apparatus comprising: a charging unit installed to charge cooling water into an interior of a casing at an outlet of an underwater motor pump; A circulation unit (20) connected to the charging unit (10) and circulating the cooling water around the inside of the casing; And the discharge part (30) connected to the circulation part (20) and disposed to discharge the cooling water to the outside of the casing.

Further, the present invention is characterized by further comprising an air-cooling unit (40) installed inside the casing to circulate cool air.

The air-cooling unit (40) of the present invention includes: a cooling fan installed at an upper end of the casing; And a cold air passage formed in an upper portion of the casing so as to form a downward flow at an outer portion of the casing and communicate with an upward flow at a central portion thereof.

The cold air passage of the present invention is characterized in that cool air is circulated around the circulation part (20).

The circulation part (20) of the present invention comprises: an inlet pipe through which cooling water flows into the casing; A cooling pipe connected to the inflow pipe and arranged in a spiral shape from an outer portion to a middle portion at a lower end of the inside of the casing; And an outlet pipe connected to the downstream of the cooling pipe to discharge cooling water to the outside of the casing.

As described above, the present invention improves the cooling efficiency of the submersible motor pump by circulating the discharged water in the motor casing of the submersible motor pump to the cooling water, and improves the circulation performance of the cooling water by the discharged water of the submersible motor pump Provides a possible effect.

In addition, by providing the air-cooling portion provided inside the casing to circulate the cool air, the cooling performance can be improved by combining the water-cooling and air-cooling of the circulation portion.

Further, by providing the cooling fan and the cool air passage around the circulation portion as the air-cooling portion, it is possible to improve the circulation performance of the cool air inside the casing and cool the cool air by the circulation portion to further improve the cooling efficiency by the cool air to provide.

Further, since the circulation unit includes the inlet pipe, the cooling pipe, and the outlet pipe, it is possible to improve the flow performance and circulation performance of the cooling water in the lower part of the internal space of the casing.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing a cooling apparatus for an underwater motor pump according to an embodiment of the present invention; FIG.
2 is a cross-sectional view illustrating a cooling apparatus for an underwater motor pump according to an embodiment of the present invention;
3 is a view showing another underwater motor pump having a cooling device for an underwater motor pump according to an embodiment of the present invention.

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

2 is a cross-sectional view illustrating a cooling apparatus for an underwater motor pump according to an embodiment of the present invention, and Fig. 3 is a cross-sectional view of a submerged motor pump according to an embodiment of the present invention Fig. 3 is a configuration diagram of another underwater motor pump having a cooling device for an underwater motor pump according to an embodiment of the present invention.

As shown in Figs. 1 and 2, the underwater motor pump cooling apparatus according to the present embodiment includes a charging unit 10, a circulation unit 20, and a discharge unit 30, 110). ≪ / RTI >

The submerged motor pump of the present embodiment includes a casing 110 constituting a frame in which a motor for rotation driving is provided, a rotating shaft 120 rotated by the motor, and a pumping force An inlet 140 through which fluid is pumped by the pump, and an outlet 150 through which fluid is pumped out.

In addition, the underwater motor pump of the present embodiment may be constituted by an underwater axial-flow motor pump as shown in FIG. 1, or may be a submerged motor pump as shown in FIG.

The charging unit 10 is provided as an input means for charging the discharge water discharged from the outlet 150 of the underwater motor pump into the casing 110 with the cooling water, To form a passage for guiding the introduction of the cooling water into the casing 110 from the outlet 150 of the underwater motor pump, that is, outside the casing 110.

In addition, it is preferable that the upstream end portion of the introduction portion 10 is formed so as to be extended so as to facilitate the introduction of the cooling water from the outside of the casing 110 into the inside of the casing 110.

The circulation unit 20 is a cooling passage connected to the downstream of the charging unit 10 and circulating the cooling water around the inside of the casing 110. The circulation unit 20 includes an inlet pipe 21, a cooling pipe 22, 23).

The inlet pipe 21 is a piping member that is disposed inside from the outside of the casing 110 and into which the cooling water flows. The inlet pipe 21 is connected to the outside of the casing 110, And is bent toward the inside of the casing 110 at the upper end.

The cooling pipe 22 is a pipe member connected to the downstream of the inflow pipe 21 and arranged in a spiral shape from the outer periphery portion to the middle portion at the inner lower end of the casing 110. The cooling pipe 22 is arranged in a horizontal state So that cooling water flows in a spiral shape from the outer portion of the lower portion of the casing 110 to the central portion thereof to cool the inner space of the casing 110.

The outflow pipe 23 is a pipe member connected to the downstream of the cooling pipe 22 and through which the cooling water flows out of the casing 110. The outflow pipe 23 extends in the casing 110 in the horizontal direction And is bent toward the outside of the casing 110 at the downstream side of the cooling pipe 22 disposed at the lower side of the casing 110.

The discharge unit 30 is connected to the downstream of the discharge pipe 23 of the circulation unit 20 and is provided for discharging the cooling water to the outside of the casing 110. The discharge unit 30 is connected to the outlet 150 of the submersible motor pump And a passage for guiding the discharge of the cooling water to the outside of the casing 110 inside the casing 110 is formed.

The charging unit 10 can easily discharge the cooling water to the outside of the casing 110 from the inside of the casing 110 and discharge the cooling water from the outlet 150 of the underwater motor pump in the vertical direction Or the like.

The cooling device of the submersible motor pump of the present invention further includes an air-cooling unit 40 installed in the casing 110 to cool the motor of the submersible motor pump by circulating cool air inside the casing 110 Of course.

The air-cooling unit 40 is provided inside the casing 110 to cool the motor of the submersible motor pump by circulating cool air inside the casing 110. The cooling fan 41, the cool air passages 42, 43).

The cooling fan 41 is installed in the upper part of the inner space of the casing 110 as a blowing means and installed horizontally on a rotary shaft 120 installed in the vertical direction to rotate in the horizontal direction and blows in the vertical direction .

The cold air passages 42 and 43 are cooling passages formed in the upper and lower portions of the casing 110 so as to form a downward flow at the outer portion of the inner space of the casing 110 and form an upward flow on the central portion, (42) and a central passage (43) forming an upward flow on the central portion.

It is further preferable that the cool air passage is provided in the vertical direction so as to circulate cool air around the circulation portion 20 arranged in the horizontal direction on the lower portion of the casing 110. [

As described above, according to the present invention, by circulating the discharged water to the inside of the motor casing of the submersible motor pump with the cooling water, the cooling efficiency of the submersible motor pump is improved and the circulation performance of the cooling water is improved by the discharged water of the submersible motor pump Provides a possible effect.

In addition, by providing the air-cooling portion provided inside the casing to circulate the cool air, the cooling performance can be improved by combining the water-cooling and air-cooling of the circulation portion.

Further, by providing the cooling fan and the cool air passage around the circulation portion as the air-cooling portion, it is possible to improve the circulation performance of the cool air inside the casing and cool the cool air by the circulation portion to further improve the cooling efficiency by the cool air to provide.

Further, since the circulation unit includes the inlet pipe, the cooling pipe, and the outlet pipe, it is possible to improve the flow performance and circulation performance of the cooling water in the lower part of the internal space of the casing.

The present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Therefore, the above embodiments are merely illustrative in all respects and should not be construed as limiting.

10: input portion 20: water-cooled portion
30: discharging part 40: air-cooling part

Claims (5)

A cooling device for an underwater motor pump installed in a casing of an underwater motor pump,
A charging unit 10 installed above and below the casing so as to inject the discharged water from the outlet of the submersible motor pump into the casing as cooling water;
A circulation unit (20) connected to the charging unit (10) and circulating the cooling water around the inside of the casing; And
And a discharge unit (30) connected to a downstream side of the circulation unit (20) to discharge the cooling water to the outside of the casing,
The circulation part (20)
An inlet pipe bent at the upper end of the inlet so that the cooling water flows into the casing;
A cooling pipe connected to the inflow pipe and arranged in a spiral shape from an outer portion to a middle portion at a lower end of the inside of the casing; And
And an outlet pipe connected to the downstream of the cooling pipe and bent at a downstream side of the cooling pipe so that the cooling water flows out of the casing. The method according to claim 1,
And an air-cooling unit (40) installed inside the casing to circulate cool air. 3. The method of claim 2,
The air-cooling unit (40)
A cooling fan installed at an upper end of the casing; And
And a cool air passage formed in the upper portion of the casing so as to form a downward flow at an outer portion of the casing and communicate with an upper portion of the casing at an upper portion thereof. The method of claim 3,
Wherein the cool air passage is arranged to circulate cool air around the circulation part (20). delete

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