KR970010560B1 - Pump of high viscosity sludge and hard dust - Google Patents

Abstract

The pump is used to discharge solids such as high viscosity sludge, living sewage, and polluted moss from a waste water storing tank digged by a predetermined depth on the earth surface. An impeller(20), which is submerged in the water surface, is attachably/detachably mounted on the lower end of a driving shaft(13) which is rotatably formed on the inside of a case(12) in the downward direction of a motor(11) mounted on a bracket(10). A suction hole(21) is formed on the center portion of the bottom surface of the impeller(20), and a discharge hole(22) is formed on the one side of the top surface thereof. The suction hole(21) and the discharge hole(22) are connected to spiral suction and discharge paths(23,24) which generate eddy current during the rotation of the impeller(20). A plurality of wings(25) are protrudedly formed on the top surface of the impeller(20).

Description

Pump device for high viscosity sludge and solids

1 is a perspective view of an impeller according to the present invention.

2a, b are cross-sectional views of the impeller according to the present invention.

3 is an overall structural diagram of a pump device according to the present invention.

4 is another use state of the pump according to the present invention.

* Explanation of symbols for main parts of the drawings

10: bracket 11, 31: motor

12, 18: case 13, 32: drive shaft

14, 15: Packing 16: Bolt

17 coupling 21 inlet

20, 30: impeller 22: outlet

23: suction passage 24: discharge passage

25: wing portion 26: turning portion

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pump apparatus for high viscosity sludge and solids, and more specifically, to solids such as high viscosity sludge, domestic sewage and sludge from wastewater at various industrial sites, In the case of discharge, high viscosity sludge is formed by passing vortices through the suction and discharge passages formed spirally in the turbine-type impeller immersed on the water by centrifugal force by the rotation of the impeller integrally installed at the lower end of the drive shaft installed directly under the motor. High lift (10-15m) is to be able to protrude upward.

In general, sludge from various wastewaters in domestic sewage or industrial facilities is temporarily accumulated in a wastewater storage tank formed at a predetermined depth below the ground, and when the water level exceeds a certain level, the flow direction of the flow rate including sludge as a pump is vertical. If the head of the pump is less than 6m above, the sludge or the residue is discharged by using a horizontal pump.However, when the pump is stopped, the vacuum pump to fill the water is reused. Therefore, if it is inconvenient and the head is more than 6m, it is difficult to fully show the function of the pump. When using the vertical pump (also called sewage pump), the sludge and the residue are limited to small and light, so the sludge is large or long. Dirt problems such as long strings and hair are difficult to use. Will.

In addition, the impeller used in the above pump discharges the sludge due to the backflow force of the cavitation impeller generated in the space between the impeller and the casing, but solid solids in the space between the casing and the impeller are continuously When passed, the impeller had a problem of premature wear and shortened life (typically about 6 months).

The present invention has been made to solve the problems of the prior art as described above, so that the inlet and outlet in the impeller installed separated from the motor directly below the motor installed on the ground so as to communicate with the spiral passage to generate the vortex when driving the pump. High-viscosity sludge is designed to increase the amount of wastewater, including high-viscosity sludge that is discharged even at high heads, by allowing the wastewater such as sludge to be easily discharged from the wastewater storage tank formed at a predetermined depth below the ground by the centrifugal force generated when the impeller rotates. And it is an object to provide a pump device for solids.

Another object of the present invention is to extend the drive shaft of the motor for driving the impeller vertically upwards using several couplings to mount the motor on a bracket installed at a predetermined height from the ground to be used critically in flooded areas during the rainy season. It is to provide a pump device that can be.

A feature of the present invention for achieving the above object is a bracket installed on the ground in forming a pump device for discharging solids such as high viscosity sludge, domestic sewage and sludge from the waste water storage tank formed at a predetermined depth from the ground ( 10 is mounted on the lower end of the drive shaft 13 rotatably installed inside the case 12 directly below the motor 11 mounted in the case (11) detachably mounted on the surface of the impeller 20, the The suction port 21 formed at the center of the bottom surface and the discharge port 22 formed at one side of the upper surface communicate with each other as the spiral suction / discharge passages 23 and 24 that generate vortices when the impeller 20 rotates, and is connected to the upper surface of the impeller 20. Several wings 25 are projected.

Hereinafter, the pump device for high viscosity sludge and solids according to the present invention will be described in detail with reference to the accompanying drawings.

Solid materials such as high viscosity sludge, domestic sewage, sludge, etc. are packed in the lower end of the drive shaft 13 rotatably installed inside the case 12 directly under the motor 11 mounted on the bracket 10 installed at a predetermined depth from the ground. (14) (15) is detachably mounted to the impeller 20, which is immersed in the water surface by the corrosion-resistant, wear-resistant bolt 10 to protect the corrosion, but the suction port 21 in the center of the bottom surface of the impeller 20 ) Is formed downward and the outlet 22 of the long hole shape is formed on one side of the upper edge, the spiral suction and discharge passage 23 for generating a vortex when the inlet 21 and the outlet 22 rotate the impeller 20 The outlet 22 is formed so as to be in opposite directions with the turning portion 26, which is a boundary of the suction and discharge passages 23 and 25, at 180 °, and is connected to each other as 24, and the impeller 20 Several curved wings 25 protrude from the upper surface of the It will be generated.

Then, the driving weight 13 of the motor 11 driving the impeller 20 is extended in multiple stages using several couplings 17 so as to raise the head of the pump, and the case 18 at the upper end thereof. It is a matter of course that the impeller 30 for discharging by switching the direction of the flow rate in the perpendicular direction can be modified so as to be driven by the drive shaft 32 by a separate motor 31.

Referring to the operation of the pump device for high viscosity sludge and solids according to the present invention configured as described above, a tank formed at a predetermined depth from the ground to temporarily accumulate high viscosity sludge, domestic sewage and sludge by various wastewater in the industrial site When discharge of waste water from the wastewater is required, driving of the motor 11 mounted on the bracket 10 installed above the tank as shown in detail in FIGS. 2A and 2B is a lateral and longitudinal cross-sectional view of the impeller. As a result, the drive shaft 13 installed directly below the motor 11 rotates, thereby discharging various wastewater by the impeller 20 immersed in the water surface rotating in the same direction as the drive shaft 13. In the fluid, such as waste water passes through the suction port 21 formed on the bottom of the impeller 20 and moves in the direction of the arrow A is sucked into the suction passage 23, wherein the fluid is spiral In the turning section 26, which is the boundary between the suction passage 23 and the discharge passage 24, vortices are generated in the fluid at the same time, and the changed vortex fluid moves in the direction of arrow B and is discharged. Through the passage 24 is discharged upward through the outlet 22 of the long hole, by the curved wing portion 25 formed on the upper surface of the impeller 20 fluid is continuously moved upward in the vortex state To lose.

On the other hand, as shown in Figure 4 the pump device according to the present invention is a separate motor installed in communication with the case 18 of the upper end in a direction perpendicular to the drive shaft 13 of the motor 11 installed in a multi-stage type in the vertical direction It is possible to discharge a large amount of fluid by changing the direction of the fluid by the impeller 30 by the drive shaft 32 of (31).

As described above, the pump device for discharging the fluid, such as high viscosity sludge according to the present invention, when the impeller rotates by a spiral suction / discharge passage communicating the inlet and outlet of the impeller separated from the motor directly below the motor installed on the ground. Vortex forms in the fluid and is discharged so that wastewater containing high viscosity sludge, solids, etc. can be easily discharged even at high head (10 ~ 15m from the surface) and the drive shaft of the motor that drives the impeller using several couplings. By forming a multi-stage extension, it has the advantage that it can be used critically in flooded areas during the rainy season.

Claims (2)

In forming a pump device for discharging solid matter such as high viscosity sludge, domestic sewage and sludge from a waste water storage tank formed at a predetermined depth from the ground, the motor 11 is mounted on a bracket 10 installed on the ground. In this way, the drive shaft 13 driven by this is rotatably installed inside the case 12 having the hollow portion, but the impeller 20 is detachably mounted on the lower end of the drive shaft 13, and the impeller 20 is installed. The inlet 21 is formed at the center of the bottom surface of the inlet 22, and the outlet 22 is formed at each side of the upper surface so as to communicate with the spiral suction and discharge passages 23 and 24 causing vortices when the impeller 20 rotates. A pump device for high viscosity sludge and solids, characterized in that a plurality of wings (25) protruding on the upper surface of the (20). The pump apparatus for high viscosity sludge and solids according to claim 1, characterized in that the drive shaft (13) of the motor (11) for driving the impeller (20) is connected by at least one coupling (17).