KR101246792B1 - Apparatus for separating solid and liquid - Google Patents

Abstract

PURPOSE: A sludge separator is provided to make rotary plates transferring residues to become gradually narrow toward the direction to which the residues are transferred and to make the residues to be compressed on the upper part of the rotary plates. CONSTITUTION: A sludge separator includes a housing(10), a support plate(20), a rotary shaft(30), a first rotary plate(40), a second rotary plate(50), and a driving device(60). The housing has an inlet(11) and an outlet(12) on both sides into which waste water flows, and the separated liquid separated from the residues are discharged to the lower part. Multiple support plates are installed in the inside of the housing in a longitudinal direction with a fixed space from each other. Multiple rotary shafts are rotatably installed to be perpendicular to the support plates with a fixed space from each other. The first rotary plates are installed to be fixed among the support plates and to be rotated by the rotary shafts. The second rotary shafts are fixedly installed on the rotary shafts installed between the rotary shafts rotating the first rotary plates and have a long shaft installed to be horizontal with the longitudinal direction of the support plates. The driving device rotates the rotary shafts.

Description

Apparatus for separating solid and liquid

The present invention relates to a solid-liquid separator, and more particularly, to a solid-liquid separator for compressing the residue to improve the separation efficiency of the separation liquid.

In general, the solid-liquid separator is a solid component such as the separation of the solid and liquid in the drainage of wet waste, sewage sludge, manure treatment sludge, slaughterhouse wastewater, semiconductor equipment wastewater, various washing wastewater, food factory wastewater, food processing process, etc. It is a device that separates the solid and liquid of the treated material mixed with the liquid.

An example of the solid-liquid separation device can be found in the "filtration screen for the separation device of waste water residue" of Republic of Korea Patent Registration No. 10-0729952.

1 is a perspective view showing an example of a solid-liquid separation device according to the prior art, Figure 2 is a front sectional view of an example of a solid-liquid separation device according to the prior art.

1 and 2, the waste liquid discharge port (1a) is formed on the bottom, the housing (1) formed with a residual discharge plate (1b) on one side; A support plate (2) installed in the longitudinal direction in the housing (1) and provided with a plurality of at regular intervals; A plurality of rotating shafts (3) installed to be perpendicular to the support plates (2) and rotatably arranged at regular intervals; The first rotating plate 4 is fixed to the rotating shaft (3) between the support plates (2) is installed to rotate by the rotation of the rotating shaft (3), and has a plate shape having an elliptical shape, the long axis direction is installed vertically long )and; It is fixed to the rotating shaft (3) installed between the rotating shaft (3) for rotating the first rotating plate (4) is rotated by the rotation of the rotating shaft (3), it is composed of a plate-like shape having an oval, the long axis is the support plate ( A second rotating plate 5 installed to be horizontal to the length direction of the second ones;

A chain 6 connecting the driven chain gears 6a provided at an end of the rotating shaft 3 for rotating the first and second rotating plates 4 and 5;

A driven chain gear 6a installed on one of the rotary shafts 3 of the rotary shafts 3 and a driven chain gear 7a connected by the chains 6 are installed to serve as a power source for rotating the rotary shafts 3. It includes a drive motor (7).

In the conventional solid-liquid separation device configured as described above, wastewater and sewage containing residues are introduced to the opposite side of the residue discharge plate 1b of the housing 1, and the residues in the introduced sewage and wastewater are supported by the support plate 2 and each. The rotary plates 4 and 5 are discharged into a gap formed by being superimposed on each other and discharged to the waste liquid discharge port 1a in the lower part of the housing 1, and the waste liquid is discharged and the remaining residues of the rotary plates 4 and 5 It is transferred to the residue discharge plate 1b by rotation and stored in a predetermined storage tank or compressed by a compression means such as a screw press.

At this time, the process in which the residues are transported by the rotating plates 4 and 5, the driving motor 7 is driven in the state in which the residues are placed in the part where the second rotating plate 5 is installed so that the long axis is horizontal. When rotated, the right end of the second rotating plate 5 rotates counterclockwise to move to the left by the right side of the second rotating plate 5.

At this time, the end portion facing downward of the first rotating plate 4 is also rotated counterclockwise to rise upwards to form a long axis horizontally, and the residue moved to the left side by the rotation of the second rotating plate 5 has a long axis horizontally. The state of being placed on the upper part of the first rotating plate 4 rotated to achieve.

When the rotation shaft 3 continues to rotate, the long axis of the first rotating plate 4 is oriented in the vertical direction again, and the long axis of the second rotating plate 5 is in a horizontal state. The residue moved to the left side is pushed to the opposite side by the second second rotary plate 5 and finally, the residue is pushed to the residue discharge plate 1b and discharged along the residual discharge plate 1b inclined.

However, the conventional solid-liquid separation device has a problem that the separation efficiency of the separation liquid is lowered because the internal separation liquid of the residue uses a natural fall due to the rotation of the first and second rotating plates 4 and 5.

An object of the present invention is to solve such a problem, an object of the present invention is to provide a solid-liquid separation device for compressing the residue to improve the separation efficiency of the separation liquid.

In the technical spirit for achieving the present invention, the solid-liquid separator according to the present invention, the inlet for the waste water is formed on one side, the discharge port is discharged discharged from the residue contained in the wastewater introduced into the inlet is formed on the other side, Separation liquid separated from the residue is installed in the housing to be discharged to the bottom, the support plate is installed in the longitudinal direction in the interior of the housing a plurality of at regular intervals, perpendicular to the support plates are installed at regular intervals rotatably A plurality of rotational axes; A first rotating plate fixedly installed on the rotating shaft between the supporting plates to be rotated by the rotation of the rotating shaft, the first rotating plate having an elliptical plate shape and having a long axis direction extending vertically; A second rotating plate fixedly installed on a rotating shaft installed between the rotating shafts for rotating the first rotating plates and being rotated by the rotation of the rotating shaft, the second rotating plate being configured to have a plate shape having an elliptical shape, the major axis of which is horizontal to the longitudinal direction of the supporting plates; In the solid-liquid separation device comprising a drive means for rotating the rotary shaft, the first and second rotary plates are formed to gradually decrease in the direction in which the residue is moved, the residue on the upper side of the first and second rotary plates A crimping means for crimping is formed, and the crimping means includes: a crimping plate installed on an upper portion of the first and second rotating plates, a hinge shaft provided on one side of the crimping plate to allow the crimping plate to rotate up and down, and the One end is fixed to the other side of the pressing plate is made of a cylinder to arc the movement of the pressing plate to the hinge axis by the forward and backward, the slot is formed on the other side of the pressing plate to discharge the separation liquid To form a blockage blocking plate in the slot, a tooth is formed in the outer circumference of the blockage blocking plate.

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In addition, the housing is inclined at a predetermined angle higher than the inlet direction of the discharge direction of the residue.

The driving means may include a driving motor installed at one side of the housing to generate a driving force, a driving sprocket for receiving power from the driving motor, a driven sprocket installed at a predetermined distance from the driving sprocket, and the driving sprocket. And a chain wound between the driven sprocket and a rotating sprocket respectively installed on one side of the rotating shaft to receive power by the chain.

The solid-liquid separator according to the present invention is formed to gradually reduce the size of the rotating plate for transporting the residue in the direction in which the residue is moved, by pressing the residue to form a pressing means for pressing the residue on the upper side of the rotating plate, It is possible to improve the separation efficiency of the separation liquid.

1 is a perspective view showing an example of a solid-liquid separation device according to the prior art.
Figure 2 is a front sectional view of an example of a solid-liquid separation device according to the prior art.
3 is a front view of the solid-liquid separation apparatus according to the present invention.
4 is a plan view of the solid-liquid separation apparatus according to the present invention.
Figure 5 is a perspective view showing in detail the rotating plate and the support plate applied to the solid-liquid separator according to the present invention.
Figure 6 is a view for explaining the state of the rotating plate and the pressing plate applied to the solid-liquid separator according to the present invention.
Figure 7 is a front view showing a blocking plate applied to the solid-liquid separator according to the present invention.
Figure 8 is a plan view showing a blocking plate applied to the solid-liquid separator according to the present invention.
Figure 9 is a side view showing a blocking plate applied to the solid-liquid separation apparatus according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Prior to the description, the wastewater used in the present invention includes residues, and the residues include those that have been changed into a dehydrated cake by adding a coagulant to the wastewater.

Figure 3 is a front view of the solid-liquid separation device according to the present invention, Figure 4 is a plan view of the solid-liquid separation device according to the present invention, Figure 5 is a main part perspective view showing in detail the rotating plate and the support plate applied to the solid-liquid separation device according to the present invention 6 is a view for explaining the state of the rotating plate and the pressing plate applied to the solid-liquid separator according to the present invention, Figure 7 is a front view showing the blockage preventing plate applied to the solid-liquid separator according to the present invention, 8 is a plan view showing a blocking plate applied to the solid-liquid separator according to the present invention, Figure 9 is a side view showing a block preventing plate applied to the solid-liquid separator according to the present invention.

3 to 9, the solid-liquid separator 100 of the present invention, the housing 10, the support plate 20, the rotating shaft 30, the first rotating plate 40, the second rotating plate 50 and the drive Means 60.

The housing 10 has an inlet 11 through which wastewater flows in one side, and a discharge port 12 through which the residue contained in the wastewater introduced into the inlet 11 is discharged. The separated separation liquid is to be discharged downward.

In addition, the housing 10 is inclined at a predetermined angle higher than the inlet direction of the discharge of the residue to provide a structure in which the separation liquid is separated to the upper side of the pressing plate 71 to be described later to be easily discharged to the outside.

The support plate 20 is installed in the longitudinal direction inside the housing 10, but a plurality is installed at regular intervals.

The rotation shaft 30 is installed to be perpendicular to the support plates 20, but a plurality of rotation shafts are installed at regular intervals to be rotatable.

The first rotary plate 40 is fixed to the rotary shaft 30 between the support plates 20 is installed to be rotated by the rotation of the rotary shaft 30, it is configured in the shape of a plate having an elliptical long axis direction It is installed long up and down.

The second rotating plate 50 is fixed to the rotating shaft 30 provided between the rotating shaft 30 for rotating the first rotating plate 40 is rotated by the rotation of the rotating shaft 30, the plate body having an ellipse It is configured to have a long axis is installed to be horizontal to the longitudinal direction of the support plate.

In addition, the first and second rotary plates 40 and 50 are formed to gradually decrease in size in the direction in which the residues are moved, and to compress the residues on the upper sides of the first and second rotary plates 40 and 50. The pressing means 70 is formed.

The pressing means 70 is a pressing plate 71 provided on the upper portion of the first and second rotating plates 40 and 50 and one side of the pressing plate 71 so that the pressing plate 71 is vertically up and down. One end is fixed to the hinge shaft 72 and the other side of the pressing plate 71 so as to be rotatable, so that the pressing plate 71 is circularly moved to the point by the forward and backward movements. Composed of the cylinder 73 to the front and back of the cylinder 73 by the compression plate 71 and the first and second rotating plate 40, 50 is carried out by the compression of the remaining residues, As the size of the remnants of the rotating plate 40 and 50 decreases in the moving direction, the volume of the rotating plate 40 and 50 decreases in the discharge direction, thereby making it easier to compress the residue.

In addition, the other side of the pressing plate 71 is formed with a slot (71a) for discharging the separation liquid, which allows the pressing plate 71 to easily separate the separation liquid contained therein by pressing the residue. will be.

Since the separation liquid separated by the pressing of the pressing plate 71 is also inclined by the inclination of the housing 10, the separating liquid flowing along the inclined surface of the pressing plate 71 is lower than the inclined surface. Perforations in the hole may be discharged downwards, or open on both sides to induce separation.

In addition, the slot (71a) is formed in the blockage blocking plate 80, the outer periphery of the blockage blocking plate 80 so that the tooth 81 is formed to rotate the blockage blocking plate 80 while the residue is moved. It is to remove the residue stuck in the slot (71a).

The drive means 60 is for rotating the rotary shaft 30, the drive motor 61 is installed on one side of the housing 10 to generate a driving force, and transmits the power of the drive motor 61. A receiving drive sprocket 62, a driven sprocket 63 installed at a predetermined distance from the drive sprocket 62, and a chain 64 wound between the driving sprocket 62 and the driven sprocket 63; It is made of a rotating sprocket 65 installed on one side of the rotation shaft 30 so as to receive power by the chain 64.

Here, the driving means of the present invention has been described only one embodiment of the configuration for rotating the rotating shaft will be possible in any of a variety of modifications.

In the solid-liquid separator 100 of the present invention configured as described above, the wastewater containing the residue is introduced into the inlet 11 side of the housing 10, the residue in the introduced wastewater is the support plate 20 and the first, second rotating plate Separation liquid is discharged into the gap formed by the installation of the 40 and 50 overlap each other, and only the residue from which the separation liquid is separated is discharged from the housing 10 by the rotation of the first and second rotating plates 40 and 50. 12) is transported to a side and stored in a predetermined storage tank or compressed by a compression means such as a screw press.

At this time, the residues located above the first and second rotating plates 40 and 50 and the support plate 20 are chained between the driving sprocket 62 and the driven sprocket 63 by the rotation of the driving motor 61. As the rotating sprocket 65 connected to the chain 64 is rotated along with the rotation of the 64, the rotating shaft 30 is rotated to be coupled to the rotating shaft 30 by the first and second rotating plates 40 ( 50 are rotated to transfer the residue to the outlet 12, in which the first and second rotary plates 40 and 50 become smaller in the discharge direction, and the first and second rotary plates 40 ( 50) the compression plate 71 located on the upper side of the hinge shaft 72 to the point to advance the cylinder 73, the residue between the first and second rotary plates 40, 50 is pressed to improve the dewatering efficiency. do.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, it will be understood that various modifications and other embodiments are possible to those skilled in the art.

100: solid-liquid separator 10: housing
11: inlet 12: outlet
20: support plate 30: axis of rotation
40: first rotating plate 50: second rotating plate
60: drive means 61: drive motor
62: drive sprocket 63: driven sprocket
64: chain 65: rotating sprocket
70: pressing means 71: pressing plate
71a: slot 72: hinge axis
73: cylinder 80: blocking plate
81: tooth

Claims (6)

The inlet for the waste water is formed on one side, the outlet for discharging the residue contained in the wastewater introduced into the inlet is formed on the other side, the housing to allow the separation liquid separated from the residue is discharged to the bottom, A plurality of support shafts installed in a longitudinal direction therein, the plurality of support plates being installed at regular intervals, the plurality of rotation shafts being installed to be perpendicular to the support plates and rotatably installed at regular intervals; A first rotating plate fixedly installed on the rotating shaft between the supporting plates to be rotated by the rotation of the rotating shaft, the first rotating plate having an elliptical plate shape and having a long axis direction extending vertically; A second rotating plate fixedly installed on a rotating shaft installed between the rotating shafts for rotating the first rotating plates and being rotated by the rotation of the rotating shaft, the second rotating plate being configured to have a plate shape having an elliptical shape, the major axis of which is horizontal to the longitudinal direction of the supporting plates; In the solid-liquid separation device comprising a drive means for rotating the rotary shaft,
The first and second rotating plates are formed to gradually decrease in size in the direction in which the residues are moved, and pressing means for pressing the residues is formed on the upper side of the first and second rotating plates.
The pressing means may include a pressing plate installed on an upper portion of the first and second rotating plates, a hinge shaft installed at one side of the pressing plate to rotate the pressing plate up and down, and one end fixed to the other side of the pressing plate. It is made of a cylinder for circularly moving the pressing plate to the hinge axis by the forward and backward,
A slot is formed on the other side of the pressing plate to discharge the separation liquid,
Forming a blockage blocking plate in the slot, the solid-liquid separation device, characterized in that the tooth is formed on the outer periphery of the blockage blocking plate.
delete delete delete The method of claim 1,
The housing is solid-liquid separator, characterized in that the discharge direction of the residue is inclined at a predetermined angle higher than the inlet direction.
The method of claim 1,
The driving means includes:
A driving motor installed at one side of the housing and generating a driving force;
A drive sprocket receiving power of the drive motor;
A driven sprocket which is installed at a predetermined interval apart from the driving sprocket,
A chain wound between the driving sprocket and the driven sprocket,
Solid-liquid separation device, characterized in that consisting of a rotating sprocket which is installed on one side of the rotating shaft so as to receive power by the chain.

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