KR102204812B1 - Solid-liquid separator using centrifugal force - Google Patents

Abstract

The present invention is a reaction tank having a raw water inlet line formed on one side, a treated water discharge line formed on an upper side, a solid collection space formed in a shape with a larger diameter at the top, and a diameter narrowing in a downward direction; It relates to a solid-liquid separation apparatus using a centrifugal force comprising; an impeller formed in the reaction tank to apply a centrifugal force to the raw water introduced therein.

Description

Solid-liquid separator using centrifugal force}

The present invention relates to a solid-liquid separation device configured with a simple mechanical structure to reduce maintenance and management costs, and to improve the efficiency of solid-liquid separation by centrifugal force.

In general, livestock wastewater is high-concentration organic wastewater, so if livestock wastewater is discharged into a river for convenience in small-scale livestock farms, the BOD and COD of the river increase rapidly, resulting in serious eutrophication.This is not only the destruction of the river ecosystem, but also the direct As a pollutant, it may cause frequent green algae and odor due to the influence of nitrogen and phosphorus.

However, since most of the proposed livestock wastewater treatment technology has been developed mainly for large-scale treatment plants, small-scale small farms sometimes discharge livestock wastewater as it is in rivers due to poor economic and efficiency.

In order to improve such waste, recently, a method and apparatus for making compost by mixing pig wastewater with sawdust has been actively recommended, but it is difficult to obtain sawdust, which is a moisture control agent, and also shows a tendency to decrease economic efficiency due to high facility and operating costs of composting equipment. .

In addition, it takes a long time for the sawdust to ferment and decompose, and a large space is required to stack this compost, which puts a heavy burden on the farmers.

As such, the treatment method or treatment device (composting device) known so far for livestock wastewater is difficult for farmers to use because the facility cost and operating cost are high, and the usage is also complicated.

Republic of Korea Utility Model Registration No. 0185060

The present invention is conceived to solve the above problems, and is composed of a simple mechanical structure to reduce maintenance and management costs, and a solid-liquid separation device capable of increasing the utility of solid fertilizers by increasing the efficiency of solid-liquid separation by centrifugal force. It is intended to provide.

The solid-liquid separation device using the centrifugal force of the present invention to achieve the above object (hereinafter referred to as "the device of the present invention") has a raw water inlet line formed on one side, a treated water discharge line formed on the upper side, and a solid state with a larger diameter at the top. A reaction tank having a shape of forming a collection space and narrowing the diameter downward; It characterized in that it comprises a; impeller that is formed in the reaction tank to apply a centrifugal force to the introduced raw water.

As an example, a solid-state discharge line communicating at the bottom of the solid-state collection space is formed, and a pressure tube is formed that communicates with the solid-state discharge line, and a screw is embedded therein to make a cake of the introduced solid state, and the pressure pipe is formed at one side of the pressure pipe. It characterized in that it includes a drainage discharge line communicating with one side of the reaction tank.

As an example, the solid-state collection space is characterized in that the width increases in a direction in which the solid-state discharge line is formed.

As an example, the impeller has a body whose upper and lower surfaces are open and narrow in diameter in a downward direction, a plurality of flow holes formed in the upper and lower directions of the body, and an inclined gradient formed on one side of the flow hole, and It characterized in that it comprises a striking end protruding into.

As an example, a solid discharge line communicating from the side of the solid collecting space is formed, rotating interlocking at the upper end of the reaction tank, radially extending from the center to the solid collecting space, and configured at the ends of the blade It characterized in that it comprises an opening and closing opening for opening and closing the solid-phase discharge line by rotational interlocking of the blades.

As an example, the opening and closing hole is characterized in that a tapered portion having a narrower diameter is formed at the blade and the connecting portion, and a space is formed between the upper and lower surfaces of the solid collecting space and the tapered portion to form a flow path.

Therefore, the apparatus of the present invention has the advantage of being able to reduce maintenance and management costs by having a simple mechanical structure, and increasing the efficiency of solid-liquid separation by using centrifugal force to increase the utilization of the solid phase.

1 is a side cross-sectional view showing an embodiment of the present invention,
2 is a plan view of the embodiment shown in FIG. 1,
3 is an operating state diagram showing another embodiment of the impeller in the embodiment shown in FIG. 1,
Figure 4 shows another embodiment of the present invention?? It is a side sectional view,
5 is a plan view showing an operating state of the embodiment shown in FIG. 4.

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

The apparatus of the present invention is not limited to its use, but is an apparatus for receiving, for example, a solid-liquid separation process for sewage and wastewater containing solids that have been subjected to a pre-treatment process.

That is, the wastewater in which the solid and liquid phases are mixed, such as livestock, is first purified by a physical or chemical method, and the purified wastewater is delivered to the apparatus of the present invention to perform a solid-liquid separation process.

In the apparatus 1 of the present invention, a raw water inlet line 21 is formed on one side, and a treated water discharge line 22 is formed on the upper side, and a solid collecting space 23 is formed in a shape with a larger diameter at the top. The reaction tank 2 of the shape narrowing in diameter; It characterized in that it comprises a; is formed in the reaction tank (2), an impeller (3) for acting centrifugal force on the introduced raw water.

That is, in the present invention, the solid phase and the liquid phase are separated from the raw water by imposing a centrifugal force on the raw water introduced from the reaction tank 2, and the solid phase increases in diameter while flowing outward from the reaction tank 2 by centrifugal force to form a jaw. It is to be collected in the collection space 23 and the liquid phase is discharged to the outside so that solid-liquid separation is achieved.

As shown in FIG. 1, the reaction tank 2 has a shape of narrowing in diameter from the top to the bottom so that raw water flows into the reaction tank 2 through a raw water inlet line 21 formed at one side of the lower end.

The raw water introduced in this way is subjected to a centrifugal force by the impeller 3 interlocked with rotation in the reaction tank 2 and flows upward while interlocking with rotation. In this process, the solid phase and the liquid phase are separated from the raw water.

The separated solid phase rotates along the inner periphery of the reaction tank 2 and upwards and is collected in the solid collection space 23 formed at the top of the reaction tank 2, and the liquid phase is rotated upward and discharges the treated water. It is discharged through line 22.

The impeller 3 is configured inside the reaction tank 2 and is connected to a motor to perform rotational interlocking, although the reference number is not shown.

In the solid-state collection space 23, a solid-state discharge line 24 communicating from the lower surface is formed. In the case of the solid state collected in the solid state collection space 23, the solid state is also rotated by centrifugal force. It is to be discharged to the discharge line 24.

The solid-state collection space 23 is characterized in that the width increases in a direction in which the solid-state discharge line 24 is formed, as shown in FIG. 2. That is, as shown in FIG. 2, the width d1 of the solid-state collection space 23 adjacent to the solid-state discharge line 24 is larger than the width d2 of the solid-state collection space 23 spaced apart from the solid-state discharge line 24. It is composed. By this configuration, the solid phase flowing into the solid phase collection space 23 is smoothly discharged to the solid phase discharge line 24 while being rotated by centrifugal force in the solid phase collection space 23.

At the bottom of the solid discharge line 24, as shown in FIG. 1, a pressurizing pipe 4 is formed that communicates with the solid discharge line 24 and has a screw 41 therein to make a cake of the introduced solid.

In the case of the screw 41, although the reference number is not shown, it is connected to a motor to enable rotational interlocking.

In the pressurization pipe 4, the solid phase is pressurized while flowing downward by rotational interlocking of the screw 41 to form a cake, and the caked solid phase is discharged to the outside through the cake discharge line 43.

In addition, in the case of drainage generated in the process of making a solid cake in the pressurizing pipe 4, the reaction tank through a drain discharge line 42 communicating with one side of the reaction tank 2 upward from one side of the pressure pipe 4 It is to be circulated to (2) so that the solid-liquid separation process mentioned above is performed again.

In this way, the use of fertilizers and the like can be improved by allowing the solid phase with a high liquid phase removal rate to be caked and discharged.

In addition, in the present invention, the impeller 3a of an embodiment different from that of FIG. 1 is presented in FIG. 3.

The impeller (3a) of the present embodiment has a body (31) whose upper and lower surfaces are opened and a diameter is narrowed in a downward direction, a flow hole (33) formed in plurality in the upper and lower directions of the body (31), and the It is characterized in that it comprises a striking end 32 protruding outward and forming an inclined gradient on one side of the flow hole 33.

In the case of the body 31, although the reference number is not shown, it is connected by a motor to perform rotational interlocking. Although not shown in the drawing, a support is formed on the lower surface of the body 31, and a motor is connected by the support and the rotational shaft, so that the driving force from the motor is transmitted to the rotational shaft and the support, so that rotational interlocking is possible.

The flow hole 33 is configured to be formed in a plurality of upper and lower directions of the body 31 and is configured to allow a solid phase and a liquid phase to flow into and out of the body 31.

The striking end 32 forms an inclined gradient on one side of the flow hole 33 and protrudes outward. As shown in FIG. 3, the inclined gradient is formed in a direction opposite to the rotational direction of the body 31 By hitting the raw water in the direction of the inner circumference of the reaction tank 2 according to the rotation of (31), the solid phase and the liquid phase are easily separated from the raw water, and at the same time, the solid phase is induced in the direction of the inner circumference of the reaction tank 2.

That is, by the configuration of the striking end 32, while increasing the separation efficiency of the solid phase from the raw water, the induction to the outside by the centrifugal force of the solid phase is made more efficient.

When explaining the operation mechanism of the impeller 3a having such a configuration, the raw water (w) introduced into the reaction tank 2 through the raw water inlet line 21 is inside and outside the body 31 as shown in FIG. Is induced by

In the raw water (w) guided to the outside, the solid phase is separated from the raw water (w) by the configuration of the striking end (32) mentioned above so that the solid phase is guided in the direction of the inner circumference of the reaction tank (2), and the raw water ( In the case of w), the separated solid phase having a relatively large specific gravity is discharged to the outside of the body 31 through the flow hole 33 because centrifugal force is applied by rotational interlocking of the body 31, and the separated solid phase having a relatively small specific gravity The silver is discharged to the opened upper end of the body 31 to be guided to the solid collection space 23 while performing rotational interlocking.

As mentioned above, in the case of the impeller 3 shown in FIG. 1 at the inner periphery of the reaction tank 2, that is, a part spaced from the center of the reaction tank 2, the centrifugal force is reduced and the raw water To solve the problem that the separation efficiency of the solid phase can be reduced in the body 31, the centrifugal force is applied to the raw water inside the body 31, while the impact and the centrifugal force are exerted by the striking end 32 from the outside of the body 31. This is to further double the separation efficiency of.

As mentioned above, the solid phase separated by the centrifugal force is collected into the solid state collecting space 23 and rotated in the solid state collecting space 23 by the centrifugal force so that it is discharged to the solid state discharge line 24. If the discharge is not smooth with 24), there may be a problem that the collected solid is deposited in the solid collection space 23 or is discharged back to the reaction tank 2.

Accordingly, in the present invention, as shown in Figs. 4 and 5, a plurality of blades 5 and the blades 5 and the blades 5 and the blades 5 are rotated from the upper end of the reaction tank 2 and extend radially from the center to the solid collection space 23. 5) It presents an example in which an opening and closing opening 6 configured at the end to open and close the solid discharge line 24 by rotational interlocking of the blade teeth 5 is further included.

As shown in the drawing, the blade teeth 5 for rotational interlocking by a motor (not shown in the drawing number) and the opening and closing opening 6 formed at the ends of the blade teeth 5 and having a pentagonal shape are configured. The solid state collected in the solid state collecting space 23 is guided to the solid state discharge line 24 by rotational interlocking in the solid state collecting space 23 of the opening and closing opening 6, and the solid state is continuously discharged to the solid state discharge line 24. By doing so, as mentioned above, the problem that the solid phase is deposited in the solid phase collection space 23 or is discharged back to the reaction tank 2 can be controlled.

More preferably, as shown in FIG. 5, the opening 6 has a tapered portion 61 having a narrower diameter at the connecting portion with the wing ribs 5, so that the upper and lower surfaces of the solid collecting space 23 It is reasonable that a gap is formed between the tapered portions 61 to form a flow path 7.

The reason why the flow path 7 is formed in this way is to form a solid bed (S1) flowing in the rotational direction by the opening and closing port 6 and a solid bed (S2) flowing in the opposite direction of rotation through the flow path (7). In the process of discharging the solid phase from the solid phase collection space 23 to the solid phase discharge line 24 through the opening and closing opening 6, it is possible to solve the problem that it is not easy to discharge to the solid phase discharge line 24 due to bulking by cohesion between solid phases. will be.

That is, a solid bed S1 flowing in the rotational direction by the opening 6 and a solid bed S2 flowing in the opposite rotational direction through the flow path 7 are formed to prevent bulking between solids. In addition, by forming such a flow of the solid phase, the solid phase has a longer residence time in the solid phase collecting space 23, thereby further increasing the separation efficiency of the liquid phase contained in the solid phase.

It will be appreciated by those skilled in the art through the above description that various changes and modifications can be made without departing from the technical idea of the present invention. Therefore, the technical scope of the present invention is not limited to the contents described in the detailed description of the specification, but should be determined by the claims.

1: apparatus of the present invention 2: reaction tank
3: impeller 4: pressure pipe
5: wing blade 6: opening

Claims (6)

A reaction tank having a raw water inlet line formed on one side, a treated water discharge line formed on an upper side, a solid-state collection space formed in a shape with a larger diameter at the top, and a diameter narrowing in a downward direction;
Includes; an impeller that is formed in the reaction tank and applies a centrifugal force to the introduced raw water,
A solid-state discharge line communicating from the side of the solid-state collection space is formed, rotationally interlocking at the upper end of the reaction tank, and a plurality of wings extending radially from the center to the solid-state collection space, and a rotation of the wing An opening and closing opening for opening and closing the solid discharge line by interlocking is included,
The opening and closing hole is a solid-liquid separation device using a centrifugal force, characterized in that a tapered portion having a narrow diameter is formed at the connecting portion of the wing and a space between the upper and lower surfaces of the solid collecting space and the tapered portion to form a flow path.
The method of claim 1,
A solid-state discharge line communicating at the bottom of the solid-state collection space is formed, and a pressurizing tube is formed to form a cake of the solid state that has been introduced into the solid-state discharge line and communicates with the solid-state discharge line, and one side of the reaction tank from one side of the pressure tube Solid-liquid separation device using a centrifugal force, characterized in that it includes a drainage discharge line communicating with.
The method of claim 2,
The solid-liquid separation device using a centrifugal force, characterized in that the width of the solid-state collection space increases in a direction in which the solid-state discharge line is formed.
The method of claim 2,
The impeller,
It includes a body whose upper and lower surfaces are opened and narrow in diameter in a downward direction, a plurality of flow holes formed in the upper and lower directions of the body, and a striking end that forms an inclined gradient on one side of the flow hole and protrudes outward. Solid-liquid separation device using a centrifugal force, characterized in that. delete delete

Images