KR200234700Y1 - Centrifugal Sand Washer - Google Patents

Abstract

The present invention relates to a centrifugal sand washer, and more particularly, to an apparatus for supplying sand on a rotating plate and dispersing it in the centrifugal direction to desorb suspended solids from sand and to impinge on the inner wall of the tank to complete the desorption. A tank consisting of a funnel is formed and a rotating shaft is formed to be fixedly rotated at a portion of the tank. The upper part of the rotating shaft is formed with a deceleration power, and below the power, a rotating plate on which a screw is formed is formed on the rotating shaft. The wall is formed at regular intervals from the edge of the rotating plate, and a screw conveyor is formed at the bottom of the tank and at one side of the tank. In addition, raw water (waste water and sand) inlets are formed in the upper part of the rotating plate, and discharge ports and air inlets for general wastewater (without sand and floats) are formed on the outer wall of the tank.

Description

Centrifugal sand washer

The present invention relates to a centrifugal sand washer, and more particularly, to an apparatus for supplying sand on a rotating plate and dispersing it in the centrifugal direction of the rotating plate to remove the suspended matter from the sand and impinge the sand on the inner wall of the tank to complete the detachment of the suspended matter.

In general, various methods of reuse of sand have been developed. However, in the present invention, various methods of reuse of sand have been developed. It is intended to meet the demand for convenience and cost saving effect that can be operated.

The tank of the present invention is formed in a funnel shape as a whole, and the upper part forms a fallopian tube consisting of a screw, and a rotating plate is formed at the lower part thereof, thereby forming the screw and the rotating plate of the fallopian tube on the same rotational axis, and dispersing raw water in the rotation of the rotational shaft. The purpose of the present invention is to obtain sand cleaned by colliding with the wall and detaching from the float, injecting air into the air inlet of the bottom of the tank, and causing the float to rise to the surface by buoyancy of the air bubbles.

The tank is configured in the shape of a cone (funnel) in order to facilitate the butler of the detached sand, and the end of the cone (funnel) is formed narrow to increase the effect of the butler. Since the air injection at the air inlet of the butt part injects air in a small area, the water pressure in the tank is considered so that the effect of the injection force can be large. Although the amount of settling sand can be increased by the rotational force of the rotating plate, the raw water can be scattered if the rotating force of the rotating plate becomes larger, so the maximum value of the rotating force is preferably in the range where the raw water does not scatter, that is, the rotation speed of 90 RPM, Since sand and floating matters are separated by collision with the wall pile, it is preferable to form a structure in which sand descends and floats flow into the wall pile when raw water collides with the pile. In addition, as described above, the suspended matter flowing into the walnut stack is discharged to a separate exit port.

1 is a cutaway perspective view of the present invention.

2 is a cross-sectional view of the present invention.

3 is a cross-sectional view of the rotating plate, fallopian tube and spiral pipe.

* Explanation of symbols for main parts of the drawings

11 tank 12 rotation axis

13: rotating plate 14: inlet

15: exit 16: air inlet

17: screw 18: screw conveyor

19: butler 20: support (a, b)

21: deceleration power 22: wall

23: outlet 25: fallopian tube

26: spiral pipe 27: groove

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and embodiments.

The present invention is a cone (funnel) -shaped tank (11) configured in reverse and the upper portion of the tank (11) is fixedly rotated to the rotary shaft 12 and the rotary shaft 12 is fixedly supported in conjunction with the reducer 21 of Dongrik Sand accumulated in the screw 17 and the rotating plate 13 of the bugle plate 25, the wall of the floating float 22, and the air inlet 16 and the butler portion 19 for supplying air for floating the descending floating material. It characterized in that it consists of a screw conveyor (18) for transferring to the red sand.

1 is to show the appearance of the present invention and a part of the interior, Figure 2 is to show the entire interior of the present invention, Figure 3 is to show the relationship between the configuration of the fallopian tube 25 and the rotary plate 13 It is.

The tank 11 is formed of an inverted cone (funnel), and the screw conveyor 18 is connected to the support 20a and the butler portion 19 of the tank 11, and is configured to be supported by the support 20b. The rotary shaft 12 is formed in the center of the tank 11 so that the upper portion of the screw 17 of the fallopian tube 25 is fixedly formed, and the rotating plate 13 is rotatably fixed in association with the uppermost part of the rotary shaft 12. Is configured to interlock with the power 21 having a deceleration function. The inlet 14 of the raw water is formed in the shape as shown in FIG. 1 at any point between the upper part of the tank 11 and the outer part of the tank 11, and the upper inlet 14 is formed at the upper part of the fallopian tube 25. The spiral pipe 26 is connected to the spiral pipe 25 is formed in connection with the spiral pipe 26 is connected to the fallopian tube 25 and the shape as shown in FIG. The rotation is formed through the rotating plate 13 and the rotating plate 13 and the dispersion is effectively achieved when passing through the rotating plate 13. As described above, the rotating plate 13 is formed in association with the fallopian tube 25 and is fixedly supported on the rotating shaft 12 and is formed to be inclined downward as shown in FIG. 3 so that the water flow is distributed downward in the centrifugal direction. Rotating plate 13 is connected to the fallopian tube 25 is configured to maintain a constant distance from the wall ledge 22 and the wall pit 22 also forms a gap with the outer wall of the tank 11 wall pit 22 and the outer wall The grooves 27 in which the floats over the wall are stored are formed in the shape as shown in FIG. 1 in the outer diameter direction of the tank. The wall of the wall 22 is bent inward to the inside of the tank 11 so that the raw water dispersed in the rotating plate 13 does not easily cross the wall of the wall (22) It is formed in the same shape. Suspensions and wastewater introduced into the walnut stack 22 are formed in conjunction with the groove 27 for discharging the discharge 15 separately, and below the discharge port 15 to discharge the wastewater inside the tank 11. Discharge port 23 is formed to be distinguished from the exit port (15). An air inlet 16 for injecting air into the tank 11 is formed to float the suspended matter contained in the waste water on the surface of the water, and the sand descending by the air injected from the air inlet 16 is separated from the float butler. It is accumulated in the unit 19. The tap part of the cone (funnel) of the butler 19 is configured so that the sand naturally gathers in one place. The butler portion 19 is integrally formed with the outside of the butler portion 19 and the screw of the screw conveyor 28 is associated with the inside of the butler portion 19.

In an embodiment of operation and action, the raw water introduced into the inlet 14 passes through a fallopian tube 25 formed with a spiral pipe 26 and a screw 17 shaped as shown in FIG. Is distributed to form a water flow in the same shape as shown in Figure 1 in the same direction as the rotating direction of the rotating plate (13). When the raw water is dispersed in the centrifugal direction, the sand collecting the suspended matter is also dispersed, but since the sand has a higher specific gravity than the water, the projected angle is different. That is, the time that the sand starts to rotate in the screw 17 of the fallopian tube 25 and is dispersed in the rotating plate 13 to reach the wall 22 is the arrival of sand faster. Therefore, since sand interferes with the flow of water in order to hit the wall 22, some of the suspended matter collected in the sand is detached, and the sand is separated from the suspended matter collected by the centrifugal force of the rotating plate 13. Since the raw water dispersed in the rotating plate 13 passes over the wall stack 22 by centrifugal force, the upper part of the wall stack 22 is bent inward so that sand does not cross the wall stack 22 by centrifugal force. Formed in the same shape as that made when most of the raw water hit the wall 22 is configured to diffract centripetally. Sand hitting the walnut stack 22 is crushed by the walnut stack 22 and floated and detached once more, and the water flows in the same direction as the rotational direction of the rotating plate 13, the surface of which continues. Since the floating over the wall 22 is suspended in the sand floating on the surface of the float floating on the surface is also beyond the wall. As described above, the suspended matter that has passed beyond the wall pile 22 is discharged to the exit port 15 formed separately, and the wastewater in which the sand is lowered is discharged to the discharge port 23. The air injected from the air inlet 16 formed in the lower part of the tank 11 allows to wash the falling sand and to float the float above the water surface.

The sand washer according to the present invention is a place for washing a small amount of sand or a wastewater purification facility with a weak adherence of suspended matter, and can be installed at a small place or at a low cost as a washer that can function as a small device. will be.

Claims (3)

In the outer diameter of the rotary shaft 12 and the rotary shaft 12 is formed in the center of the inlet of the tank 11 and the spiral pipe 26 and the spiral pipe 26 formed in a spiral in conjunction with the inlet 14 Centrifugal sand washer, characterized in that the rotary plate 13 is formed in association with the fallopian tube (25) and the fallopian tube (25). The centrifugal sand washer according to claim 1, wherein the fallopian tube (25) has a screw (17) formed therein. The centrifugal sand washer according to claim 1, characterized in that the tank (11) is formed to be bent inwardly with a wall of the upper wall.