KR890000450Y1 - Apparatus for separating water of sluge - Google Patents

Abstract

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Description

Centrifugal Sewage Dewatering Filter

1 is a longitudinal sectional view of the present invention.

2 is a cross-sectional view taken along line A-A of the present invention.

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

4 is a partially enlarged cross-sectional view of FIG. 1 (a).

* Explanation of symbols for main parts of the drawings

1 wit 2,2a: prop

3: tubular rotary shaft 3a, 3b: partition wall

4,4a: rotating body on disk 5: filter cylinder

5a: rotating shaft 6: chain gear

7: deceleration motor 8: chain

9: wastewater supply pipe 10,10a: rotary joint

11: wastewater distribution supply pipe 12: high pressure water or high pressure steam and high pressure air supply pipe

13: injection pipe 18: balancing operation

The present invention provides dehydration and filtration of the water contained in the waste by centrifugal force when the waste discharged from various production plants, marine products, and food processing plants is supplied to a number of filtration cylinders installed to rotate at regular intervals on the high-speed rotating body. The present invention relates to a filtration apparatus. In the conventional centrifugal dewatering filtration apparatus, since one filtration cylinder is rotated at high speed to perform dehydration filtration, sludge adheres to the inner circumference of the filtration cylinder so that the dehydration is performed smoothly. There was a fault that could not be. Therefore, the number of times to clean the inn cylinder had a problem that can not increase the filtration efficiency.

In order to reduce such drawbacks, the present invention allows the filtration cylinder to rotate and rotate by a high-speed rotating body so that the water contained in the filth supplied into the filtration cylinder is scattered to the outside by centrifugal force and dehydrated and filtered. As the sludge to be laminated to the outside rotates along the direction of rotation while the sludge is rotated, it is laminated to the inside of the filtration cylinder, so that dehydration filtration can be effectively performed to obtain a large amount of sludge with low moisture content. Is as follows.

Set up posts (2) (2a) on both sides of the mounting table (1) to build up the tubular rotary shaft (3), and install the disk-like rotary body (4) (4a) at regular intervals on the tubular rotary shaft (3) In the meantime, a large number of filtration cylinders 5 having one side open at regular intervals are laid, and a chain gear 6 is installed on each rotary shaft 5a of each filtration cylinder 5 to install the tubular rotary shaft 3. On one side of the tubular rotary shaft (3), which has a hook (7) and a chain (8) and a bearing holder (18) attached to the opposite side of the motor (7), and the partitions (3a) and (3b) are installed in the center. The wastewater supply pipe (9) is connected to the rotary joint (10), and a plurality of wastewater distribution supply pipes (11) are connected in front of the partition wall (3a), and each pipe is inserted into each filtration cylinder (5). The supply pipe 12 is connected with the rotary joint 10a and the injection pipe 13 installed in close proximity to each connecting cylinder 5 in the vicinity of the partition 3b. It is.

Reference numeral 14 is a shift motor, 15 is a drain, 16 is a waste outlet, and 17 is a cover.

Referring to the effect of the present invention as described above is as follows.

When the tubular rotary shaft 3 arranged on both sides of the mounting table 1 on both sides of the support posts 2 and 2a is rotated at high speed by the shifting motor 14, the rotating body 4 and 4a on the disc rotate at high speed. Since the filtration cylinders 5 arranged at regular intervals between the rotating bodies 4 and 4a are thus revolved together, and the deceleration motors 7 installed on the tubular rotary shafts 3 are driven, The filtration cylinder 5 rotates gradually in the same direction. At this time, when the wastewater is supplied through the wastewater supply pipe (9), the wastewater is supplied into each filtration cylinder (5) through the wastewater distribution supply pipe (11) associated with the tubular rotary shaft (3) and rotates at high speed. Scattered in the circumferential direction, the sludge is pushed toward the open side, the sludge is in close contact with the filtration cylinder (5) as shown in Figure 2 because the filtration cylinder (5) is rotated slowly, the circle of the rotating body (4) (4a) When it reaches the core side, the centrifugal force is to be scattered to the outside in the filtration cylinder (5), so that the sludge is reversed while being in close contact with the circumferential direction of the rotating body (4) (4a) in the filtration cylinder (5). At this time, the high pressure water or the high pressure steam and the high pressure air are supplied to each injection pipe 13 through the supply pipe 12 associated with the rotary joint 10a on the other side of the tubular rotary shaft 3 to clean each filter cylinder 5. Since it makes the filtration dehydration more smoothly, a uniform dehydration is performed, and the sludge having a very low moisture content is discharged through the opening of the filtration cylinder 5.

Therefore, the present invention has an advantage that is suitable for installing wastewater treatment in various plants.

Claims (1)

1. Stand pillars (2) (2a) on both sides of the mounting table (1) to build up the tubular rotary shaft (3), and the disk-shaped rotary body (4) (4a) at regular intervals on the tubular rotary shaft (3) Lay out a plurality of filtration cylinders 5 with one side open between them at regular intervals and install chain gears 6 on each of the rotary shafts 5a of each filtration cylinder 5 to be installed on the tubular rotary shaft 3. A tubular rotary shaft (3) mounted with a deceleration motor (7) and one chain (8) and having a balance holder (18) attached to the opposite side of the motor (7), and having partitions (3a) and (3b) installed in the center. One side of the wastewater supply pipe (9) is connected to the rotary joint (10), and the plurality of wastewater distribution supply pipes (11) in front of the partition wall (3a) through each of the filtration cylinder (5) and the other side of the high-pressure water or high-pressure steam And the high pressure air supply pipe 12 to the rotary joint 10a and to the injection pipe 13 installed in close proximity to each filtration cylinder 5 in the vicinity of the partition 3b. The centrifugal dust filter dewatering device.