KR100945274B1 - Sludge thickener and dehydrator - Google Patents

Abstract

PURPOSE: A centrifugal dehydration device of high concentration organic wastewater is provided to prevent abrasion of a screw chamber hole and a sludge discharge hole by forming a hole of each member in a rotation direction, and to prevent abrasion of the inner circumference of an outer bowl with a wire net. CONSTITUTION: A centrifugal dehydration device of high concentration organic wastewater includes the following: an outer bowl(200) on which a cylindrical separation and sedimentation part and a conical compression and dehydration part are formed; a inner screw(300) installed on the center of the outer bowl; a driving unit(400) rotating the outer bowl and the inner screw; and a wire net preventing abrasion of the inner circumference of the outer bowl by settling sludge between nets.

Description

Centrifugal dewatering device for high concentration organic wastewater {Sludge Thickener and Dehydrator}

The present invention relates to a centrifugal dewatering device for a high concentration of organic wastewater, in particular a strip bar is installed so that the sludge does not rotate according to the rotation of the inner screw, and the angle hole of the screw chamber and the angle hole of the discharge port are the outer bowl and the rotation direction of the screw The present invention relates to a centrifugal dewatering device for a high concentration of organic wastewater, which is formed to be inclined correspondingly to prevent wear of the screw chamber and the discharge port in advance.

In general, the sludge generated in the water and sewage treatment process or livestock wastewater treatment process is injected into the centrifuge to extract concentrated sludge by physical centrifugal force.

The centrifuge is to extract the sludge injected in accordance with the operation of the screw conveyor. In the case of the centrifuge, the water and solids are injected into the rotating outer cylinder by applying the centrifugal force with little power to inject water and solids contained in the sludge. In order to isolate | separate this, many are disclosed by Utility Model Application No. 16844, Unexamined-Japanese-Patent No. 2000-0064430, and the like.

In the centrifugal separator of Utility Model Application No. 16844, a disc is mounted vertically perpendicular to the axial direction at the center of each pitch with a circumference of about two thirds of the body plate circumference at the center of the screw conveyor horizontal plate pitch distance. The disc has dozens of drainage holes, the plate is only responsible for the solids conveying guide in the body and the disc is configured to settle the solids and prevent flow disturbance of the solids and the supernatant, which is a horizontal screw conveyor It is installed in the disk and simply installs a number of holes, which not only hinder the work by causing adverse effects such as vortex flow, but also the sludge volume is small and the shear force, There is a problem that the compaction force, the pressing force is low.

Further, in the centrifugal separator of Japanese Patent Application Laid-Open No. 2000-0064430, a long casing configured to rotate about a longitudinal axis and a screw conveyor disposed about the same axis in the casing include a light state and a heavy state. The centrifugal separator for separating into a blast furnace, the screw conveyor comprises an inlet formed in the conveyor body for supplying a material separated from the body containing the screw, an outlet for discharging heavy materials from one end casing of the conveyor and And a baffle, said screw conveyor being adapted to rotate relative to the casing to convey heavy material towards the outlet, wherein the baffle is formed between the inlets and the outlets and the radial distance at its axial position Less than the radius of the screw in the same axial position have.

However, the centrifugal separator has a problem of wearing the inner circumference of the bowl by maintaining the attached state without falling sludge to the screw blades during the transfer of the sludge.

In addition, such a centrifugal separator has a problem of wearing the screw chamber hole and the discharge hole in the step of discharging the sludge from the screw chamber or discharging the final sludge.

That is, the screw chamber holes and the discharge holes to date form holes in a right angle direction, so sludge is worn out from the screw chamber holes or worn out in the rotational direction at the time of discharge from the discharge holes. Due to the large discharge, smooth sludge cake was not achieved.

The present invention is to solve the problem as described above, the outer periphery of the outer bowl is worn out by blocking the sludge moving by welding the wire mesh in the longitudinal direction to the inner circumference of the outer bowl directly contact the inner peripheral surface of the outer bowl. The purpose is to prevent it.

In addition, it is another object to form a hole in the rotational direction of the screw chamber hole to prevent sludge from wearing out the screw chamber hole when output from the screw chamber hole.

In addition, it is another object to form a hole in the rotational direction of the sludge discharge hole to prevent the sludge from wearing the sludge discharge hole during output through the discharge hole.

As a means for achieving the above object,

The present invention, the outer bowl 200 formed with a cylindrical sedimentation settlement (A) and the concave-shaped dehydration portion (B) in the casing; An inner screw 300 installed in the center of the inner surface of the outer bowl; A driving means (400) for rotating the outer bowl (200) and the inner screw (300); Welded and coupled to a state inserted into the inner circumferential surface of the outer bowl 200, and includes a wire mesh 500 for seating sludge between the meshes to prevent the inner circumferential surface of the outer bowl from being worn by the sludge flow;
The inner screw 300 is a screw blade is formed on the outer periphery, the chamber 320 having a space for supplying sludge to the outer cylinder bowl, the screw chamber hole 321 formed inclined in the sludge injection direction, and the chamber It is made of a sludge inlet pipe 310 is installed inside to transport the sludge;
The outer bowl 200, the dehydration liquid discharge portion 210 which is discharged by separating the solids and dehydration liquid, sludge discharge portion 220 for discharging the cake, and slanted sludge discharge hole formed in the sludge discharge portion 221, including;
The screw chamber hole 321 and the sludge discharge hole 221 is made of a vertical partition wall 10 on one side and the other end is made of a sloped partition wall 20, the bolt to be detachable to the sloped partition wall 20 Made of 30;
The wire mesh 500 is characterized in that a plurality of holes are further formed.

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As described above, the present invention is to solve the above problems, by welding the wire mesh in the longitudinal direction to the inner circumference of the outer bowl, the moving sludge is not in direct contact with the inner circumferential surface of the outer bowl, the inner circumference of the outer bowl It is effective in preventing wear.

In addition, there is an effect of forming a hole in the rotational direction of the screw chamber hole to prevent the sludge from wearing the screw chamber hole when output from the screw chamber hole.

In addition, there is an effect of forming a hole in the rotational direction of the sludge discharge hole to prevent the sludge from wearing the sludge discharge hole during output through the discharge hole.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, and may be changed according to the intention or custom of the producer, and the definitions thereof should be made based on the contents throughout the present specification.

1 is an overall configuration diagram of a centrifugal dewatering device of a high concentration organic wastewater of the present invention.

Figure 2 is a configuration of the compression dehydration portion of the present invention.

3 is a cross-sectional view taken along the line B-B of FIG.

Figure 4 is an exploded perspective view of the centrifugal dewatering device of the present invention.

5 is a cross-sectional view taken along the line C-C of FIG.

Livestock wastewater sedimentation sludge dewatering centrifugal dehydrator, the casing 100 of the cylindrical shape; The outer bowl 200 is installed inside the casing 100, but is injected into the sludge, concentrated dehydration, separation sedimentation portion (A) made of a cylindrical shape and a pressurized dehydration portion (B) formed of a conical shape outer cylinder 200 )and; Inner screw 300 is installed in the center of the inner surface of the outer cylinder 200; A driving means (400) for rotating the outer bowl (200) and the inner screw (300); It is welded and coupled in the state inserted into the inner circumferential surface of the outer bowl 200, and comprises a wire mesh 500 to seat the sludge between the mesh to prevent the inner circumferential surface of the outer cylinder bowl to be worn by the sludge flow.

The sludge inlet tube 310 is installed in the inner screw 300, and the screw chamber hole 321 is formed in the screw chamber 320 at the position where the sludge inlet tube 310 is installed. 321 serves to eject the sludge to the inner peripheral surface of the outer bowl (200).

The outer bowl 200 separates the solids (cake) and the dehydration liquid from the inside, and the solids are discharged to the sludge discharge portion 220 at the end of the compression dehydration portion (B), and the dehydration liquid is separated from the settling portion (A). It is configured to be discharged to the dehydration liquid discharge portion 210 of the.

The outer bowl 200 has a long cylindrical shape with one side of the cone and the dehydrating liquid is discharged through the dehydrating liquid capture space. In addition, the driving means 400 including the motor on one side of the parallel line of the both sides of the outer bowl 200 is connected, the outer bowl 200 and the inner screw 300 is rotated in accordance with the operation of the driving means 400 do.

That is, the outer bowl 200 is installed on the inner surface of the casing 100, the outer bowl 200 is horizontally disposed as a whole is formed in a cylindrical shape, the one side of the outer bowl 200 in a conical shape The formed compression dehydration portion (B) is formed and the other cylindrical portion is the separation settlement (A).

In addition, the inner circumferential surface of the outer bowl 200 is welded to the wire mesh 500, and the sludge is freely rotated when the sludge is inserted while the sludge is inserted between the grooves of the wire mesh due to the existence of the wire mesh 500. It prevents abrasion of the inner circumference of the outer bowl.

That is, in the conventional centrifugal dehydrator, since the wire mesh is not installed, sludge scratches the inner circumferential surface of the outer cylinder 200 when the sludge flows along the screw blades 300a, so that the inner circumferential surface of the outer barrel is worn by the action of the sludge. In the present invention, the sludge inserted between the wire mesh is fixed without moving, the sludge 40 is inserted between the wire mesh to the buffer action of the sludge moving straight to the inner circumferential surface of the outer barrel 200 is moved. Since the sludge does not affect the inner circumferential surface of the outer bowl, the inner circumferential surface of the outer bowl 200 can be prevented from being worn by the sludge in advance.

Of course, since the sludge is moved to the straight line in contact with the wire mesh 500 can not block the phenomenon that the wire mesh is worn, accordingly, to remove the wire mesh worn after a certain time. However, in the related art, the inner circumferential surface of the outer cylinder bowl is worn and differentiated from that of replacing the outer cylinder itself. The present invention is much more economical because only the wire mesh needs to be replaced.

4 and 5 represent the form in which sludge is inserted between the wire mesh, a plurality of holes 510 are formed in the wire mesh so that the sludge can buffer more, and the sludge is inserted into the hole do.

In addition, the casing 100 has a cake discharge portion 120 and the dehydration liquid discharge portion 110 on each side.

The cake discharge part 120 is located at the end of the compression dehydration part (B), and is a passage for discharging the cake of the sludge from which the moisture is removed in the outer bowl 200.

The central portion of the outer bowl 200, the screw chamber 320 is installed horizontally, the screw blades 300a are formed in the screw chamber 320 is extended to the separation settled portion (A) in a spiral of the same pitch, In the compression dewatering portion (B) has a shape in which the circumference of the screw wing (300a) gradually decreases according to the angle of the cone.

A sludge inlet tube 310 is formed in the screw chamber 320, but is formed to be about one third long from the screw chamber 320 on the crimping and dehydrating part B.

On the other hand, the screw chamber hole 321 formed in the screw chamber 320 is formed to drop the sludge to the outer bowl 200 is formed to be inclined at a predetermined angle in the rotation direction of the screw chamber 320. That is, when the screw chamber 320 is rotated in the counterclockwise direction, the sludge is rotated in the clockwise direction to face the sludge. In the present invention, the screw chamber hole 321 is formed at four points so that the sludge flows smoothly in the clockwise direction. However, one side partition 10 is formed vertically and the other side partition 20 is formed to be inclined at a predetermined angle.

In addition, the slanted partition wall 20 may be formed of an aluminum material that is stronger than ordinary steel as the sludge is in contact with the wearer, and may be assembled by bolts 30 to facilitate replacement.

In addition, a plurality of sludge discharge holes 221 are formed in the sludge discharge unit 220 where the sludge is finally discharged. In the present invention, the sludge discharge holes 221 are also formed to be inclined at a predetermined angle, like the screw chamber holes 321. .

That is, when the sludge discharge part 220 forming the end of the outer barrel 200 moves clockwise, the sludge is moved in the counterclockwise direction, so that the sludge discharged hole 221 is formed to be inclined counterclockwise so that the caked sludge is formed. The sludge discharge hole inclined counterclockwise can be discharged smoothly.

As a result, in the present invention, the screw chamber hole 321 and the sludge discharge hole 221 are inclined in the discharge direction of the sludge so that the screw chamber 320 and the sludge discharge part 220 are worn out during the sludge discharge process. In addition, by inserting the wire mesh into the inner circumferential surface of the outer barrel to weld the sludge can be prevented from moving the sludge to wear the outer bowl. In addition, when the wire mesh is worn, it is very economical because only the wire mesh needs to be replaced.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. That is, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the scope of the technical spirit of the present invention by these embodiments. Therefore, the protection scope of the present invention should be interpreted by the claims below, and all technical ideas within the equivalent scope will be construed as being included in the scope of the present invention.

1 is an overall configuration diagram of a centrifugal dewatering device of a high concentration organic wastewater of the present invention.

Figure 2 is a configuration of the compression dehydration portion of the present invention.

3 is a cross-sectional view taken along the line B-B of FIG.

Figure 4 is an exploded perspective view of the centrifugal dewatering device of the present invention.

5 is a cross-sectional view taken along the line C-C of FIG.

Explanation of symbols on the main parts of the drawings

100: casing

200: outer bowl

300: dynamic screw

400: driving means

500: wire mesh

Claims (5)

An outer bowl 200 formed with a cylindrical sedimentation settlement portion A and a conical compression dehydration portion B formed inside the casing; An inner screw 300 installed in the center of the inner surface of the outer bowl; A driving means (400) for rotating the outer bowl (200) and the inner screw (300); Welded and coupled to a state inserted into the inner circumferential surface of the outer bowl 200, and includes a wire mesh 500 for seating sludge between the meshes to prevent the inner circumferential surface of the outer bowl from being worn by the sludge flow; The inner screw 300 is a screw blade is formed on the outer periphery, the chamber 320 having a space for supplying sludge to the outer cylinder bowl, the screw chamber hole 321 formed inclined in the sludge injection direction, and the chamber It is made of a sludge inlet pipe 310 is installed inside to transport the sludge; The outer bowl 200, the dehydration liquid discharge portion 210 which is discharged by separating the solids and dehydration liquid, sludge discharge portion 220 for discharging the cake, and slanted sludge discharge hole formed in the sludge discharge portion 221, including; The screw chamber hole 321 and the sludge discharge hole 221 is made of a vertical partition wall 10 on one side and the other end is made of a sloped partition wall 20, the bolt to be detachable to the sloped partition wall 20 Made of 30; Centrifugal dewatering device of a high concentration organic wastewater, characterized in that a plurality of holes are further formed in the wire mesh 500. delete delete delete delete

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