KR20190004004A - Underwater crushing pump - Google Patents

Abstract

The present invention relates to an underground crushing pump that may prevent vortices and reverse flows from being generated by fluids of different velocities, which are introduced into a discharge pipe. The present invention suggests an underground crushing pump including: a cutter configured to crush foreign substances mixed with fluid through rotation; a discharge pipe configured to feed the fluid introduced into the cutter, and a cutter plate coupled between the cutter and the discharge pipe, wherein a disk-shaped flange part is formed in the cutter plate, wherein a cylindrical protrusion is formed on the upper side of the flange part to protrude upwards to a predetermined height, wherein a plurality of inlets having different diameters are formed inside the protrusion, and a space functioning as an impact absorbing space is formed on the upper side of the introduction parts to communicate with an inside of the discharge pipe to smoothen a change of velocity. Accordingly, vortices inside the discharge pipe generated due to interferences of fluids of different velocities may be prevented by feeding the fluids at a specific velocity due to an impact absorption function of the space formed in the cutter plate, and accordingly, the flows of the fluids may be further smoothened. Further, the changes of the velocity of the fluids may be smoothened so that an abrupt change of load is not generated in the cutter, and accordingly, the life spans of the cutter and the pump may be prolonged by always constantly maintaining the RPM of the cutter.

Description

Underwater crushing pump

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an underwater milling pump, and more particularly, to an underwater milling pump capable of stabilizing a velocity of a fluid flowing into a pump tube,

Generally, submersible pump is a device that sucks and transfers fluid without direct suction to a separate suction pipe. It is mainly used for pumped water mixed with soil or dirt. The submersible pump includes a motor unit having a rotary shaft rotated by power supply, a casing coupled to the motor unit and having a suction port and a discharge port, and an impeller rotatably coupled to the rotary shaft, do.

Accordingly, when the rotating shaft of the motor unit rotates according to the power supply, the impeller rotates integrally and a negative pressure is formed inside the casing, whereby the fluid flows into the casing through the suction port, and the fluid introduced into the casing is discharged by the impeller And then discharged through the discharge port.

Since the underwater pump operating in this manner is mainly used for pumping sewage mixed with dirt or foreign matter, dirt and foreign substances can be introduced into the pump casing together with the fluid when the fluid is pumped. The damage to the inside of the pump causes damage or breakdown of the pump.

Particularly, a foreign matter such as a cord, a glove, or a thread may be introduced into the casing and wound around the rotating shaft, which acts as a load on the rotation of the rotating shaft,

In order to prevent such a problem, a method of installing a separate filtering net at the suction port of the pump is used to prevent dust or foreign matter from entering the inside of the pump casing. Such a structure causes a large amount of solid foreign matter to accumulate in the filter net, There is a problem that the fluid can not be sucked even if the pump is operated. To prevent this, there has been a problem in that the filter must be frequently cleaned.

In recent years, a separate grinding apparatus has been provided on the suction port side of the pump to develop an underwater grinding pump in which dust and foreign matter are cut and crushed to a small size in the course of flowing into the casing. The cutter plates 220 and 240 are coupled to the outside of the cutter fan 230 rotated by the motor unit 110 as shown in FIG. 1, so that the cutter fan 230 protrudes to the outside of the casing 130 The damage of the cutter fan 230 can be prevented, and the cutting and crushing efficiency of the solid material can be improved.

However, in the above-described conventional underwater pulverizing pump, the fluid is configured to flow directly into the inside of the discharge port 132 through a plurality of holes formed in the cutter plates 220 and 240 as indicated by arrows, The flow of the fluid is not smooth. As a result, the pump efficiency is lowered and the load is changed in the rotating cutter fan 230, so that frequent failure occurs .

It is an object of the present invention to provide an underwater pulverization pump capable of preventing a sudden change in flow rate by forming a buffer space in which fluids introduced at different flow rates are combined.

It is another object of the present invention to provide an underwater pulverization pump which can alleviate abrupt changes in flow velocity, thereby improving the efficiency and preventing sudden fluctuations of the load, thereby prolonging the service life of the cutter and the pump.

The underwater pulverizing pump according to the present invention includes a cutter for crushing foreign matter mixed with the fluid by rotation, a discharge pipe for transferring the fluid introduced by the cutter, and a cutter plate coupled between the cutter and the discharge pipe Wherein a cylindrical flange portion is formed on the cutter plate, and a cylindrical projection is formed on the upper side of the flange portion so as to protrude upward with a predetermined height, and the inner side of the projection portion has a different diameter And a space portion serving as a buffer space is formed communicating with the inside of the discharge pipe at the upper side of the inflow portion in order to moderate the change of the flow rate.

According to the underwater pulverizing pump of the present invention, since the fluid is transported at a constant flow rate by the buffering function of the space formed in the cutter plate, the speed at the inlet side of the pump due to the interference of different flow rates can be stabilized, There is an effect that the flow of the ink is smooth.

In addition, since the speed is constant, the load does not fluctuate abruptly on the cutter, and therefore, the cutter can always maintain a constant rotational speed, thereby increasing the pump efficiency and reducing the vibration, thereby extending the service life of the cutter and the pump .

1 is a front view of a conventional underwater grinder pump,
2 is a sectional view of an underwater pulverization pump according to the present invention,
3 is a perspective view of a cutter plate incorporating a suction buffer according to the present invention,
4 is a sectional view of a cutter plate incorporating a suction buffer according to the present invention,
5 is a plan view of a cutter plate incorporating a suction buffer according to the present invention.

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

2, the stator 10 is coupled to the inner side of the stator 10, and the rotor 11 is rotatable inside the stator 10, and the rotor 11, A rotating shaft 12 rotating together with the rotor 11 is vertically coupled.

A cutter 13 composed of a plurality of blades is coupled to the tip of the rotary shaft 12. The cutter 13 is rotatably supported by the rotor 11 and the rotary shaft 12 So that the fluid flows upward as indicated by the arrow and is transported to the outside through the discharge pipe 15. [

At this time, the cutter 13 crushes various foreign substances mixed in the fluid so that the fluid passing through the cutter plate 100, which incorporates the suction buffer coupled to the upper side of the cutter 13, smoothly flows inside the discharge pipe 15 So that it can be introduced.

3, the disk-shaped flange portion 20 is formed. On the upper side of the flange portion 20, a cylindrical projecting portion 30 is formed on the upper side of the flange portion 20, So as to protrude at a predetermined height.

A plurality of engaging portions 21 for engaging the cutter plate 100 having a suction buffer built therein using bolts are radially formed on the outside of the projecting portion 30, 21 may be formed as a hole through which the bolt penetrates, or may be threaded on the inner circumferential surface so that the bolt can be screwed.

4, a space 31 is formed on the inner side of the protrusion 30 and a shaft hole 32 through which the rotation shaft 12 passes is formed at the center of the bottom of the space 31 And a plurality of inflow portions 33 into which the fluid flows are formed radially around the shaft hole 32.

5, the inflow portion 33 and the space portion 31 are formed in the discharge tube 15, and the inflow portion 33 and the space portion 31 are formed to have different diameters so as to correspond to water and foreign substances in various environments, As shown in Fig.

The cutter plate 100 having the suction buffer constructed as described above is coupled between the cutter 13 of the underwater milling pump and the impeller 120 and is rotated by the rotation of the cutter 13, To the inside of the impeller (120).

At this time, the fluid passes through the inflow part 33 and then moves to the inside of the impeller 120 through the space part 31. The space part 31 has a plurality of inflow parts 33 of different diameters And serves as a buffer space for allowing the fluids introduced at different flow rates to be transferred to the discharge pipe 15 after they are combined.

By the buffering function of the space portion 31, the fluid is transported at a constant flow rate, and the flow of the fluid is further smoothened.

In addition, since the flow velocity stably flows, the abrupt load fluctuation does not occur in the cutter 13, so that the cutter 13 can always maintain a constant rotational speed without vibration, thereby extending the life of the cutter 13 and the pump There are advantages to be able to.

10: stator 11: rotor
12: rotary shaft 13: cutter
14: Stand 15: Discharge tube
20: flange portion 21:
30: protrusion 31:
32: shaft hole 33: inlet portion
100: Cutter plate with suction buffer
110: motor unit 120: impeller

Claims (3)

An underwater milling pump comprising: a cutter for crushing foreign matter mixed with a fluid by rotation; a discharge pipe for transferring the fluid introduced by the cutter; and a cutter plate coupled between the cutter and the discharge pipe,
A cylindrical flange portion 20 is formed on the cutter plate 100. A cylindrical protrusion 30 is formed on the flange portion 20 so as to protrude upward at a predetermined height,
A plurality of inflow portions 33 having different diameters are formed on the inside of the protruding portion 30 and a space portion serving as a buffer space is provided on the upper side of the inflow portion 33 31) is communicated with the inside of the discharge pipe (15).
The method according to claim 1,
Characterized in that a plurality of engaging portions (21) for engaging a cutter plate (100) incorporating a suction buffer using bolts are radially formed on the outside of the projecting portion (30) Pump.
The method according to claim 1,
A shaft hole 32 through which the rotary shaft 12 of the cutter 13 passes is formed in the bottom surface of the space portion 31 and the inlet portion 33 is formed radially around the shaft hole 32 Underwater grinding pump.

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