KR101057497B1 - The submergible motor pump with air-cooling system - Google Patents

Abstract

PURPOSE: A submergible motor pump with an air-cooling system is provided to maximize cooling efficiency by using an air cooling system and a water cooling system at the same time through convection current. CONSTITUTION: In a submergible motor pump with an air-cooling system, the motor housing of a submergible motor(1) is hollow and has an inserted driving shaft(10) at the center thereof. A cylindrical rotor(7) is inserted into the outer circumference of a rotating vane(24) and is rotated with the driving shaft. Steam generated in the submergible motor is discharged thorough an internal air outlet. The air outlet includes an interception valve(19) preventing the inflow of a foreign material into the submergible motor.

Description

Submergible motor pump with air-cooling system

The present invention relates to a submersible motor used for drainage or pumping in water and a submersible shaft / quadrant pump, submersible aeration apparatus, submersible mixer, etc. More specifically, a rotor and a stator are formed on a drive shaft of the submersible motor to rotate the rotor. The submersible motor is equipped with an air inlet and an internal air outlet so that the hot air generated from the inside can be discharged to the outside and cooled by supplying and circulating the outside air. It is about an underwater motor.

In general, submersible motors are used for drainage or pumping, submersible shaft / quadrant pumps, submersible aerators, submersible mixers, etc., and the entire submersible motor pump is stored in water (fluid) to transfer drainage or pumping and liquids to other processes. It is widely used in many fields.

The submersible motor pump sucks and discharges water (fluid) while the impeller of the pump unit rotates by the operation of the submersible motor.

In the motor housing of the submersible motor, a rotor and a stator are installed together on the outer circumferential surfaces of the drive shaft and the drive shaft, and the water pumped by the pump unit is sealed to prevent the inflow into the motor housing, and an underwater cable is installed on one side of the motor housing. .

On the other hand, when operating the submersible motor installed in the water heat generated inside the motor housing is transferred to the motor housing is cooled by water (fluid) in contact with the outer peripheral surface of the motor housing.

However, due to the characteristics of the submersible motor, the temperature difference between the water, which is a cooling medium and the inside of the motor housing, when installed and operated under water is about 40 to 100 ° C., and the temperature is a temperature on the stator side close to water in the motor housing. The cooling effect on the rotor side located at the center of the gas is reduced, causing a problem that the temperature rises by 2 to 3 times than the stator side.

Therefore, the actual cooling effect can be expected only when the temperature rise of the rotor side installed in the center of the submersible motor is suppressed, but since the submersible motor is installed in the water, the inside of the motor housing is completely sealed and waterproofed. There is no other method except the cooling method.

Therefore, if the temperature inside the motor housing of the submersible motor rises, condensation occurs due to the temperature difference between the outside and the inside of the motor housing, which causes water vapor inside the motor housing, and the water vapor is not discharged to the outside. There is a problem in that the life of the product is shortened due to corrosion of parts and durability.

In addition, since the inside of the motor housing of the submersible motor is an enclosed space, the pressure of the enclosed space is increased due to the high temperature heat generated by the drive shaft and the rotor of the fixed submersible motor, thereby causing a minute gap at the connection part, thereby causing moisture There is a problem that penetrates into the motor and causes a failure of the motor.

The problem to be solved by the present invention is not only to cool the heat generated inside the motor housing when the water motor is operated by water-cooling method by water, but also by introducing the outside cold air into the air, the air cooling to release the internal air to the outside It is intended to reduce the pressure inside the motor housing while increasing the cooling efficiency by using the method together.

The present invention as a means for solving the above problems is the heat generated from the rotor coupled to the drive shaft when operating the underwater motor used for drainage or pumping in the water and submerged shaft / drift pump, underwater aeration device, underwater mixer, etc. External air inlet pipe is connected to the lower part of the motor housing of the submersible motor to supply cold air to the outside and to circulate by supplying the external cold air to the inside. It provides an underwater motor with an air cooling device, characterized in that the internal air discharge pipe is formed to discharge hot air to the outside.

As described above, the present invention has the effect of maximizing the cooling efficiency by simultaneously using air-cooled and water-cooled to release heat and pressure generated inside through convection.

In addition, the present invention has an economical effect that can reduce the life span and maintenance cost of the underwater motor is not condensation due to the excellent cooling effect because the water motor is used together with the air-cooled and water-cooled.

In addition, there is an advantage that can prevent the moisture penetrating into the submersible motor in advance, and can effectively cope with the heat and pressure generated by the high-speed rotation of the motor.

In addition, since the operation of the underwater motor is made continuously without failure, it is easy to manage and maintain the facility, and can also extend the life of the motor, it is possible to prevent the phenomenon of cutting the underwater cable.

1 is a cross-sectional view showing the present invention the underwater motor.
Figure 2 is a front view showing a connection state in the underwater motor of the present invention.
Figure 3a, b, c, d is an exemplary view showing an embodiment of the submersible motor of the present invention.

In order to achieve the above objects and effects, the present invention will be described in detail by the accompanying drawings as follows.

1 is a cross-sectional view showing the underwater motor of the present invention, Figure 2 is a front view showing a connection state in the underwater motor of the present invention.

The present invention is a structure for discharging the hot air from the outside by supplying cold air from the outside to cool the hot air generated from the inside when operating the submersible motor (1) by using a combination of air cooling and water cooling.

Therefore, the motor housing 8 of the submersible motor 1 has a cylindrical shape, and the driving shaft 10 is inserted in a straight direction in the inner center in a state where the upper and lower portions are through.

In the state in which the rotor blades 24 having a predetermined length are arranged and protruded around the drive shaft 10, a central passage 5 is formed between the rotor blades 24 so that cold air supplied from the lower portion can rise. do.

In addition, the outer circumferential surface of the rotary blade 24 is fitted to the rotor (7) formed in a cylindrical shape so as to rotate together with the drive shaft (10).

In addition, a cylindrical stator 6 is fitted into the outer circumferential surface of the rotor 7, and the outer circumferential surface of the stator 6 is fixed to the motor housing 8 so that the motor housing 8 and the stator 6 are fixed. An outer passage 9 is formed therebetween to allow air in the lower direction to pass through the upper direction.

Meanwhile, an air gap 4 is formed between the rotor 7 and the stator 6 as a passage through which air supplied to the lower portion rises to cool the space.

Upper and lower bearings are provided on the upper and lower portions of the motor housing 8 to support the driving shaft 10 and the bearings 2 and 2 'while the upper and lower bearings 2 and 2' of the driving shaft 10 are inserted. Housings 25 and 25 'are positioned and engaged.

A lower end of the drive shaft 10 is installed through a bearing 2 'and a lower bearing housing 25' and a mechanical seal is installed to prevent water from penetrating into the motor. The pump part (casing / impeller, etc.) is fastened so that it can pump.

In addition, the air inlet 20 of the upper and lower bearing housings 25 and 25 'coupled to the upper and lower portions of the motor housing 8 may allow external air to flow into one side of the lower bearing housing 25'. Is formed, and the air outlet 21 and the underwater cable 13 may be connected to one side of the upper bearing housing 25 coupled to the upper portion of the motor housing 8.

Therefore, the lower part of the air supply connector 22 is connected to the air inlet 20, and the upper part of the air supply connector 22 is connected to the lower part of the external air inlet tube 11 by the connector 3, At the upper end of the external air inlet pipe 11, a regulator 16 for adjusting the intake air amount of the oil filter 15 and the air compressor to prevent oil and impurities from penetrating into the submersible motor 1. And an air compressor 18 for supplying air into the water removing apparatus 17 and the underwater motor 1 so as to remove the water contained in the air supplied from the air compressor 18 are sequentially connected.

In addition, the air discharge port 21 formed in the upper bearing housing 25 is connected to the lower portion of the air discharge connection pipe 23 so as to discharge air to the outside, the upper portion of the air discharge connection pipe 23 is the internal air It is connected to the lower part of the discharge pipe 12 by the connector (3), the outer end of the air inlet pipe 11 and the internal air discharge pipe in the state in which the shut-off valve 19 is installed at the upper end of the air discharge connection pipe (23) The underwater cable 13 is fixed to the cable 12 with a cable band 14.

As described above, the reason why the underwater cable 13 is fixed to the external air inlet pipe 11 and the internal air discharge pipe 12 by the cable band 14 is that the underwater motor 1 itself is located in the water underwater cable ( This is to prevent the internal core wire from being cut by tension and fluid flow according to the weight of 13).

On the other hand, the upper and lower bearing housings 25 and 25 'coupled to the upper and lower portions of the motor housing 8, the air discharge connecting pipe 23 connected to the air outlet 21 and the air inlet 20, respectively, The connection part of the air supply connection pipe 22 and the internal air discharge pipe 12 and the external air inlet pipe 11 is inserted into a watertight seal to be completely sealed.

Therefore, the operational state of the submersible motor 1 according to the present invention describes the operation of the submersible motor using the submersible motor 1 while the submersible motor 1 is operated by rotating the drive shaft 10. Rotating inside) raises the internal temperature by 40 ~ 100 ℃ or more. At this time, it is cooled by water-cooling method by the fluid including water outside the motor housing 8, but the distance between the motor housing 8 and the stator 6 is increased. Since the temperature rises at a temperature of about 2 to 3 times higher than the stator 6 around the rotor 7 and the driving shaft 10, the air compressor 18 is operated by cooling the air compressor 18. Air is connected to the external air inlet pipe 11 and the air supply by removing impurities and oil through the oil filter 15 after controlling the air volume with the regulator 16 in the state of removing water through the water removal device (17). The lower part of the submersible motor (1) through the pipe (22) When air is supplied, the hot air is cooled by passing through the central passage 5, the outer passage 9, and the air gap 4, and the hot air that rises upwards is an air outlet 21 formed in the upper bearing housing 25. Through the internal air discharge tube (12).

At this time, the water vapor generated somewhat inside the submersible motor 1 is also discharged together with the internal air discharge tube (12).

Therefore, when the outside air is continuously supplied to the inside of the underwater motor 1, since the hot air is released and circulated to the outside by the convection phenomenon, the temperature inside the stator 6 and the rotor 7 is prevented from rising. There is no difference and no condensation occurs, which prevents parts from corrosion.

In addition, when the operation of the submersible motor 1 is stopped, the air compressor 18 is added for about 20 to 30 minutes, and when it is determined that the internal and external (water) temperatures of the submersible motor 1 are the same, the internal air discharge pipe ( 12) to shut off the shut-off valve (19) to block the inflow of foreign matter into the underwater motor (1).

On the other hand, when the above work process is cumbersome, the shutoff valve 19 is replaced with an electric valve and a timer is attached to allow automatic operation of the operation of the air compressor and the electric valve.

Figure 3a shows a submersible shaft / drift pump using the present invention submersible motor (1), Figure 3b shows an underwater pump for drainage using the present invention submersible motor (1), Figure 3c shows the present invention submersible motor (1) Figure 3 shows an underwater aeration apparatus using a), Figure 3d shows an underwater mixer using the underwater motor (1) of the present invention.

1: submersible motor 2, 2 ': bearing
3: connector 4: air gap
5: central passage 6: stator
7: rotor 8: motor housing
9: outer passage 10: drive shaft
11: external air inlet pipe 12: internal air discharge pipe
13: underwater cable 14: cable band
15: Oil Filter 16: Regulator
17: moisture removal device 18: air compressor
19: shut-off valve 20: air inlet
21: air outlet 22: air supply connector
23: air exhaust connector 24: rotor blade
25, 25 ': Upper and lower bearing housings

Claims (3)

delete An air inlet 20 is formed in the lower part to introduce external cold air into the inside, and an air outlet 21 is formed in the upper part to discharge the internal hot air to the outside, thereby circulating and cooling the internal air. 8);
A drive shaft 10 inserted into the motor housing 8 so that the rotor 7 is coupled to the rotary blade 24 and the stator 6 is fitted to the outer circumferential surface of the rotor 7;
Upper and lower bearings 2 and 2 'inserted into the upper and lower portions of the drive shaft 10 and coupled in the upper and lower directions of the motor housing 8 so that the lower portion of the drive shaft 10 is drawn out in the lower direction. Lower bearing housings 25 and 25 ';
The underwater cable 13 is connected to one side of the upper bearing housing 25 or the motor housing 8 to the underwater motor 1 used for the underwater shaft / quadrant pump, the underwater pump for drainage, the underwater aerator, and the underwater mixer. In
Rotating blades 24 are arranged around the drive shaft 10 located in the motor housing 8 at regular intervals along the longitudinal direction, and the cylindrical rotor 7 is fitted to the outer circumferential surface of the rotary blades 24. It is coupled to form a central passage (5) so that hot air rises between the rotor blades 24, an outer passage (9) is formed between the stator (6) and the inner peripheral surface of the motor housing (8), the stator (6) and Submersible motor with an air cooling device, characterized in that the air gap (4) is formed between the rotor (7).
An air inlet 20 is formed in the lower part to introduce external cold air into the inside, and an air outlet 21 is formed in the upper part to discharge the internal hot air to the outside, thereby circulating and cooling the internal air. 8);
A drive shaft 10 inserted into the motor housing 8 so that the rotor 7 is coupled to the rotary blade 24 and the stator 6 is fitted to the outer circumferential surface of the rotor 7;
Upper and lower bearings 2 and 2 'inserted into the upper and lower portions of the drive shaft 10 and coupled in the upper and lower directions of the motor housing 8 so that the lower portion of the drive shaft 10 is drawn out in the lower direction. Lower bearing housings 25 and 25 ';
The underwater cable 13 is connected to one side of the upper bearing housing 25 or the motor housing 8 to the underwater motor 1 used for the underwater shaft / quadrant pump, the underwater pump for drainage, the underwater aerator, and the underwater mixer. In
The lower portion of the air supply connecting pipe 22 is connected to the air inlet 20 formed at the lower portion of the lower bearing housing 25 ′, and the upper portion of the external air inlet pipe 11 is connected to the upper portion of the air supply connecting pipe 22. The lower part is connected by a connector (3), the upper end of the external air inlet pipe 11 is an oil filter 15, regulator (16), water removal device (17), air compressor (18) The lower portion of the air discharge connecting pipe 23 is connected to the air discharge port 21 formed in the upper bearing housing 25 to sequentially discharge the upper part of the air discharge connecting pipe 23. Is connected to the lower portion of the inner air discharge pipe 12 by the connector 3, and the outer air inlet pipe 11 and the inner portion of the upper end of the air discharge connection pipe 23 in a state in which a shutoff valve 19 is installed. The underwater cable 13 is bound to the air discharge pipe 12 by the cable band 14, A water motor having an air cooling system.

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