KR102227094B1 - Solid-liquid separator - Google Patents

Abstract

The present invention relates to a solid-liquid separator including: a housing having an inlet provided in one side thereof to introduce raw water and an outlet provided in an opposite side thereof to discharge a solid content which is separated; a filtering unit including a plurality of filtering sands, dividing the housing into an upper portion and a lower portion, having a gradient inclined downward in a direction from the inlet to the outlet, filtering out the solid content from the raw water dropped from the inlet, and discharging moisture to a lower portion thereof; and a flowing unit including a plurality of rotational shafts interworking with each other while rotating under the filtering unit, and a plurality of rotating plates mounted in parallel to the rotational shafts, respectively, in which some of the rotating plates are exposed above the filtering unit to allow the solid content to flow in one direction.

Description

Solid-liquid separator

The present invention relates to a solid-liquid separation device that improves the separation efficiency of solids from raw water.

In general, organic wastes such as sewage and domestic sewage, including livestock manure, contain a large amount of organic substances, and microorganisms that consume nutrients from such organic substances live and proliferate in large quantities. Sludge is a mass that is a mixture of solids and moisture by lumping together with substances. These organic wastes are composed of high-concentration organic matter, and if discharged without going through a separate treatment process, rivers and lakes are contaminated. In particular, it contains a large amount of nitrogen and phosphorus, causing eutrophication in the water system, making it impossible to use river water such as drinking water as well as agricultural water.

In addition, such organic waste may cause various problems such as a load of equipment, devices, etc. due to a high content of organic matter during purification treatment, or failure due to clogging of a pipe.

Republic of Korea Utility Model Registration No. 0185060

The present invention was invented to solve the problems of the prior art as described above, and is to provide a solid-liquid separation device that can be applied to the pretreatment of wastewater and the like under a high content of organic matter such as livestock manure, etc. .

A solid-liquid separation device (hereinafter referred to as "the device of the present invention") according to the present invention for achieving the above object comprises: a housing having an inlet through which raw water flows into one side and an outlet through which separated solids are discharged on the other side; A filtering unit comprising a plurality of filter yarns dividing the housing up and down, forming a downward inclined gradient from the inlet to the outlet, filtering solids from the raw water dropped from the inlet and draining the moisture to the lower side; A flow unit including a plurality of rotational shafts that rotate from the bottom of the filter unit, and an elliptical rotating plate that is mounted in parallel with each of the rotational axes in a plurality of rotations, and a part of the rotational connection box is exposed to the top of the filtering unit to flow solids in one direction. It characterized in that it includes;

As an example, a filter plate having a plurality of through-holes is attached to the lower surface of the filter part, and a second rotary shaft that rotates interlocking with the upper part of the filter part on which the filter plate is formed, and a plurality of the second rotary shafts are mounted to allow solids to flow in one direction. It is characterized in that it further comprises a pressure incision unit consisting of blades made of elastic material that pressurizes and cuts the solid content.

As an example, a pair of pressing protrusions protruding from both sides of the filter plate and protruding above the filtering unit are formed, and the pressing protrusions are formed in a shape whose width is narrowed toward the center of the filtering unit.

As an example, the filter yarn is composed of carbon fiber yarn, and the filter unit is characterized in that heat is generated by the application of power.

As described above, the apparatus of the present invention has the advantage of preventing clogging and load at the rear stage by being applied to the pretreatment of wastewater with high organic matter content such as livestock manure due to high solid separation efficiency.

1 is a schematic diagram showing a basic example of the present invention,
2 and 3 are detailed views showing a filter unit, a rotating shaft, and a rotating plate in the present invention,
Figure 4 is a schematic diagram showing the operating state of the pressure incision unit in one configuration of the present invention,
5 is an operational state diagram of another embodiment of the present invention.

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

The apparatus 1 of the present invention includes a housing 2 having an inlet 21 through which raw water flows into one side and an outlet 22 through which separated solids are discharged as shown in FIG. 1 and the like; A plurality of dividing the housing 2 up and down, forming a downward inclined gradient from the inlet 21 to the outlet, filtering solids from the raw water dropped from the inlet 21, and draining moisture to the bottom. The filter unit 3 made of the filter yarn 31; A plurality of rotation shafts 41 that rotate from the bottom of the filtering unit 3 and a plurality of rotational shafts 41 are mounted parallel to each other, and a part of the filter unit 3 is exposed to the top of the filter unit 3 so that the solid content is It characterized in that it comprises a; flow portion (4) including an oval rotating plate 42 to flow in one direction.

The apparatus 1 of the present invention includes a housing 2, a filtration unit 3, and a flow unit 4 as shown in FIG. An inlet 21 and an outlet 22 are provided on the other side of the filter unit 3 to allow the solid content separated from water to be discharged to the outside.

As shown in FIG. 1, the filtering unit 3 is configured to partition the interior of the housing 2 up and down, and the solid content S is disposed above the filtering unit 3 by the rotating plate 42 and the outlet ( It is to flow to 22), and to allow moisture to fall and be stored under the filter unit (3).

The filtering unit 3 is configured such that a plurality of filter yarns 31 are arranged in parallel in one direction, and the type of each fiber yarn 31 is not limited, but aramid having high tensile strength and high toughness may be used. In particular, in the present invention, the carbon fiber yarn may be applied as the fiber yarn 31 as described below.

In the present invention, the reason for using the filter unit 3 in which the plurality of filter threads 31 are arranged in one direction is as shown in FIG. ) To rotate, but even if the gap between the filter yarns 31 is tight, the filter yarn 31 has a material of high tensile strength and high toughness, so that the rotation plate 42 can be rotated with a portion of the rotation plate 42 posted. This is to ensure that solids can be sufficiently separated from raw water. That is, in the filtration unit 3 of the present invention, in the gap between the filter threads 31, the gap in the portion where the rotating plate 42 is not placed is greater than the gap in the portion where the rotating plate 42 is placed, as shown in FIG. By making the gap between the filter yarns 31 small by making it smaller, it is possible to control as much as possible that the solid content falls to the lower portion of the filter section 3 with moisture. In other words, even if the rotating plate 42 is placed between the filter threads 31 and rotates, the gap between the filter threads 31 on which the rotating plate 42 is placed changes, the gap of the filter threads 31 where the rotating plate 42 is not placed is It is to maximize the solid content separation efficiency by keeping it continuously.

The rotation shaft 41 forms a certain clearance under the filter unit 3 and is composed of a plurality of pieces, but is not shown in the drawing, but must be integrally rotated by a driving source such as a motor. In addition, in the case of the second rotation shaft 61 described below, it may be integrally rotated by a driving source such as a motor.

The rotation plate 42 forms a constant clearance on the rotation shaft 41 and is composed of a plurality in parallel, and is disposed on the rotation shaft 41, so that the long axis 421 of the rotation plate 42 is adjacent as shown in FIG. Moisture is removed from the top of the filtering unit 3 by rotating the rotating plate 42, which is placed in parallel with the minor axis 422 of the rotating plate 42 so that the long axis 421 is erected in a position orthogonal to the filtering unit 3 This is to allow the solid content to flow in the direction of the discharge port 22, and the rotary plate 42 with the long axis 421 laid in a position parallel to the filter unit 3 rotates, so that the filter yarn ( 31) The solid content deposited in the gap is to be discharged to the top of the filter section (3).

On the other hand, if the separated solid content is large due to flocculation, it is not easy to separate the moisture inside, and the moisture contained in this way is not shown in the drawing, but it causes a load on the solid content dehydration device at the rear end, etc. May cause problems.

In order to solve this problem, in the present invention, a filter plate 5 having a plurality of through holes 51 formed on a lower surface thereof is attached to a part of the filter part 3 as shown in FIG. 1 and the like, and the filter plate 5 is formed. A second rotation shaft 61 that rotates from the top of the filter unit 3, and a plurality of elastic blades that are mounted on the second rotation shaft 61 to pressurize and cut solids while allowing the solids to flow in one direction. ) To be further included.

That is, the solid content flowing by the inclined gradient of the filter unit 3 and the rotation of the rotary plate 42 flows to the filter unit 3 attached to the lower surface of the filter plate 5, and at this position, the pressurized incision unit 6 By not only allowing the solids to flow, but also preventing the formation of flocks by cutting the solids and pressurizing the solids to further increase the dehydration efficiency.

As shown in Fig. 4 in the filter unit 3 with the filter plate 5 attached to the lower surface of the elastic wing 62, the pressure (F) is applied to the cut mass at the same time to further increase the dehydration efficiency. It is to do. The reason why the wing 62 is made of an elastic material is to control that the separated solid content becomes stuck when there is rigidity such as stones.

In addition, the present invention further proposes an embodiment as shown in FIG. 5 in order to further increase the dehydration efficiency.

In this embodiment, a pair of pressing protrusions 54 protruding from both sides of the filter plate 5 and protruding upwards of the filtering unit 3 are formed, and the pressing protrusions 54 are formed in the center direction of the filtering unit 3 As a result, an example in which the width is narrowed is presented.

As shown in the drawing, the filtering plate 5 has a smoothing plate 52 having a through hole 51 formed on the lower surface of the filtering part 3, and a support 53 is formed on both sides of the smoothing plate 52, The support 53 is posted between the filter thread 31 of the filter unit 3, and a pressure protrusion 54 exposed to the filter unit 3 is formed at the upper end of the support unit 53. The pressurization protrusion 54 The filter unit 3 is configured in a shape whose width is narrowed in the center direction so that the inclined surfaces 541 are formed at the portions in contact with the lower end of the blades 62, respectively.

As the inclined surface 541 is formed in this way, both sides of the lower end of the blade 62 passing through the pressing protrusion 54 are bent by the inclined surface 541 to pressurize the solid content posted therebetween, thereby doubling the water dehydration efficiency. In this way, the blade 62 passing through the pressing protrusion 54 is restored to a circular shape based on the elastic material.

In addition, in the present invention, the filter yarn 31 may be made of carbon fiber yarn, and the filter unit 3 may be configured to generate heat by applying the power source 7 by a known structure. The reason why heat is applied to the filtration unit 3 as described above is to reduce the viscosity when the organic matter content is high so that the organic matter can be easily separated. In other words, it is to increase the separation efficiency of solids.

Various known structures may be applied to the structure in which power is applied to the filtration unit 3 made of carbon fiber to generate heat, and a detailed description thereof will be omitted.

As described above, although the present invention has been described by a limited embodiment and drawings, the present invention is not limited to the above embodiment, as well as from the above description by a person having ordinary technical knowledge in the field to which the present invention belongs. Of course, various modifications and variations may be possible.

1: device of the present invention 2: housing
3: filter unit 4: flow unit

Claims (4)

A housing having an inlet through which raw water flows into one side and an outlet through which separated solids are discharged on the other side;
A filtering unit comprising a plurality of filter yarns that divide the housing up and down, form a downward inclined gradient from the inlet to the outlet, filter solids from the raw water dropped from the inlet, and discharge moisture to the bottom;
A flow unit including a plurality of rotational shafts that rotate from the bottom of the filter unit, and an elliptical rotating plate that is mounted in parallel with each of the rotational axes in a plurality of rotations, and a part of the rotational connection box is exposed to the top of the filtering unit to flow solids in one direction. Including ;,
A filter plate having a plurality of through-holes is attached to a portion of the filter unit, and a second rotary shaft that rotates at the top of the filter unit on which the filter plate is formed, and a plurality of the second rotary shafts are mounted to allow solids to flow in one direction while allowing solids to flow in one direction. Solid-liquid separation device, characterized in that it further comprises a pressure cutout consisting of a blade of an elastic material to pressurize and cut.
delete The method of claim 1,
A pair of pressing protrusions protruding from both sides of the filter plate and protruding above the filtration unit are formed, wherein the pressing protrusions are formed in a shape whose width is narrowed toward the center of the filtration unit.
The method of claim 1,
The filter yarn is made of carbon fiber yarn, and the filter unit is a solid-liquid separation device, characterized in that heat generated by the application of power.

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