KR101130708B1 - A wearing control type submerged motor pump - Google Patents

Abstract

PURPOSE: An underwater motor pump with an adjustable wear ring is provided to prevent the lifespan of a motor from becoming reduced by preventing noise and damage to a bearing. CONSTITUTION: An underwater motor pump(1) with an adjustable wear ring comprises a pump unit(2), an electric motor unit(3), a chamber unit(4), an impeller(25), and a variable wear ring. The pump unit and the electric motor unit are integrally assembled by the same driving shaft(10). The chamber unit is mounted on the upper end of the electric motor unit. Water from the lower part is pumped to the upper part while the impeller of the pump unit operates by the operation of the electric motor unit. The variable wear ring is installed between an upper casing(21) and a lower casing(22) on the pump unit.

Description

Wearing Control Submerged Motor Pump {A Wearing Control Type Submerged Motor Pump}

The present invention is a submerged motor pump, which is mainly used when pumping low water to a high position and is also called a submerged electric pump, wherein a wear ring is installed between an upper casing and a lower casing at a pump section. The present invention relates to a wear ring-type submersible motor pump that is capable of adjusting a height and a distance from an impeller.

In more detail, the lower pump part and the upper electric motor part are integrally formed by the same drive shaft, and the chamber part is mounted on the upper end of the electric motor part. In the submerged motor pump (Submerged Motor Pump) by pumping the lower water to the upper side while the impeller operating (rotating) of the pump by the upper, and the upper casing and the lower casing in the pump section, The purpose of the present invention is to provide a wearable submersible motor pump characterized in that the height of the wear ring installed between the upper casing and the lower casing is adjusted by the height adjusting device so as to maintain the clearance with the impeller blades at an appropriate interval. .

Submerged Motor Pump, also known as Submerged Motor Pump, is a general term for electric pump which is mainly suitable for the transfer of liquid containing foreign substances and its structure is simple and easy to maintain. The tap water is divided into various types according to the use such as pressure, drainage, etc., and it is mainly used for treating or draining sewage and sewage, such as when pumping low water to a high position.

Submerged Motor Pump operates the electric motor when the power is supplied and the drive shaft (shaft) rotates, and the impeller mounted on the lower end of the drive shaft (shaft) rotates inside the case by the rotation of the drive shaft (shaft). While sucking the lower fluid is sent to the upper side.

Underwater motor pump is commonly used is known in Korea Patent Registration No. 56889 and Patent Registration No. 10-922531, it will be briefly described with reference to the accompanying drawings, Figures 1 and 2.

In the conventional submersible motor pump, the pump portion (2) is formed on the lower side of the same drive shaft 110, the electric motor portion (3) is formed on the upper side, the upper end of the electric motor portion (3) The chamber part 4 is attached.

The pump unit 2 forms a casing 20 by combining the separately formed upper casing 21 and the lower casing 22, and inside the upper casing 21, the inner casing 23 at regular intervals. Is formed integrally by a plurality of formed support, the lower end of the drive shaft 10 protruding to the lower side of the inner casing 23, the impeller (27) is coupled to a plurality of impeller wings 27 on the outer periphery of the impeller body (26) 25) is installed.

When the impeller 25 is rotated together with the drive shaft 10 by the operation of the electric motor unit 3, which will be described in detail later, the fluid (water) introduced into the lower casing 22 is connected to the upper casing 21. It rises (pumps) through the space between the inner casings 23.

An intermediate sealing bracket 28 is mounted (installed) at an upper end of the upper casing 21 forming the casing 20, and a driving shaft 10 inserted into the center of the intermediate sealing bracket 28 is bearing 12. It is mounted so as to rotate freely by 13, and the electric motor part 3 is installed (mounted) on the upper side of the said intermediate sealing bracket 28. As shown in FIG.

In the electric motor unit 3, a stator 31 is mounted (fixed) on an inner surface of the housing 30, and a rotor 32 is mounted to the drive shaft 10 inside the stator 31.

The upper portion of the electric motor 30 formed as described above is provided with a chamber portion 4 consisting of a chamber housing 40 and a chamber cover 41, the upper end of the drive shaft 10 by a bearing 11 It is coupled (installed) at the center of the chamber housing 40 so as to rotate freely, and an electric wire, that is, a cable 43, is provided to supply electricity through the cable installation hole 42 drilled on the upper surface of the chamber cover 41. .

Power (electricity) is supplied to the electric motor unit 3 through the cable 43 by the operation (not shown) of the switch (not specifically shown) so that the drive shaft 10 rotates together with the rotor 32. The impeller 25 of the pump unit 2 mounted at the lower end is rotated by the rotation of the drive shaft 10, and the fluid (water) outside and under the casing 20 is rotated by the rotation of the impeller 25. Is sucked (pumped) into the lower casing 22 to pass between the upper casing 21 and the inner casing 23 and ascends, and thus the fluid pumped by the operation of the pump unit 2 (water ) Is discharged through the drain pipe (not specifically shown).

However, in the conventional submersible motor pump constructed and operated as described above, the following problems are pointed out as disadvantages.

In the conventional submersible motor pump, since the wear ring installed between the upper casing and the lower casing is fixed in the pump section, the impeller and the wear ring are worn during operation, and the gap between them (a sharp gap) occurs (a sharp gap). The circulation is repeating.

If the impeller and the wear ring are worn as described above, and a gap is remarkably generated between them, the efficiency of the pump portion is significantly reduced, and the power is increased while the foreign matter (cold matter) is caught between the impeller (impeller blade) and the wear ring. As the wear and vibration of the impeller and the wear ring occur, the bearing is burned out and the noise is generated, thereby shortening the life of the motor part.

Further, in the conventional submersible motor pump, the efficiency decreases due to wear of the impeller and the wear ring during operation, and the maintenance cost for repairing it (replacement of the impeller, the wear ring and the bearing, etc.) increases.

According to the present invention, a lower pump part and an upper electric motor part are integrally formed and integrally formed by the same drive shaft, and a chamber part is mounted on an upper end of the electric motor part. In the submerged motor pump (Submerged Motor Pump), the impeller of the pump unit is to operate (rotate) to pump the water of the lower side to the upper side, and to install a wear ring between the upper casing and the lower casing in the pump portion, The purpose of the present invention is to provide a wearable submersible motor pump characterized in that it is possible to adjust the clearance between the impeller wing by adjusting the height of the wear ring installed between the casing and the lower casing.

Another object of the present invention, by adjusting the height of the wear ring installed between the upper casing and the lower casing in the pump portion by the height adjusting device to maintain (adjust) the clearance between the impeller blades at an appropriate interval. It prevents deterioration of the efficiency of the pump part, prevents the power from rising while preventing the foreign matter (cold matter) from being caught between the impeller (impeller blade) and the wear ring, and prevents the wear and vibration of the impeller and the wear ring. It is to provide a wear ring adjustable submersible motor pump characterized in that it is possible to prevent the burnout and noise generation of the bearing while preventing, to shorten the life of the motor unit.

Another object of the present invention, it is possible to provide a pump of a relatively high efficiency compared to the existing pump, it characterized in that it is possible to prevent the decrease in efficiency and the increase in maintenance costs due to the wear of the impeller and wear ring during operation To provide a wearable adjustable submersible motor pump.

The lower pump part and the upper electric motor part are integrally formed by the same drive shaft, the chamber part is mounted on the upper end of the electric motor part, and the impeller of the pump part is operated by the operation of the electric motor part. In the submerged motor pump (Submerged Motor Pump) to pump the water of the lower side to the upper side, and to install a wear ring between the upper casing and the lower casing in the pump portion;

By adjusting the height of the wear ring installed between the upper casing and the lower casing by a height adjustment device to adjust the play with the impeller blades; characterized in that by the wear ring adjustable submersible motor pump (1) Is achieved.

Wearing control type submersible motor pump according to the present invention, the lower pump (Pump) and the upper electric motor (Motor) is formed integrally assembled by the same drive shaft integrally, the chamber is mounted on the top of the electric motor unit Underwater motor pump (Submerged) by pumping the water of the lower side while operating (rotating) the impeller of the pump portion by the operation of the electric motor unit, by installing a wear ring between the upper casing and the lower casing Motor Pump) characterized in that the clearance between the upper casing and the lower casing can be adjusted by the height adjusting device to adjust the clearance of the impeller blades.

The present invention, by adjusting the height of the wear ring installed between the upper casing and the lower casing in the pump portion by a height adjusting device to maintain (adjust) the play with the impeller blades at an appropriate interval. It prevents the efficiency from dropping, prevents the power from rising while preventing the foreign matter (cinder) from being caught between the impeller and the wear ring, and prevents the wear and dust of the impeller and the wear ring. It is possible to prevent the burnout and noise generation of the motor, and to shorten the life of the motor unit.

The present invention can provide a pump having a relatively high efficiency as compared to the conventional pump, it is possible to prevent the decrease in efficiency and the increase in maintenance costs due to the wear of the impeller and the wear ring during operation.

1 is a cross-sectional view of an example of a wear ring adjustable submersible motor pump according to the present invention.
Figure 2 is a cross-sectional view of another embodiment of a wear ring adjustable submersible motor pump according to the present invention.
Figures 3a to 3c is a cross-sectional view showing an extracting the variable woring and wear ring height adjustment device in the wear ring adjustable submersible motor pump according to the present invention illustrated in FIG.
Figures 4a and 4b is a cross-sectional view showing an extract of the wear ring height adjustment device in the wear ring adjustable submersible motor pump according to the present invention illustrated in FIG.
Figures 5a and 5b and 6a and 6b is a plan view and a cross-sectional view showing a variable wear ring of different embodiments in the wear ring adjustable submersible motor pump according to the invention illustrated in FIG.

These and other objects and features of the present invention will be more clearly understood from the following detailed description based on the accompanying drawings.

1 to 6b is a specific embodiment of the wear ring adjustable submersible motor pump (1: 1-1, 1-2) according to the present invention, Figures 1 and 2 is a wear ring control according to the present invention Fig. 1 is a cross-sectional view showing the type submersible motor pump (1: 1-1, 1-2).

3A to 3C are cross-sectional views illustrating the variable warring 24 and the wear ring height adjusting device 20 in the wear ring adjustable submersible motor pump 1-1 according to the present invention illustrated in FIG. 1.

4A and 4B are cross-sectional views illustrating the wear ring height adjusting device 20 in the wear ring adjustable submersible motor pump 1-2 according to the present invention illustrated in FIG. 2, and FIGS. 5A and 5B and 6A. And FIG. 6B is a plan view and a cross-sectional view showing the variable wear ring 24 according to another embodiment in the wear ring adjustable submersible motor pump according to the present invention illustrated in FIG. 2.

First, the configuration of the wear ring adjustable submersible motor pump (1: 1-1, 1-2) according to the present invention.

Wearing adjustable submersible motor pump (1: 1-1, 1-2) according to the present invention, as illustrated in Figs. 1 and 2, the lower portion and the upper portion of the same drive shaft 110, the pump portion (2) And the electric motor unit 3 were assembled to form an integrated body, and the chamber part 4 was mounted on the upper end of the electric motor unit 3.

The electric motor part 3 to be assembled and installed on the upper side was formed as follows.

The stator 31 is mounted (fixed) on the inner surface of the housing 30, and the rotor 32 is mounted on the drive shaft 10 inside the stator 31.

On the upper side of the electric motor unit 30 formed as described above, a chamber part 4 composed of a chamber housing 40 and a chamber cover 41 is installed, and the upper end of the drive shaft 10 is freely provided by a bearing 11. Coupling (installation) in the center of the chamber housing 40 so as to rotate, and installs the wire, that is, the cable 43 to supply electricity through the cable installation hole 42 drilled on the upper surface of the chamber cover (41).

The pump part 2 to be assembled and installed in the lower side was formed as follows.

The casing 20 is formed by combining the separately formed upper casing 21 and the lower casing 22, and the inner casing 23 is integrated by a plurality of supports formed at regular intervals inside the upper casing 21. It is formed as, the lower end of the drive shaft 10 protruding to the lower side of the inner casing 23 was mounted on the outer periphery of the impeller body 26, the impeller 25 is coupled to a plurality of impeller wings (27).

When the impeller 25 is rotated together with the drive shaft 10 by the operation of the electric motor unit 3, which will be described in detail later, the fluid (water) introduced into the lower casing 22 is connected to the upper casing 21. It rises (pumps) through the space between the inner casings 23.

An intermediate sealing bracket 28 is mounted (installed) on the upper end of the upper casing 21 forming the casing 20, and a driving shaft 10 inserted into the center of the intermediate sealing bracket 28 is bearing 12 ( 13) is mounted so as to rotate freely, and the electric motor part 3 is installed (mounted) on the upper side of the intermediate sealing bracket 28.

A variable wear ring 24 is installed between the separately formed upper casing 21 and the lower casing 22, but the upper and lower heights are adjusted by the wear ring height adjusting device 50.

The variable wear ring 24 and the wear ring height adjusting device 50 illustrated in FIGS. 1 and 3A to 3C have a plurality of impeller wings 27: 27-circumferentially around an impeller body 26: 26-1 formed in a cylindrical shape. It was attached to the pump part 2 of the wear ring adjustable submersible motor pump (1: 1-1) which was attached, maintaining 1) at right angles, and formed (structure) as follows.

The variable wear ring 24 coupled to the upper end of the inner circumferential surface of the lower casing 22 is formed in a cylindrical shape, but is inclined downwardly (by narrow) by 0.2 ° to 3 ° on the vertical line by? The process nut hole 56 and the control bolt portion 57-1 which are not perforated vertically are formed in the wear ring flange 24-1 formed at the upper end of the variable wear ring 24 at regular intervals. It was formed repeatedly while maintaining.

The thickness of the lower flange 22-1 integrally formed at the upper end of the lower casing 22 is thickened a little, and an annular groove 51 is formed inside the upper surface of the lower flange 22-1 to adjust the space portion ( 51-1) is formed, and the nut hole 53 is formed in the lower flange (22-1) in the control space (51-1) at regular intervals, but preferably a process bolt formed on the variable wear ring 24 It was formed by maintaining the gap between the ball 56 and the control bolt portion (57-1).

Each nut hole 53 formed in the lower flange 22-1 (perforated) has a fixing bolt 54 and an adjusting bolt in which a first nut 55-1 and a second nut 55-2 are screwed together. 57) alternately screwed in, but the adjusting bolt 57 is supported by the upper end to support the bottom of the lower flange (22-1), the fixing bolt 54 is formed on the lower flange (22-1) Screwed into the perforated fixing nut hole (56).

The variable wear ring 24 and the wear ring height adjusting device 50 illustrated in FIGS. 2 and 4A to 6B have a plurality of impeller wings 27:27 on the outer circumference of the conical surface of the impeller body 26: 26-2 formed in a conical shape. It was attached to the pump part 2 of the wear ring adjustable submersible motor pump (1: 1-2) mounted while keeping -2) inclined to the outer side below, and it was formed (constitution) as follows.

The variable wear ring 24 coupled to the upper end of the inner circumferential surface of the lower casing 22 may be formed in an inverted cone shape, but as shown in FIGS. 4A to 6B by ∠θ, preferably by ∠5 degrees to ∠20 degrees on a vertical line. It is formed to be inclined downward (narrow), the process nut hole 56 and the adjustment bolt portion 57-hole through which the upper and lower through-holes are formed in the wear ring flange 24-1 formed at the upper end of the variable wear ring 24. 1) was repeatedly formed while maintaining a constant interval.

In particular, on the outer circumference of the wear ring flange 24-1, in which the process nut hole 56 and the adjusting bolt portion 57-1 are formed, the curved stone piece 24-2 is formed to protrude outward to reinforce supporting force and strength. To make it work.

An annular stone piece 52 is formed on the inner side of the upper surface of the lower flange 22-1 formed on the upper end of the lower casing 22, which is mounted on the bottom surface of the upper flange 22-1 of the upper casing 21 by the mounting bolt 5. Was formed to protrude upwards so that the wear ring flange 24-1 of the variable wear ring 24 was settled (combined) in the control space portion 51-1 formed inside the annular stone piece 52, and the control space portion ( 51-1) in the lower flange (22-1) to form a nut hole 53 at regular intervals, but preferably the process bolt hole 56 and the adjustment bolt portion (57-1) formed in the variable wear ring 24 It was formed to maintain the gap, and the bottom of the lower flange 22-1 through which each nut hole 53 is formed a rear portion 22-2 to form a fixing bolt 54 and the adjustment bolt 57 to be described later It was able to screw firmly.

Each nut hole 53 formed in the lower flange 22-1 (perforated) has a fixing bolt 54 and an adjusting bolt in which a first nut 55-1 and a second nut 55-2 are screwed together. 57) alternately screwed in, but the adjusting bolt 57 is supported by the upper end to support the bottom of the lower flange (22-1), the fixing bolt 54 is formed on the lower flange (22-1) Screwed into the perforated fixing nut hole (56).

Hereinafter, the operation relationship of the wear ring adjustable submersible motor pump (1: 1-1, 1-2) according to the present invention formed as described above and the state of adjusting the variable wear ring 24 by the wear ring height adjustment device 50 Explain.

Wearing adjustable submersible motor pump (1: 1-1, 1-2) according to the present invention operates as follows.

Power (electricity) is supplied to the electric motor unit 3 through the cable 43 by the operation (not shown) of the switch (not specifically shown) so that the drive shaft 10 rotates together with the rotor 32. The impeller 25 of the pump unit 2 mounted at the lower end is rotated by the rotation of the drive shaft 10, and the fluid (water) outside and under the casing 20 is rotated by the rotation of the impeller 25. Is sucked (pumped) into the lower casing 22 to pass between the upper casing 21 and the inner casing 23 and ascends, and thus the fluid pumped by the operation of the pump unit 2 (water ) Is discharged through the drain pipe (not specifically shown).

Since the operating principle of the wear ring-type submersible motor pump (1: 1-1, 1-2) according to the present invention operates in the same manner as the conventional submersible motor pump, a detailed description thereof will be omitted.

As described above, when the wear ring adjustable submersible motor pump (1: 1-1, 1-2) according to the present invention is operated (operated) for a long time, the inner circumferential surface and the impeller of the variable wear ring 24, which maintains an interval of about 1 mm, are maintained. The gap (gap) with the wing 27-1 is further widened to 1.5 to 2.0 mm due to wear of the inner circumferential surface of the variable wear ring 24 and the impeller wing 27-1.

As such, when the distance (gap) between the inner circumferential surface of the variable wear ring 24 and the impeller wing 27-1 is large (1.5 to 2.0 mm), the efficiency of the pump unit 2 drops rapidly, and the variable wear ring 24 is The foreign material (collective material) is caught between the inner circumferential surface and the impeller wing 27-1, and the power rises rapidly, causing problems such as wear, vibration, and noise bearing burnout.

Wear ring adjustable submersible motor pump (1: 1-1, 1-2) according to the present invention is spaced between the inner circumferential surface of the variable wear ring 24 and the impeller wing (27-1) in order to prevent the above problems in advance. If (gap) occurs, the adjustable wear ring 24 is adjusted by the wear ring height adjusting device 50.

3A and 4A, the first nut 55-1 and the second nut 55-2 are released from each of the fixing bolts 54 to release the fixed state of the fixing bolts 54. Then, the fixing bolts 54 in which the detention (fixed) state is released are released (reversely rotated) to release the coupling (screw coupling) state with the fixing nut holes 56 formed in the wear ring flange 24-1.

When the fixing bolt 54 is released (reversely rotated) as described above and the coupling (screw coupling) state with the fixing nut hole 56 formed in the wear ring flange 24-1 is released, each adjustment bolt 57 is adjusted. The height of the variable wear ring 27 is adjusted to adjust a gap (gap) between the inner circumferential surface of the variable wear ring 24 and the impeller wing 27-1.

In each adjustment bolt 57 illustrated in FIGS. 3B and 4B, the first nut 55-1 and the second nut 55-2 are released to release the detention (fixed) state of each adjustment bolt 57. , When the detention (fixed) state is released and the adjusting bolt 57 which is screwed to the adjusting nut hole 56 is tightened (rotated), the adjusting bolt 57 rises along the adjusting nut hole 56 and wear ring flange. (24-1) is raised so that the variable wear ring 24 is raised, the first nut (55-1) released after adjusting the adjustment bolts 57 to change the variable wear ring 24 to an appropriate height. ) And the second nut (55-2) to fix each adjustment bolt (57).

Fixing nut of the wear ring flange 24-1 which is moved upward by screwing each of the fixing bolts 54 released while the adjustable wear ring 24 is held at the proper height by fixing the adjusting bolts 57 as described above. The first nut 55-1 and the second nut of each of the fixing bolts 54, which are respectively screwed into the balls 56 and each of the fixing bolts 54 are screwed into the fixing nut holes 56, are released. Fixing bolt 54 can be adjusted by tightening (55-2).

As described above, each fixing bolt 54 which is screwed into each fixing nut hole 56 of the wear ring flange 24-1 by the first nut 55-1 and the second nut 55-2. By fixing it, the height adjustment of the variable wear ring 24 is completed.

Thus, the wear ring adjustable submersible motor pump (1: 1-1, 1-2) according to the present invention, when a gap (gap) occurs between the inner peripheral surface of the variable wear ring 24 and the impeller wing (27-1). By adjusting the variable wear ring 24 by the wear ring height adjustment device 50 every time, an interval (gap) can be appropriately maintained between the inner circumferential surface of the variable wear ring 24 and the impeller wing 27-1.

Therefore, the wear ring-type submersible motor pump (1: 1-1, 1-2) according to the present invention prevents the efficiency from being lowered, and the foreign matter (cold matter) is caught between the impeller (impeller blade) and the wear ring. It is possible to prevent the power from rising while preventing the wear and dust of the impeller and the wear ring, and to prevent burnout and noise of the bearing, thereby preventing the life of the motor unit from being shortened.

1: Wear ring adjustable submersible motor pump 2: Pump part
3: motor part 4: chamber part
10: drive shaft 20: casing
24: variable wear ring 25: impeller
30: housing 31: stator
32: rotor 40: chamber housing
50: wear ring height adjusting device 51: annular groove
53: nut ball 54: fixing bolt
55-1: First Nut 55-2: Second Nut
56: fixing nut ball 57: adjusting bolt

Claims (7)

delete The lower pump part and the upper electric motor part are integrally formed by the same drive shaft, the chamber part is mounted on the upper end of the electric motor part, and the impeller of the pump part is operated by the operation of the electric motor part. Submersible motor pump to pump the water of the lower side to the upper side, by adjusting the height of the variable wear ring installed between the upper casing and the lower casing in the pump portion by the height adjusting device to control the play with the impeller blades To;
Height adjusting device for adjusting the height of the wear ring installed between the upper casing and the lower casing;
A variable wear ring is inclined downwardly by ∠θ on a vertical line to be narrowed, and is repeatedly formed in the wear ring flange of the variable wear ring while maintaining a constant gap between the process nut hole vertically and the control bolt portion not perforated;
The upper surface of the lower flange formed integrally on the upper side of the lower casing to form an annular groove so that the adjustment space is formed, and the space portion is coupled to the wear ring flange of the variable wear ring, the nut in the lower flange in the adjustable space portion It is formed by maintaining the interval between the process bolt hole and the adjustment bolt portion formed in the wear ring;
Each nut hole formed in the lower flange is alternately screwed into the fixing bolt and the adjustment bolt screwed to the first nut and the second nut, the adjustment bolt is supported by the top of the lower flange, the fixing bolt is the end Wearing adjustable submersible motor pump characterized in that the screw coupled to the fixing nut hole formed in the lower flange. The lower pump part and the upper electric motor part are integrally formed by the same drive shaft, the chamber part is mounted on the upper end of the electric motor part, and the impeller of the pump part is operated by the operation of the electric motor part. Submersible motor pump to pump the water of the lower side to the upper side, by adjusting the height of the variable wear ring installed between the upper casing and the lower casing in the pump portion by the height adjusting device to control the play with the impeller blades To;
Height adjusting device for adjusting the height of the wear ring installed between the upper casing and the lower casing;
The variable wear ring is formed in an inverted conical shape inclined by ∠θ on a vertical line, and the process bolt hole formed in the variable wear ring is formed in the wear ring flange formed at the upper end of the variable wear ring and the control bolt portion through which the hole is not drilled. Formed by maintaining a gap between the ball and the adjusting bolt;
On the inner side of the upper surface of the lower flange of the lower casing, which is mounted on the bottom of the upper flange of the upper casing by the mounting bolt, an annular stone piece is formed to protrude upward, so that an adjusting space part is formed inside the annular stone piece, and the space part has a variable wear ring. The wear ring flange is placed (combined), the lower flange in the control space portion formed by maintaining a gap between the process bolt ball and the control bolt portion formed in the variable wear ring;
Each nut hole formed in the lower flange is alternately screwed into the fixing bolt and the adjustment bolt screwed to the first nut and the second nut, the adjustment bolt is supported by the top of the lower flange, the fixing bolt is the end Wearing adjustable submersible motor pump characterized in that the screw coupled to the fixing nut hole formed in the lower flange. The method according to claim 2, wherein the angle ∠θ held by the variable wear ring is;
Wearing adjustable submersible motor pump characterized in that the angle of 0.2 degrees ~ 3 degrees. The method according to claim 3, wherein the angle ∠θ held by the variable wear ring formed in a cone shape;
Wearable adjustable submersible motor pump, characterized in that the angle of 7 degrees to 20 degrees. The wearable adjustable submersible motor pump according to claim 2 or 3, wherein a curved stone piece protrudes outward from an outer circumference of the wear ring flange in which the process nut hole and the adjusting bolt part are repeatedly formed. The wearable submersible motor pump according to claim 2 or 3, wherein a rear portion is formed at a bottom of the lower flange of the lower casing to drill each nut hole.

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