KR20000019476A - Sand washer - Google Patents

Abstract

PURPOSE: A washer of sand is provided to give the maximum shock to the sand, and to obtain the best washed sand by agitating the sand fallen from the upside of a tank until the sand is accumulated from the upside of the tank to the bottom by forming many agitating furnaces horizontally and vertically to differ floating materials from the sand collected floating materials with a strong passive method. CONSTITUTION: A washer of sand re-inputs the washed sand by comprising of: an inlet(14) formed in the side or the upside of a cylindrical tank(11); a rotating shaft formed from the upside of the tank(11) to the inner lower side; many horizontal agitating furnaces(13) formed to be crossed each other from the upside to the lower side of the rotating shaft; many vertical agitating furnaces formed in the lower part of the tank to increase the agitating effect; an injecting device of washing water formed to wash the falling sand in the lower part of the vertical agitating furnace; and a screw conveyer(22) to transfer the sand finished the washing in the lower part of the injecting device.

Description

Sand washer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sand washer, and more particularly, to a washing machine for reusing sand by administering sand to waste water and process water, and removing suspended matter collected in the sand.

In order to remove suspended solids from waste water and process water, sand is injected to collect the suspended solids, and the same purpose machines that reuse sand by removing suspended solids from sand by gravity or impact method during movement However, since the degree of adhesion varies depending on the nature of the waste water and the floating water of the process water, it is difficult to expect a good effect uniformly any one machine.

The present invention constitutes a stirring furnace in a tank in order to change the floating material in a very strong active method in the sand collecting the suspended solids, and by rotating the stirring furnace to impact the sand, a plurality of stirring furnaces up and down The purpose is to form sand horizontally and vertically and agitate until the sand descending from the top of the tank accumulates from the top of the tank to the bottom to give the sand maximum impact and to obtain the best cleaned sand.

A wastewater inlet is formed on the side to the top of the tank, and a rotating shaft fixed up and down is fixed to the inner center of the washer, and a plurality of horizontal stirring furnaces are alternately formed between the top and the bottom of the rotating shaft by the length of the rotating shaft. The stirring furnace is formed to be bent along the direction of rotation, that is, slightly bent in the opposite direction to the direction of rotation, so that the resistance to water flow is less, and the first stirring furnace and the next fixed furnace are fixed to each other to form a plane. A plurality of stirring furnaces are configured as formed at narrow intervals from each other. In addition, a circular plate is formed at the bottom of the horizontal stirring furnace, and the plate is formed into a frame so that the sand falling from above can reach the bottom of the tank without great interference. The plate forms a plurality of vertical stirring furnaces along the circular plate at the bottom thereof, and a plurality of circles having vertical stirring furnaces formed therein. In addition, to form a vertical protrusion bar in the same way as the configuration of the circular vertical stirring furnace formed on the plate on the bottom of the tank, it is necessary to change the position of the vertical protrusion bar in the circular line so as not to collide with each other during the rotation of the rotary stirring furnace. The rotational speed of the stirring furnace is configured to be able to adjust the rotation in accordance with the properties of the material trapped in the sand, and constitutes an injector of the washing water that can wash the sand when the stirred sand from the plate bottom descends to the butler portion, The intensity of the injection is configured to be adjustable according to the water pressure.

1 is a plan view of the present invention

2 is a front view of the projection of the present invention.

3 is a plan view of the entire process;

4 is a front view of the entire process.

{Description of Signs for Main Parts of Drawings}

11 tank 12 rotation axis

13: horizontal stirring furnace 14: inlet

15: exit 16: vertical stirring furnace

17 vertical protrusion rod 18 plate

19: shovel 20: mesh ladle

21: reducer 22: screw conveyor

23: injector 24: butler

25: support

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

The present invention is a vertical protrusion rod formed on the bottom surface of the tank 11 and the rotary shaft 12 for supporting the reducer 21 and the horizontal stirring furnace 13 and the vertical stirring furnace 16 to adjust the rotational speed of the rotary shaft 12 (17) and the support 25 for adjusting the position of the tank 11, the washing water injector 23 for washing the descending sand, the butler portion 24 to accumulate the washed sand and the screw for transporting the washed sand It is characterized by consisting of a conveyor (22).

FIG. 2 is intended to illustrate the inside of the tank 11, and FIG. 1 is intended to depict the inside of the tank 11 in a plan view.

The tank 11 is formed in a cylindrical shape, and the upper portion of the tank 11 is formed like a speed reducer 21, and raw water (waste water and sand collected with waste water and process water) is disposed on any part of the side and part of the upper portion of the tank `11. The inlet 14 is formed so that the inlet 14 can be used by selecting it according to the installation position and environment of the tank 11, and also discharged water (waste and process water mixed with a float) on one side of the upper side. The exit 15 is formed in the same manner as shown in Figure 2, the bottom of the tank 11 is formed with a support 25 and the butler 24 to support the tank 11 and adjust the position The inner shaft of the tank 11 is formed with a rotating shaft 12 and the upper portion of the rotating shaft 12 is formed to protrude to the outside of the tank 11 to be connected to the power of the reducer 21, the lower portion of the rotating shaft 12 Is rotatably fixed to the bottom surface of the tank (11). A plurality of horizontal stirring furnaces 13 are formed in a plurality of layers or more on the length of the rotating shaft 12, and the horizontal stirring furnaces 13 are alternately configured. A plurality of circular plates 18 formed of frames are formed at the bottom of the horizontal stirring furnace 13, and a plurality of vertical stirring furnaces 16 are formed around the circular plates 18. In addition, the bottom surface of the tank 11 is formed with a plurality of circles having a diameter different from the circular plate 18, which is the vertical stirring furnace 16, a plurality of vertical protrusions 17 are formed on the circumference of each circle and the tank At the bottom of the (11) is formed a butler portion 24, the sand is accumulated on the bottom surface of the tank 11, the injector 23 is adjusted to the injection pressure in proportion to the water pressure for washing the sand on either side of the butler portion (24) Is formed, and the screw conveyor 22 associated with the butler 24 is installed in the same manner as shown in FIG. 4 to transfer the sand of the butler 24 to the red sand.

As an embodiment of the operation of the present invention when the raw water flows into the inlet port 14 formed in the upper portion of the tank 11 in the tank 11, the rotating shaft 12 associated with the power reducer 21 is rotated and shown in FIG. Stirring furnaces 13 and 16 formed on the rotating shaft 12 of the same shape as shown are also rotated in the same manner as shown in FIG. The stirring furnace (13, 16) is divided into a shape as shown in Figure 2 so that the horizontal stirring furnace 13 is formed in a plurality of horizontally on the rotating shaft 12 and the stirring furnace (13, 16) formed of a plurality Is composed of two to three layers, and the stirring furnaces 13 and 16 for each layer are alternately formed. When the stirring furnaces 13 and 16 formed as described above are viewed to have almost no space between the respective stirring furnaces 13 and 16, they are repeatedly impacted by the sand falling from above, so that the suspended matters collected in the sand are detached as much as possible. will be. When the sand detached from the horizontal stirring furnace 13 is stacked on the bottom surface of the tank 11, the vertical stirring furnace 16 configured at the bottom of the rotating shaft 12 is stirred and re-stirred, and the bottom surface of the tank 11 is further stirred. A plurality of vertical protrusion rods 17 are formed and fixed in the same shape and method as shown in FIG. 2, so that the vertical stirring furnace 16 interferes with the stirring sand, thereby increasing the effect of the vertical stirring furnace 16. After the stirring is carried out as described above, the floating matter desorbed from the sand floats on the surface and is discharged like the leachate, but in order to separate the floating matter more effectively, the mesh ladle 20 is formed on the rotating shaft 12 at the same height as the surface of the water. The float was to be removed. In addition, in order to effectively transfer the sand accumulated on the bottom surface of the tank 11 to the butler 24, the shovel 19 is formed in the same way as the vertical stirring furnace 16 on the plate 18 to form a stirring furnace 13 While rotating as shown in 16, sand of a predetermined height or more is transferred to the butler 24. The sand descending to the butler part 24 by the shovel 19 is the sand cleaned as much as possible by the washing water sprayed strongly by the injector 23. In addition, the screw portion 22 for conveying the sand accumulated in the butler 24, the butler portion 24 is configured as shown in Figure 1 is to transfer the washed and dehydrated sand to the red sand.

In order to separate the suspended substances in the waste water and the process water, sand is administered to the waste water and the process water to collect and remove the suspended matter, and the floating material of the cohesive waste water and the process water is collected. Since the strong impact is required to detach the suspended matter from a sand, the sand washer of the present invention obtains the maximum detachment of the suspended matter by giving the maximum impact by a stirring furnace composed of various shapes and a plurality.

Claims (2)

The rotating shaft 12 is driven by the reducer 21 in the longitudinal direction of the tank 11 in the center of the tank 11, the upper part of which is fixed in association with the reducer 21, and the lower part of which is pivotally fixed to the bottom of the tank 11. And, the high-pressure washing water injector 23 for cleaning the sand detached from the rotary shaft 12 and the screw conveyor 22 for transporting the butler 24 and the sand of the butler 24 to accumulate the washed sand to a red sand. Sand washer characterized in that consisting of. The rotating shaft 12 is circumferentially formed in a horizontal stirring furnace 13 formed of a plurality of layers and composed of a plurality of stirring furnaces, and a plurality of circular plates 18 formed below the rotating shaft 12. The butler part 24 is formed on the mesh scoop 20 and plate 18 formed at the height of the water surface on the vertical stirring furnace 16 and the rotating shaft 12 formed of a plurality of stirring furnaces to remove suspended matter. Sand washing machine, characterized in that consisting of a shovel (19).