KR101562027B1 - Underwater grinder pump - Google Patents

Abstract

The present invention relates to a submersible pump capable of cutting foreign matter that sucks a fluid stored in a water reservoir and cuts foreign matter contained in the fluid and discharges the fluid to the outside. A submersible pump capable of cutting foreign matter according to an embodiment of the present invention comprises an impeller for rotating and sucking and discharging a fluid, a motor for rotating the impeller, and a suction port for sucking and sealing the motor portion, And a casing formed with a discharge port for discharging the fluid, wherein the impeller is partially inserted into the inflow hole, and the inflow hole is formed in the center of the inflow hole, And a cutting blade portion for cutting the foreign substance by interaction with the cutting blade portion. Therefore, it is possible to prevent the breakage of the underwater pump due to the inflow of the foreign substance by cutting the foreign material together with the cutting blade of the impeller, and it is possible to form the inflow hole into which the fluid flows in relatively large, Can be increased. In addition, the first cutting tip, the second cutting tip, and the third cutting tip are provided at the portions where the respective components are in contact with each other to prevent the wear caused by the interaction of the impeller and the cutting cover, and at the same time, . In addition, the inflow hole is formed with an expansion hole to increase the amount of fluid flowing into the casing and to further improve the cutting action of the foreign matter. In addition, the cutting blade portion is formed in a spiral shape gradually increasing in width from the center of the impeller to the wing portion, thereby improving the suction force for sucking the fluid, thereby increasing the amount of fluid flowing into the casing, Vortexing can be prevented.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an underwater grinder pump,

The present invention relates to a submersible pump capable of cutting foreign matter that sucks a fluid stored in a water reservoir and cuts foreign matter contained in the fluid and discharges the fluid to the outside.

Generally, an underwater pump is a device which is located in the water of a fluid stored in a water reservoir and discharges the fluid stored in the water reservoir to the outside.

The submerged pump includes a motor section including a rotor and a stator, a casing having a suction port for sealing the motor section and closing the suction port for sucking the fluid, and a discharge port for discharging the fluid sucked into the suction port, When the motor unit including the impeller rotates the impeller, the centrifugal force generated by the impeller causes the fluid stored in the reservoir to be sucked and discharged.

On the other hand, the fluid stored in the water reservoir includes foreign materials such as gloves, rope vinyl, string, hair, etc., so that when the fluid is sucked by the underwater pump, foreign matter contained in the fluid flows into the casing and foreign matter is wound on the impeller. There has been a problem of causing failure.

In order to solve such problems, conventionally, an "underwater grinding pump" of Korean Patent Registration No. 10-0918876 (published on September 29, 2009) has been disclosed.

The conventional underwater pulverizing pump includes a motor unit mounted in such a manner that a rotating shaft rotatably driven inside the motor housing is projected to the outside; A casing coupled to one side of the motor unit so as to penetrate the rotating shaft, an inlet formed on a lower surface thereof, and a discharge port formed on a side surface thereof; An impeller coupled to the rotating shaft so as to be disposed inside the casing and rotating integrally with the rotating shaft; A suction cover which is inserted and fixed to an inlet of the casing so as to be positioned adjacent to a lower portion of the impeller, a suction hole is formed at a central portion thereof, and at least one protrusion protruding in the center direction is formed on an inner circumferential surface of the suction hole; A cutting plate fixedly coupled to a lower portion of the suction cover and having a plurality of suction holes formed along a circumferential direction thereof; And a cutting blade coupled to the rotating shaft so as to be positioned adjacent to a lower portion of the cutting plate and rotating integrally with the rotating shaft and cutting solid matter passing through the suction hole of the cutting plate, A plurality of recesses are formed on the surface adjacent to the cutting blade so as to be connected to the suction holes adjacent to the suction holes. The impeller includes: a hollow cylindrical impeller boss inserted into and coupled with the rotating shaft; Wherein the impeller vane rotates and intersects a protrusion of the suction cover to cut a solid foreign object passing through the inlet hole of the suction cover, wherein the impeller vane rotates and crosses with the protrusion of the suction cover to at least one helical impeller vane integrally formed on the outer circumferential surface of the impeller boss, Respectively.

In the conventional underwater pulverizing pump having the above structure, when an external fluid sequentially flows through the suction hole and the inlet hole and flows into the casing, foreign substances contained in the fluid introduced into the casing flow through the suction hole And the size of the secondary cut foreign matter is reduced by the rotation of the impeller vane during the passage through the inlet hole, thereby preventing breakage or failure due to foreign matter.

However, since the conventional underwater pulverizing pump has a small suction hole size, the amount of fluid flowing into the casing is limited, so that the discharge amount is reduced and noise is generated when the flow rate is increased.

In addition, since the hole of the suction hole is small, the foreign matter clogs the suction hole, and the cutting blade can perform only the function of removing the foreign substance blocking the suction hole, rather than cutting the foreign matter. Therefore, foreign matter is accumulated in the cutting blade, There is a problem that the performance is deteriorated.

SUMMARY OF THE INVENTION The present invention has been devised to solve the problems described above, and it is an object of the present invention to provide a method of increasing the amount of fluid introduced into a casing to increase the amount of discharged fluid, Which can prevent breakdown of the motor and prevent foreign matter from being broken.

According to an aspect of the present invention, there is provided an underwater pump capable of cutting a foreign object, including an impeller rotating and sucking and discharging a fluid, a motor unit rotating the impeller, And a casing having a suction port for discharging the fluid sucked into the suction port and a discharge port for discharging the fluid sucked into the suction port, the underwater pump comprising a cut cover formed at the suction port, And a cutting blade part that is partially inserted into the cutter cover and cuts the foreign substance by interaction with the cutter cover.

The impeller may further include a blade portion extending from the cutting blade portion so as to have a circumference larger than the circumference of the cutting blade portion and cutting the foreign material by interaction with the outer surface of the cutting blade, have.

The cutting blade portion may include a first cutting tip provided at a portion facing the inflow hole to prevent wear of the cutting blade portion and to improve a cutting force.

The wing portion may include a second cutting tip provided at a portion facing the cutting cover to prevent wear of the wing portion and to improve a cutting force.

The cutting blade portion may be formed in a spiral shape gradually widening from the center of the impeller toward the blade portion.

The cutting blade portion may include a bent surface that is inserted between an end of the cutting blade portion and an inner periphery of the inflow hole and is bent toward the center of the impeller at an end of the cutting blade portion so as to form a gap through which foreign matter is cut.

The inflow hole may include a plurality of radially disposed expanding holes that are inclined in the opposite direction of rotation of the impeller to further expand the inflow hole.

The cutting cover may include a third cutting tip provided at an edge portion formed by abutting the inflow hole and the expansion hole to prevent abrasion of the cutting cover and to improve the cutting force.

According to the present invention, it is possible to prevent the breakage of the underwater pump due to the inflow of foreign matter by cutting the foreign object together with the cutting blade of the impeller, and it is possible to form the inflow hole into which the fluid flows in relatively large, It is possible to increase the amount of discharge.

In addition, the first cutting tip, the second cutting tip, and the third cutting tip are provided at the portions where the respective components are in contact with each other to prevent the wear caused by the interaction of the impeller and the cutting cover, and at the same time, .

In addition, the inflow hole is formed with an expansion hole to increase the amount of fluid flowing into the casing and to further improve the cutting action of the foreign matter.

In addition, the cutting blade portion is formed in a spiral shape gradually increasing in width from the center of the impeller to the wing portion, thereby improving the suction force for sucking the fluid, thereby increasing the amount of fluid flowing into the casing, Vortexing can be prevented.

1 is a side view showing an underwater pump capable of cutting foreign matter according to an embodiment of the present invention.
2 is a plan view showing a cutting cover which is a component of an underwater pump capable of cutting foreign matter according to an embodiment of the present invention.
3 is a perspective view showing an impeller which is a component of a submersible pump capable of cutting foreign matter according to an embodiment of the present invention.
4 is an enlarged view of the "A" portion of FIG. 1 enlarged.
5 is a plan view showing a bottom surface of an impeller inserted into a cutting cover, which is a component of a submersible pump capable of cutting foreign matter according to an embodiment of the present invention.
6 is a perspective view showing an impeller in which a cutting edge portion is deformed in an impeller which is a component of an underwater pump capable of cutting foreign matter according to an embodiment of the present invention.

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

As shown in FIG. 1, a submersible pump 100 capable of cutting foreign matter according to an embodiment of the present invention may include a motor unit 10.

The motor unit 10 includes a rotor having a rotating shaft 11 and a stator disposed around the rotor and configured to rotate the impeller 30 to be described later, So that the rotary shaft 11 can be rotated.

Here, the motor unit 10 can be realized by an electric motor which is operated by electricity. Since the structure of the electric motor is a well-known technology, a detailed description of the motor unit 10 is omitted.

The submersible pump 100 capable of cutting foreign matter according to an embodiment of the present invention may include a casing 20.

The casing 20 can surround the periphery of the impeller 30, which will be described later, and cover the motor unit 10 so that the fluid does not flow into the motor unit 10.

A suction port 21 is formed at a lower portion of the impeller 30 in a portion of the casing 20 surrounding the impeller 30 and a suction port 21 is formed in the lower portion of the casing 20, And a discharge port 23 through which the fluid introduced into the suction port 21 is discharged may be formed on the side surface.

Here, the portion where the discharge port 23 is formed is connected to the column pipe provided in the reservoir, and the fluid introduced into the suction port 21 is discharged to the column pipe through the discharge port 23.

As shown in FIG. 2, the submersible pump 100 capable of cutting foreign matter according to an embodiment of the present invention may include a cutting cover 40.

The cutting cover 40 is installed in the suction port 21 of the casing 20 and is provided with an inflow hole through which the fluid flows into the cut cover 40 so that the fluid flowing through the suction port 21 can be introduced into the cut cover 40 41 may be formed.

The inflow hole 41 has a size corresponding to the outer circumferential surface of the cutter blade 31 so that the cutter blade 31 to be described below is inserted into the inflow hole 41 and cuts the foreign matter by interacting with the cutter blade 31 As shown in FIG.

As a result, the cutting blade portion 31 of the impeller cuts the foreign matter together with the cutting cover 40 to prevent the breakage of the underwater pump due to the inflow of foreign matter, and the size of the inflow hole 41, So that the amount of discharge can be increased.

On the other hand, the cutting cover 40 may include an extension hole 43.

The expansion hole 43 can enlarge the size of the inflow hole 41 to increase the amount of the fluid flowing through the cut cover 40 and the foreign material to flow into the cut cover 40 and the impeller 30, So that foreign matter can be cut.

At this time, the expansion hole 43 may be formed in a shape inclined in the opposite direction of rotation of the impeller 30 around the inlet hole 41 so as to further increase the amount of fluid flowing into the inlet hole 41 have.

A plurality of the expansion holes 43 may be radially arranged around the inflow hole 41.

As described above, the inflow hole 41 is formed with the expansion hole 43 to increase the amount of the fluid flowing into the casing 20, and to further improve the cutting action of the foreign matter.

On the other hand, the cutting cover 40 may include a third cutting tip 45.

The third cutting tip 45 is formed as a sharp blade like a blade and can be detachably coupled to a portion of an edge where the inflow hole 41 and the extension hole 43 are formed by abutting.

The third cutting tip 45 is provided at a corner portion where the inflow hole 41 and the expansion hole 43 are formed in contact with each other so that the cutting cover 40 And at the same time, the impeller 30 is rotated, so that the cutting force of the foreign matter cutting the foreign matter by the interaction with the cutting cover 40 can be improved.

The third cutting tip 45 is detachably coupled to the cutting cover 40 so that the cutting force can be improved by easily replacing the third cutting tip 45 with a new cutting tip when the cutting force is reduced due to abrasion due to friction with the impeller 30 .

3 to 5, the submerged pump 100 capable of cutting foreign matter according to an embodiment of the present invention may include an impeller 30.

The impeller 30 is coupled to the motor unit 10 and is rotated by the motor unit 10 to suck and discharge the fluid and to cut off foreign matter contained in the fluid.

As shown in FIG. 3, the impeller 30 may include a cutting blade 31 and a blade 37.

4 to 5, when the cutting blade 31 is inserted into the inflow hole 41 and the cutting blade 31 is rotated by the motor 10, the tip of the cutting blade 31 is inserted into the inflow hole 41 so as to act as scissors to cut foreign matter contained in the fluid flowing into the inflow hole 41.

At this time, the cutting edge portion 31 may be formed in an "S" shape when viewed from the bottom surface of the impeller 30 to prevent foreign substances such as hair, strings and the like from being wound on the rotary shaft 11.

6, the cutting blade 31 is provided at a center of the impeller 30 so as to improve a suction force for sucking the fluid and to prevent a vortex that may be generated when the fluid is sucked, 37 may be formed in a spiral shape gradually increasing in size.

The cutting blade 31 may include a curved surface 35.

The bent surface 35 is formed such that the tip of the cutting edge 31 is directed toward the center of the impeller 30 so that a gap 35a through which foreign matter can flow between the cutting edge 31 and the inner periphery of the inlet hole 41 is formed (See Fig. 5).

When the foreign matter is inserted through the gap between the bent surface 35 and the inner circumference of the inflow hole 41, the cutting blade 31 is rotated by the motor unit 10 to cut foreign matter can do.

The cutting blade 31 may include a first cutting tip 33.

The first cutting tip 33 is formed such that one side thereof is sharp like a blade so that the cutting blade 31 is inserted into the inflow hole 41 so as to form a sharp contact surface with the inflow hole 41, And can be detachably coupled to the facing portion (see FIG. 4).

The first cutting tip 33 is provided at a portion of the cutting blade 31 opposite to the inflow hole 41 so as to prevent the cutting blade 31 from being damaged due to friction generated by the interaction with the inflow hole 41. [ The abrasion is prevented, and at the same time, the cutting blade 31 is rotated, so that the cutting force of the foreign matter cutting the foreign matter by the interaction with the cutting cover 40 can be improved.

The first cutting tip 33 is detachably coupled to the cutting blade 31 so that the cutting force can be improved by easily replacing the first cutting tip 33 with a new cutting tip when the cutting force is reduced due to friction with the cutting cover 40. [ can do.

On the other hand, the impeller 30 may include a wing portion 37.

The blade portion 37 is rotated by the motor portion 10 to generate a suction force and a ground output of the fluid so that the cutting blade portion 31 and the blade portion 37 can be integrally formed And may be formed so as to protrude from the cutting edge portion 31 so as to have a larger circumference than the circumference of the cutting edge portion 31.

When the wing portion 37 is rotated by the motor portion 10, the wing portion 37 acts as a scissors to interact with the outer surface of the cut cover 40 to cut foreign matter contained in the fluid .

That is, the wing portion 37 can cut the foreign matter cut by the cutting edge portion 31 once more to reduce the size of the foreign matter.

The wing portion 37 may include a second cutting tip 39.

The second cutting tip 39 may be formed such that one side is sharp like a blade so that the blade 37 can be detachably attached to the cutting cover 40 at a portion facing the cutting cover 40 4).

The second cutting tip 39 is engaged with the portion where the blade portion 37 is in surface contact with the cutting cover 40 so as to prevent abrasion due to friction caused by the interaction with the cutting cover 40, So that the cutting force of the foreign matter cutting the foreign matter can be improved by the interaction with the cutting cover 40. [

In addition, the second cutting tip 39 is detachably coupled to the wing portion 37, so that if the second cutting tip 39 is worn and the cutting force is reduced, it can be easily replaced with a new one.

The impeller 30 is formed by integrally joining the cutting blade portion 31 and the blade portion 37 so that the blade portion 37 is rotated to suck foreign matter and then the cutting blade portion 31 and the blade portion 37 The foreign matter is cut by the foreign matter and flows into the inside of the casing 20 so that the foreign material is wound around the rotating shaft 11 and the motor unit 10 is prevented from being broken.

The operation and effect between the above-described respective constitutions will be described.

The submersible pump 100 capable of cutting foreign matter according to the present invention is configured such that the casing 20 surrounds the motor unit 10 and the impeller 30 is coupled to the rotating shaft 11 of the motor unit 10.

On the other hand, the impeller 30 is formed such that the cutting blade 31 and the blade 37 are integrally joined.

A suction port 21 is disposed around the impeller 30 and a discharge port 23 is disposed on a side surface of the casing 20 in which the impeller 30 is located to store the fluid stored in the water reservoir by the impeller 30 And then discharged through the column pipe to the outside of the water storage tank.

An inlet hole 41 is formed at the center of the cut cover 40 so that a part of the impeller 30 is inserted into the inflow hole 30 so that the impeller 30 and the cut cover 40 interact with each other, The cut cover 40 is installed in the suction port 21 so as to be inserted into the suction port 41.

That is, when the impeller 30 is rotated by the motor unit 10, the cutting cover 40 is engaged with the cutting blade 31 and the blade 37 so that they can interact with each other like scissors, The cutting blade portion 31 of the impeller 30 is inserted into the inflow hole 41 and the blade portion 37 is engaged with the impeller 30 in such a manner as to cover the upper surface of the cut cover 40. [

The first cutting tip 33 is coupled to a portion of the cutting blade 31 facing the inlet hole 41 and the second cutting tip 39 is coupled to the upper surface of the cutting cover 40 And the third cutting tip 45 is joined to the portion of the edge where the inflow hole 41 and the extension hole 43 are formed in contact with each other.

The underwater pump 100 capable of cutting the foreign substances constituted as described above allows the motor unit 10 to operate and rotate the impeller 30 to move the inflow hole 41 of the cut cover 40 provided at the suction port 21 of the casing 20, Lt; / RTI >

The inflow hole 41 is formed in a shape corresponding to the circumference of the wing portion 37 and a plurality of expansion holes 43 are formed around the inflow hole 41 so that the fluid flowing into the inflow hole 41 Can be increased.

When the impeller 30 rotates, foreign matter flows into the inflow hole 41 along with the fluid. At this time, the cutting blade 31 and the blade 37 cut the foreign matter, It is possible to prevent foreign matter, which is large, from flowing into the casing 20.

That is, when the foreign matter enters the gap between the curved surface 35 of the cutting blade 31 and the inflow hole 41, the cutting blade 31 rotates and the first cutting tip 33 contacts the inflow hole 41 When foreign matter is introduced into the expansion hole 43, the wing portion 37 is rotated so that the second cutting tip 39 contacts the third cutting tip 45 as if it is scissors So that the foreign matter can be cut by the interaction.

The impeller 30 is formed integrally with the blade portion 31 and the blade portion 37 so as to prevent the motor portion 10 from being damaged due to foreign matter being wound around the rotary shaft 11 .

The second cutting tip 39 cuts the foreign material cut from the first cutting tip 33 again so as to further reduce the volume of the foreign substance so that the foreign matter introduced into the casing 20 flows into the impeller 30, , The motor unit 10, and the like.

Therefore, it is possible to prevent the breakage of the underwater pump due to the inflow of the foreign substance by cutting the foreign material together with the cutting blade of the impeller, and it is possible to form the inflow hole into which the fluid flows in relatively large, Can be increased.

In addition, the first cutting tip, the second cutting tip, and the third cutting tip are provided at the portions where the respective components are in contact with each other to prevent the wear caused by the interaction of the impeller and the cutting cover, and at the same time, .

In addition, the inflow hole is formed with an expansion hole to increase the amount of fluid flowing into the casing and to further improve the cutting action of the foreign matter.

In addition, the cutting blade portion is formed in a spiral shape gradually increasing in width from the center of the impeller to the wing portion, thereby improving the suction force for sucking the fluid, thereby increasing the amount of fluid flowing into the casing, Vortexing can be prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And all changes and modifications to the scope of the invention.

100: Submersible pump capable of cutting foreign matter
10: motor section 20: casing
21: inlet 23: outlet
30: impeller 31: cutting blade
33: first cutting tip 35: bent face
37: wing portion 39: second cutting tip
40: cutting cover 41: inflow hole
43: Extension hole 45: Third cutting tip

Claims (8)

An underwater pump comprising: an impeller which rotates and sucks and discharges a fluid; a motor unit that rotates the impeller; and a casing that hermetically encapsulates the motor unit and includes a suction port for sucking the fluid and a discharge port for discharging the fluid sucked by the suction port ,
And a cutting cover formed on the suction port,
Wherein the impeller includes a cutting blade part that is partially inserted into the inflow hole and cuts the foreign matter by interaction with the cutting cover,
The impeller further includes a blade portion extending from the cutting blade portion so as to have a circumference larger than the circumference of the cutting blade portion and cutting the foreign material by interaction with the outer surface of the cutting cover and generating a suction force and a grounding force of the fluid Features submersible pump that can cut foreign matter. delete The method according to claim 1,
The cutting blade
And a first cutting tip provided at a portion opposite to the inflow hole to prevent abrasion of the cutting edge portion and improve a cutting force. The method according to claim 1,
The wing
And a second cutting tip provided at a portion facing the cutting cover to prevent abrasion of the wing portion and to improve a cutting force. The method according to claim 1,
The cutting blade
Wherein the impeller is formed in a spiral shape gradually increasing from the center of the impeller toward the wing portion. The method according to claim 1,
The cutting blade
And a bent surface which is inserted between an end of the cutting blade and an inner circumference of the inflow hole and which is bent toward the center of the impeller at an end of the cutting blade so as to form a gap for cutting foreign matter. Possible submersible pumps. The method according to claim 1,
The inflow hole
Wherein the impeller includes a plurality of radially disposed expanding holes that are inclined in the opposite direction of rotation of the impeller to further expand the inflow hole. 8. The method of claim 7,
The cutting cover
And a third cutting tip provided at a portion of the edge where the inflow hole and the expansion hole are formed to prevent abrasion and improve the cutting force.

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