KR101068840B1 - A of submerged motor pump - Google Patents

Abstract

According to the present invention, the lower pump part and the upper electric motor part are integrally formed by the same rotation shaft, and the impeller of the pump part is operated (rotated) by the operation of the electric motor part. In a conventional submerged motor pump, which pumps water from the lower side to the upper side, an electromagnetic force and a spring (elastic force) actuated by ON / OFF of a power supply at an upper end of a rotating shaft in which the pump part and the electric motor part are formed. Submersible motor pump equipped with a reverse rotation prevention device by installing a brake device for unlocking or locking the rotating shaft by).
According to the present invention, when the power is turned on to operate the pump, the armature, which is compressed by the spring (elastic force) by the spring (elastic force) by the electromagnetic force generated at the solenoid port, rises above the spring, and the locking state of the lining and the disk plate is increased. When the pump unit is released by the operation of the electric motor unit and the power is turned off to stop the operation of the pump, electromagnetic force is not generated at the solenoid port, and the armature is lowered by the spring (elastic force) while the lining and the disc By crimping and locking the plate, it is possible to block (prevent) the rotation of the rotating shaft (drive shaft) at its source.
In addition, according to the present invention, the locking state of the rotating shaft (driving shaft) used as the same rotating shaft of the pump part and the electric motor part is released while the spring is compressed or extended according to the generation of the electromagnetic force by turning the power on / off. By locking or locking, it is possible to prevent the electric motor unit from being damaged (such as a change in magnetic flux), from being unable to operate efficiently, or from falling down.
In addition, the present invention completely eliminates the need to operate separately, is operated by the power supply when the power is supplied (ON) to operate the pump, the locking state is naturally released (simply), the operation of the pump is stopped. The locking state is naturally made by the spring force of the spring when the power supply is turned off to stop, so that the configuration is not complicated and the operation is not cumbersome, and it can be easily manufactured and installed at low cost.

Description

Submerged Motor Pump with Reverse Rotation Device {A of Submerged Motor Pump}

The present invention is mainly used for pumping low water to a high position, and is mounted on a submerged motor pump, also known as a submerged electric pump, and the submerged motor pump reverses when the power is turned off. It relates to a submersible motor pump equipped with a reverse rotation preventing device for the operation, that is, to prevent the impeller from rotating in reverse.

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. While the impeller of the pump portion is operated (rotated) to form a conventional submerged motor pump which is configured to pump the lower water upward; Reverse rotation by mounting a brake device for unlocking or locking the drive shaft drawn into the chamber by the spring (elastic force) and the spring (elastic force) operated by the power ON / OFF inside the chamber portion formed on the top of the electric motor unit It is to provide a submersible motor pump equipped with a prevention device.

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.

The submersible motor pump 1 that is commonly used will be briefly described with reference to FIGS. 1 and 2.

In the submersible motor pump 1, a pump unit 2 is formed at a lower side of the same drive shaft 110, an electric motor unit 3 is formed at an upper side thereof, and an upper end of the electric motor unit 3 is formed. 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. 913 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.

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 unit 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 is freely held by a bearing 11 It is coupled (installed) in the center of the chamber housing 40 so as to rotate, and an electric wire, that is, a cable 50, 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 50 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 230 and ascends, and thus the fluid (water) pumped by the operation of the pump unit 2. Is discharged through the drain pipe (not specifically shown).

However, since the conventional submersible motor pump 1 constructed and operated as described above is not provided with a device (function) for preventing reverse rotation (reverse operation), the submersible motor pump 1 is operated in a state in which power is not supplied (OFF). Rotating phenomenon is occurring.

That is, when the submersible motor pump 1 is not operated, the fluid (water) remaining in the drainage pipe (not specifically shown) is not completely discharged and has a property of moving downward (by flowing) under load. The impeller 25 is reversed by the fluid (water) moving downward.

When the impeller 25 is rotated as described above, the fluid in the drain pipe at the upper side of the casing 2 is reversed, and the impeller 25 is rotated more quickly by the fluid (water) flowing in this way. Therefore, the fluid in the drain pipe flows back more quickly.

When the impeller 25 is reversely rotated by the downward fluid (water) as described above and the submersible motor pump 1 is operated in reverse, damage to the peripheral device is caused, as well as the inverse of the impeller 25. When the rotor 32 of the electric motor unit 3 rotates in reverse with the drive shaft 10 by the rotation, the electric motor unit 3 itself is damaged (a phenomenon in which the magnetic flux is changed) and the electric motor unit 3 is rotated. Can not be operated efficiently or the function is degraded.

In order to solve the above problems, I propose Patent Registration No. 10-922531 (Submersible Pump with Reverse Rotation Detection Device) and Utility Model Registration No. 20-339213 (Pump Reverse Rotation Prevention Device) It was.

Patent registration No. 10-922531 (submersible pump having a reverse rotation detection device) is to install a detection device inside the submersible pump in order to detect the rotation operation state of the drive shaft.

The detection device may include: an auxiliary rotary shaft coupled to a drive shaft extending into the chamber provided in an upper portion of the chamber in which the electric motor is installed and rotating together with the drive shaft; A hollow shaft encoder coupled to the auxiliary shaft to detect a rotation state of the auxiliary shaft; And it is installed so as to be located between the hollow shaft type encoder and the electric motor, the magnetic field and heat generated when driving the electric motor is composed of a non-magnetic shield plate blocking the transmission to the hollow shaft type encoder.

Utility Model Registration No. 20-339213 (pump reverse rotation prevention device) includes three signal reflection surfaces provided with different phase angles on a drive shaft of an impeller forming a pump, and a rotation state of the drive shaft corresponding to the signal reflection surface. Rotational state detection means is installed to detect, it is composed of a control unit for controlling the power supply of the motor by the signal of the rotational state detection means.

However, these devices merely allow the pump to sense reverse operation, and are unable to carry out the function of substantially allowing the pump to reverse rotation, i.e. prevent the shaft from rotating in the reverse direction. There is a limit.

The present invention has been made to solve the above problems, the reverse rotation prevention device is improved to prevent the submerged motor pump (backward) operation, that is, the impeller reverse rotation when the power is off It is to provide a submersible motor pump provided.

According to the present invention, 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, and the impeller of the pump part is operated by the electric motor part. In a conventional submerged motor pump, which is configured to pump the water of the lower side while operating (rotating);

The brake unit for unlocking or locking the drive shaft drawn into the chamber by the spring (elastic force) and the spring (elastic force) operated by the ON / OFF of the power is installed in the chamber portion formed on the upper end of the electric motor unit. An object of the present invention is to provide an underwater motor pump equipped with a reverse rotation preventing device.

Another object of the present invention, when the power supply (ON) to operate the pump by the electromagnetic force generated in the solenoid port by the spring (elastic force) is beaten by the spring (elastic force) while the spring and upwards by the lining and disc plate When the locking state is released and the pump unit is operated by the operation of the electric motor unit, and the power is turned off to stop the operation of the pump, the electromagnetic force is not generated at the solenoid port, and the armature is downward by the spring (elastic force). It is to provide a submersible motor pump equipped with a reverse rotation prevention device that is to squeeze and lock the lining and the disk plate to prevent (rotate) the rotation of the rotation axis (drive shaft).

Still another object of the present invention is to lock the rotating shaft (drive shaft) used as the same rotation axis of the pump part and the electric motor part while the spring is compressed or extended according to the generation of the electromagnetic force by the ON / OFF of the power supply. Submersible motor with reverse rotation prevention device which prevents the motor motor part from being damaged (change of magnetic flux, etc.), unable to operate efficiently, or failing function by releasing or locking state. To provide a pump.

Another object of the present invention is to completely eliminate the hassle to operate separately, to be operated by the power supply when the power supply (ON) to operate the pump so that the locking state is naturally (simply) released, The locking state is naturally made by the spring force when the power is turned off to stop the operation of the power supply. Therefore, the configuration is not complicated and the operation is not cumbersome, and it is easy to manufacture and install at low cost. It is to provide a submersible motor pump equipped with a rotation preventing device.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects,

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 (rotated) by the operation of the electric motor part. An underwater motor pump configured to pump upwards;

In the chamber portion formed on the upper end of the electric motor unit,
When the power is supplied to operate the pump, the armature, which is compressed by the spring (elastic force) by the electromagnetic force generated from the solenoid port, overcomes the spring and moves upward, releasing the locking state by the lining and the disc plate. When the pump part is operated by the negative operation, and the power is turned off to stop the operation of the pump, the electromagnetic force is not generated at the solenoid port, and the armature is downwardly driven by the spring (elastic force) and the lining and the disc plate are pressed and locked. It is achieved by an underwater motor pump equipped with a reverse rotation prevention device characterized in that it is equipped with a brake device to prevent (rotate) the rotation of the rotating shaft (drive shaft).

Underwater motor pump equipped with a reverse rotation prevention device according to the present invention, the lower pump (Pump) and the upper electric motor (Motor) is formed integrally by the same rotation shaft, the operation of the electric motor (Motor) In the conventional submerged motor pump which pumps the lower water upward while the impeller of the pump part is operated (rotated), the upper part of the rotating shaft in which the pump part and the electric motor part are formed This is because the brake device is installed to unlock or lock the rotating shaft by the electromagnetic force and spring (elastic force) operated by ON / OFF.

According to the present invention, when the power is turned on to operate the pump, the armature, which is compressed by the spring (elastic force) by the spring (elastic force) by the electromagnetic force generated at the solenoid port, rises above the spring, and the locking state of the lining and the disk plate is increased. When the pump unit is released by the operation of the electric motor unit and the power is turned off to stop the operation of the pump, electromagnetic force is not generated at the solenoid port, and the armature is lowered by the spring (elastic force) while the lining and the disc By crimping and locking the plate, it is possible to block (prevent) the rotation of the rotating shaft (drive shaft) at its source.

In addition, according to the present invention, the locking state of the rotating shaft (driving shaft) used as the same rotating shaft of the pump unit and the motor unit as the spring is compressed or extended depending on whether the electromagnetic force is generated by the power ON / OFF. By locking or locking, it is possible to prevent the electric motor unit from being damaged (such as a change in magnetic flux), from being unable to operate efficiently, or from falling down.

In addition, the present invention completely eliminates the need to operate separately, is operated by the power supply when the power is supplied (ON) to operate the pump, the locking state is naturally released (simply), the operation of the pump is stopped. The locking state is naturally made by the spring force of the spring when the power supply is turned off to stop, so that the configuration is not complicated and the operation is not cumbersome, and it can be easily manufactured and installed at low cost.

1 is an exploded perspective view showing a conventional submersible pump.
Figure 2 is a perspective view of the combined state of the conventional submersible pump illustrated in FIG.
Figure 3 is a partial front cross-sectional view of the underwater motor pump with a reverse rotation prevention device showing a state in which the reverse rotation prevention device of the underwater motor pump according to the present invention.
Figure 4 is an enlarged view showing an extract of the reverse rotation prevention device in the submersible motor pump equipped with a reverse rotation prevention device illustrated in FIG.
Figure 5 is an exploded perspective view showing an extract of the reverse rotation prevention device in a submersible motor pump equipped with a reverse rotation prevention device according to the present invention.
Figure 6 and Figure 7 is a state and enlarged view of combining the reverse rotation prevention device of the submersible motor pump equipped with a reverse rotation prevention device according to the present invention.

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.

3 to 7 show a specific embodiment of the submersible motor pump equipped with a reverse rotation prevention device according to the present invention.

In the accompanying drawings, Figure 3 and Figure 4 is a partial cross-sectional view of the anti-rotational submersible motor pump (1-1) equipped with the brake device 100 according to the present invention and the brake device 100 by extracting 5 is an exploded perspective view showing an extract of the brake device 100 of the anti-rotational submersible motor pump 1-1 according to the present invention, and FIGS. 6 and 7 are views illustrated in FIG. The coupled state and enlarged view of the brake device 100 according to the invention.

Reverse rotation type submersible motor pump 1-1 equipped with the brake device 100 according to the present invention was formed as illustrated in FIGS. 3 and 4.

Reverse rotation type submersible motor pump (1-1), 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 electric motor unit ( The brake device 100 was mounted inside the chamber 4 formed at the upper end of 3).

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

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

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.

On the upper side of the electric motor unit 3 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 to be rotated, the cable installation hole 42 drilled on the upper surface of the chamber cover 41 was installed a wire that can supply electricity, that is, the cable 50.

The pump part 2 and the electric motor part 3 configured (formed) as described above are formed in the same configuration as the pump part 2 and the electric motor part 3 of the conventional submersible motor pump 1. More detailed description thereof will be omitted.

As described above with reference to FIGS. 4 to 7, the brake device 100, ie, inside the chamber 4 (chamber housing 40 and chamber cover 41) installed above the electric motor unit 3 as described above, Magnetic brake system was installed.

The brake device 100, that is, a brake device using magnetic force was formed (configured) as follows.

Polygon block formed on the upper end of the drive shaft 110, which is used as the same axis of the pump unit 2 and the electric motor unit 3 and protrudes above the bottom plate of the chamber housing 40 from the inside of the chamber 4, 110) was combined (inserted) and fixed in one piece using fastening means such as a conventional key.

The outer side of the polygon block 110 is fitted with a flange 120, the central through-hole 121 of a size larger than the outer surface of the polygon block 110 is inserted in the center so as not to be detained on the outer surface of the polygon block 110.

The flange 120 has a central distribution hole 121 formed in the center to be fitted to the outside of the polygon block 110 so as not to be detained in the polygon block 110, and mounted around the outer side of the central distribution hole 121 Holes 120-1 were drilled at regular intervals and mounted (fixed) on the inner bottom of the chamber housing 40 forming the chamber portion 4 by fitting mounting bolts 125.

A plurality of mounting nut holes 121 are drilled at the edges of the flange 120 at regular intervals, and bolting rods 130 are coupled to each mounting nut hole 121 to be fixed by a nut 123.

On the outer surface of the polygon block 110 on the upper side of the flange 120, the diameter is smaller than the diameter formed by the bolt support rods 130 (fixed) (fixed) to the edge of the flange 120, a square hole 141 bored in the center ) Was loaded by combining the lining 140 to be fitted to the outer surface of the polygon block (110).

On the upper side of the lining 140 coupled to the outer surface of the polygonal block 110, the central distribution hole 163 is fixed to the edge of the flange 120, the amateur 160 is not held in the polygonal block 110 (mounting) ) Was coupled to the bolt support rod (130).

The amateur 160, the central distribution hole 163 is formed in the center of the armature stone ring ring 162, the outer peripheral bottom plate 161 is integrally formed, a plurality of guide oils on the disc plate 161 The earthwork 164 was drilled at regular intervals so as to be coupled to the bolt support rod 130 fixed (mounted) to the edge of the flange 120.

In particular, between the lining 140 and the amateur 16 is coupled to the outer surface of the polygon block 110, the central distribution hole 151 is not detained in the polygon block 110, each guide is drilled at regular intervals at the edge The distribution hole 152 is formed into a pair of disk plate 150 and the separate lining 140 as described above to be interposed into the bolt support rods 130 fixed (mounted) to the edge of the flange 120, One or more pairs can be combined.

As described above, when the disc plate 150 and the lining 140 are repeatedly (plural pairs) coupled between the lining 140 and the armature 16 coupled to the outer surface of the polygon block 110, the brake (breaking) You will be able to improve (performance).

The coil springs 180 are inserted into the bolt support rods 130 protruding to the upper side of each guide distribution hole 164 drilled at regular intervals in the disc plate 161 of the armature 160 and bolt support rods ( The nut 181 is screwed to the 130 to prevent the coil spring 180 from escaping upward, thereby causing the armature 160 to be shot downward, and according to the degree of screwing each nut 181 to the coil spring ( It is possible to adjust the elasticity of the 180, that is, the degree of impact of the amateur 160.

In particular, the upper surface of the flange (`120), the bottom surface of the disc plate 161 forming the amateur 160, the upper surface and the bottom surface of the lining 140 to form a stopping protrusion at regular intervals to effectively stop the function It could be used as.

The drive shaft 10 protruding to the upper side of the central distribution hole 163 of the armature 160, and each bolt support rod 130 protruding to the upper side of each nut 181 to detain each coil spring 180, The nose port 170 is fitted and fixed by nuts 175 and 176 which are screwed on the upper side and the lower side.

The solenoid port 170 is formed in the disc plate 171 integrally formed on the outer circumferential upper end of the port dolbu ring 172 with the central mounting hole 173 in the center, a plurality of mounting on the disc plate 171 The ball 174 was drilled at regular intervals so as to be coupled to the bolt support rod 130.

As described above, the operation relationship of the brake device 100 according to the present invention will be described together with the operation relationship of the anti-rotational underwater motor pump 1-1.

The brake device 100 according to the present invention always maintains the state in which the armature 160, the lining 140, and the disk plate 150 are compressed to the flange 120 side by the elastic force of the coil springs 180. (Maintain).

Although not shown in detail, when the switch is turned on, power (electricity) is supplied to the electric motor unit 3 through the cable 50 so that the drive shaft 10 rotates together with the rotor 32, and the drive shaft The impeller 25 of the pump part 2 attached to the lower end by the rotation of 10 turns.

As described above, the fluid (water) which is outside and below the casing 20 is sucked (pumped) into the inside of the lower casing 22 by the rotation of the impeller 25, so that the upper casing 21 and the inner casing 23. As a result of passing through and rising, the fluid (water) pumped by the operation of the pump unit 2 rises and is discharged through a drain pipe (not specifically shown).

On the other hand, when the power (electricity) supplied through the cable 50 is turned off by the reverse operation of a switch (not specifically shown), the operation of the electric motor unit 3 is stopped, and the electric motor unit ( The operation of the pump part 2 is also stopped by the stop of 3).

Since the operation relationship (principle) of the electric motor unit 3 and the pump unit 2 as described above is operated by the same method (principle) as the conventional submersible motor pump 1, a more detailed description of the operation principle for these Is omitted.

When power (electric) is supplied to the electric motor unit 3 through the cable 50 by the operation (not shown) of the switch (not shown) as described above, the brake device 100 according to the present invention also immediately operates. do.

When power is supplied to the brake device 100 according to the present invention, power is applied to the solenoid port 170, and magnetic force (electromagnetic force) is generated in the applied solenoid port 170 and the solenoid port 170. The armature 160 pushed downward by the coil spring 18 is pulled upward by the magnetic force (electromagnetic force) generated in

The armature 160 pulled upward by the magnetic force (electromagnetic force) generated in the solenoid port 170 rises along the bolt support rod 130 and overcomes the coil spring 18, and is detained by the armature 160 rising. The lining 140 and the disc plate 150 that are used are free.

As described above, when the lining 140 and the disc plate 150 are free, the detention (brake) state is released. Therefore, the pump unit 2 is smoothly operated together with the electric motor unit 3.

On the other hand, when the power (electricity) supplied through the cable 50 is turned off by the reverse operation of the switch, the operation of the electric motor unit 3 is stopped, and the pump is stopped by stopping the electric motor unit 3. The operation of the unit 2 is also stopped, and at the same time, the brake device 100 according to the present invention is also operated in reverse to detain the operation of the electric motor unit 3 and the pump unit 2, that is, the drive shaft 10. .

On the other hand, when the power (electricity) supplied to the brake device 100 according to the present invention is cut off (OFF), the solenoid port 170 is not supplied with power (OFF), the power is cut off the solenoid port In (170), no magnetic force (electromagnetic force) is generated, and when the magnetic force (electromagnetic force) does not occur in the solenoid port 170, the force pulling the amateur 160 is removed, and thus the amateur 160 is compressed. As the coil spring 18 is extended, it is lowered downward.

Due to the loss of the magnetic force (electromagnetic force) generated in the solenoid port 170, the armature 160 is lowered along the bolt support rod 130 by the elastic force of the coil spring 18, the armature 160 is downward When the lining 140 and the disc plate 150 which are in a free state are detained between the flange 120 by the armature 160 downward by the elastic force of the coil spring 18, the flange 120 Since the mounting bolt 125 is mounted on the inner bottom surface of the chamber housing 40 forming the chamber part 4, the lining 140 and the disc plate 150 are in a detained state.

Therefore, the pump unit 2 together with the electric motor unit 3 is held by the brake device 100 according to the present invention to maintain a state in which reverse rotation is prevented.

In particular, the top surface of the flange (`120), the bottom surface of the disc plate 161 forming the amateur 160, the top surface and the bottom surface of the lining 140 is formed at regular intervals, so the stopping function is It can be effectively exhibited.

As described above, the brake device 100 according to the present invention is used as the same rotating shaft as the pump part and the motor part while the spring is compressed or elongated according to the generation of the electromagnetic force by the ON / OFF of the power source. By releasing or locking the locking state of the rotating shaft (drive shaft), it is possible to prevent the electric motor portion from being damaged (such as a change in magnetic flux), from being unable to operate efficiently, or from falling in function.

The present invention described above is not limited to the above description, and various substitutions, modifications, and alterations within the scope not departing from the technical spirit of the present invention are possible to those skilled in the art. It will be obvious.

1: Submersible motor pump 1-1: Reverse rotation prevention submersible motor pump
2: pump section 3: electric motor section
4: chamber portion 10: drive shaft
20: casing 25: impeller
30: housing 31: stator
32: rotor 40: chaver housing
100: brake device 110: square block
120: flange 130: bolt support rod
140: lining 150: disc plate
160: Amateur 170: Solenoid Pot

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 (rotated) by the operation of the electric motor part. An underwater motor pump configured to pump upwards;
In the chamber portion formed on the upper end of the electric motor unit,
When the power is supplied to operate the pump, the armature, which is compressed by the spring (elastic force) by the electromagnetic force generated from the solenoid port, overcomes the spring and moves upward, releasing the locking state by the lining and the disc plate. When the pump part is operated by the negative operation, and the power is turned off to stop the operation of the pump, the electromagnetic force is not generated at the solenoid port, and the armature is downwardly driven by the spring (elastic force) and the lining and the disc plate are pressed and locked. Submersible motor pump equipped with a reverse rotation preventing device characterized in that it is equipped with a brake device to block (prevent) the rotation of the rotating shaft (drive shaft). The brake apparatus of claim 2, further comprising: a brake device mounted in the chamber part;
Polygon block formed on the same axis of the pump unit and the electric motor unit is fixed to the upper end of the drive shaft protruding into the chamber formed in a polygonal polygon;
A flange fitted to the outside of the polygon block so as not to be detained in the polygon block and mounted to the chamber housing;
A plurality of bolt support rods mounted upright at regular intervals on the edge of the flange;
Lining is coupled to the center square hole in the polygon block so as not to interfere with the bolt support rod on the upper side of the flange;
An armature which is coupled to the bolt guide rods so as to slide up and down without being held in the polygon block at the upper side of the lining, and overcomes the elastic force of the coil spring by the magnetic force generated at the solenoid port;
A coil spring inserted into each of the bolt supporting rods at the upper side of the armature so as not to be separated from the upper side by the nut, and having the arm always shot downward;
And a solenoid port coupled to a central drive shaft protruding upward of the coil spring and a bolt support rod around to generate a magnetic force when the power is turned on, thereby raising the amateur. Submersible motor pump equipped with. The method according to claim 3, Between the lining and the amateur coupled to the outer surface of the polygonal block;
The central distribution hole is not detained in the polygonal block, but each guide distribution hole drilled at regular intervals at the edge is inserted into each bolt support rod to form a disc plate and lining in one set, combining one set or a plurality of sets; Submersible motor pump equipped with a reverse rotation prevention device. The method of claim 3, wherein the amateur is;
A central plate is formed integrally with the bottom plate on the bottom of the outer surface of the armhole dolbu ring in the center, and formed through a plurality of guide distribution holes in the disc plate at regular intervals; Submersible motor pump. The method of claim 3, wherein the solenoid port;
Underwater with reverse rotation prevention device characterized in that the disc plate is integrally formed on the outer periphery of the port dolbu ring with a central mounting hole in the center, the disc plate is formed by drilling a plurality of mounting holes at regular intervals; Motor pump. 4. The flange of claim 3, further comprising: a flange, an armature and a lining;
The upper surface of the flange, the bottom surface of the disk plate forming the amateur, the upper surface and the bottom surface of the lining to form a stopping protrusion at regular intervals; submerged motor pump with a reverse rotation prevention device characterized in that the.

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