KR890000451Y1 - Apparatus for separating water of sluge - Google Patents

Abstract

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Description

Centrifugal 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 the present invention.

* Explanation of symbols for main parts of the drawings

1a external body 3: tubular rotary shaft

4: Rotating body 5: Outlet

6: filtration cylinder 6a: rotating shaft

12: chain gear 12a: fleece

13: flip 14: axis of rotation

15,15a: Power train full 16,16a: Belt

17,17a: Chain gear 18,18a: Chain

19: Sludge induction ring 20: Shatterproof cylinder

21: Scraper

In order to more effectively dewater the filtration of dehydration physics from various production plants, aquatic products and food processing plants of the present invention or various wastewater treatment plants, a plurality of filtration cylinders are installed to rotate slowly at a predetermined interval in a rotating body rotating at high speed. The present invention relates to a filtration apparatus that allows dewatering or dewatering of water contained in dehydration or dirt by centrifugal force. The conventional centrifugal dewatering filtration device is dehydrated and filtered by rotating one filtration cylinder at high speed. Since the dewatered sludge is attached to the inner circumferential wall of the filtration cylinder which rotates at high speed, the dehydration is not performed smoothly at the central side of the filtration cylinder. there was.

Application for Utility Model Registration No. 2206 No. 2206 "Centrifugal Separation Dewatering Filtration Device," which was previously filed by the applicant in order to solve such a deficiency, allows the filtration cylinder to rotate and revolve by a high-speed rotating body so that it can be supplied to the filtration cylinder. Dehydration is filtered while scattering from the outside of the filtration cylinder to rotate the water contained in the rotating filtration cylinder is rotated so that the sludge stacked on the outside of each filtration cylinder is inverted according to the rotation direction of the filtration cylinder, so that the dewatering filtration is effective As the sludge discharged to the outlet of the filtering cylinder is irregular, the water content cannot be effectively reduced, and since the discharged sludge is scattered by the centrifugal force, sludge is attached to the inner circumferential wall of the outer cover of the outlet side. Separately installed motor on rotating shaft The structure had the problems of a complicated because.

In order to reduce this problem, the present invention installs screw-type sludge induction ring in each filtration cylinder, and installs a shatterproof cylinder on the high-speed rotating body at the outlet side of the filtration cylinder so that the scrap is close to the lower inner circumference of the shatterproof cylinder. Two idler flies with chains installed on one side of the tubular rotary shaft, and a fixed fleece with a slightly smaller or larger diameter on the outer side of the tubular rotary shaft. The chain gear formed by fixing the pleats on each side of the idler pleats is connected to one of the chain gears installed on the rotation shaft of each filtration cylinder, and the two chain gears mounted on the rotation shaft of each filtration cylinder As the chains are connected to each other, the filtration cylinder rotates at high speed in accordance with the high speed rotation of the high speed rotating body. It can be rotated.

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

A tubular rotary shaft 3 is installed in the support posts 2 and 2a which are installed on both sides of the mounting table 1, and the rotary body 4 and 4a on the disk are installed at regular intervals, and the outlet port 5 is disposed on one side between them. ) A large number of filtration cylinders (6) formed at regular intervals are installed, and a partition (3a) is installed at the center of the tubular rotary shaft (3), and at one side, a wastewater supply pipe (7) is connected with a rotary joint (8), and a partition (3a) is installed. A plurality of wastewater distribution supply pipes (9) are connected at the left side of the c) to be installed in each filtration cylinder (6), and on the other side, a high pressure water or high pressure steam and a high pressure air supply pipe (10) are connected by rotary joints (8a) to partition walls (3a). In connection with the injection pipes 11 provided in close proximity to the respective filtration cylinders 6 on the right side of the circumferential rotation shaft 3, one side of the tubular rotation shaft 3 is formed so that the pleats 12a formed of a single body can be idled. Insert and place a fleet (13) with a small diameter at fixed intervals and fixed to the tubular rotary shaft (3). Power transmission flies 15 and 15a having the same diameter as the fleece 13 are fixedly installed on the rotating shaft 14 provided on the upper part of the fuselage 1a to be connected to the belts 16 and 16a, respectively, and to the idle fleece 12a. The chain gear 12 formed at the upper end is connected to the outer chain gear 17a and the chain 18 among the two chain gears 17 and 17a mounted on the rotating shaft 6a of the filtration cylinder 6, and each filtration cylinder ( In the rotating shaft 6a of 6), two chain gears 17 and 17a are respectively installed and interconnected with different chains 18a. A screw-type sludge induction ring 19 is installed in each filter cylinder. The anti-scattering cylinder 20 is installed in the rotary body 4 of the disk of the discharge port 5 of the filtration cylinder 6, and the scraper 21 is installed in the lower inner periphery.

Reference numeral 22 is a motor.

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

When the tubular rotary shaft 3 arranged on the support posts 2 and 2a on both sides of the mounting table 1 is rotated at high speed by the motor 22, the rotating body 4 and 4a on the disk are rotated at high speed. Therefore, each of the filtration cylinders 6 installed at regular intervals between the rotating bodies 4 and 4a on the disk rotates at high speed, and the chain gear 12 is formed on one side of the tubular rotary shaft 3 as a single body. The fleece 12a is installed to be idling, and the fleece 13 having a small diameter is inserted to be fixed to the tubular rotation shaft 3 with a predetermined interval therebetween, and the fleece on the rotation shaft 14 installed on the upper portion of the outer body 1a. It is tubular because it is fixed to the power transmission fleet 15 and 15a having the same diameter as 13 and is mutually connected to the fleet 12a and 13 installed on the tubular rotary shaft 3 by belts 16 and 16a. The fleets 13, 15 and 15a fixed together with the rotary shaft 3 rotate accordingly, but the idler fleece 12a having a larger diameter rotates slowly while idling. It becomes. At this time, since the chain gear 12 of the unitary body and the chain gear 17 installed on the rotating shaft 6a of the filtration cylinder 6 are connected by the chain 18, the filtration cylinder 6 is gradually rotated.

The chain gear 17a installed on the rotating shaft 6a of the filtration cylinder rotated in this way and the chain gear 17, 17a and the chain 18a mounted on the rotation shaft 6a of the other filtration cylinder 6 are rotated. Each filtration cylinder (6) is connected to each other at high speed and gradually rotates at the same time. In this way, when dehydration or dirt is supplied to the filtration cylinder 6 rotating while rotating at high speed through the wastewater supply pipe 7, each filtration cylinder (9) is connected through a plurality of wastewater distribution supply pipes 9 connected to the tubular rotary shaft 3. 6) Dehydration or dirt supplied into the filtration cylinder (6) by the centrifugal force scattered in the circumferential direction of the rotating body (4) (4a) while dewatering filtered, the filtration cylinder (6) is rotated slowly because As shown in FIG. 2, sludge adhered to the inner circumference of the filtration cylinder 6 moves in the circumferential direction of the rotary body 4 and 4a in the filtration cylinder 6 by the centrifugal force of the rotary body 4 and 4a. Therefore, the water contained in the sludge is dehydrated again. The dewatered sludge is discharged to the discharge port 5 by the screw type sludge induction ring 19 installed in each filtration cylinder 6, and the discharged sludge is collected in the scattering prevention cylinder 20 and then prevented from scattering. It is discharged to the outside by the scraper 21 in close proximity to the lower inner circumference of the cylinder (20). The high pressure water or the high pressure steam and the high pressure air connected to the other side of the tubular rotary shaft 3 by the rotary joint 8a are supplied to the respective injection pipes 11 by supplying the high pressure water or the high pressure steam and the high pressure air. By cleaning each leisure cylinder (6) that is rotating is a filter dehydration is made smoothly there is an advantage that can effectively treat a large amount of dehydrated or dirt.

Claims (1)

Tubular rotary shafts 3 are installed on the support posts 2 and 2a on both sides of the mounting table 1, and the disk-shaped rotary bodies 4 and 4a are installed at regular intervals, and the outlets 5 ) A large number of filtration cylinders (6) formed at regular intervals and a bulkhead (3a) in the center of the tubular rotary shaft (3) to connect the wastewater supply pipe (7) with a rotary joint (8) on one side and the bulkhead ( On the left side of 3a), a plurality of wastewater distribution supply pipes 9 are connected and installed in each filtration cylinder 6, and on the other side, high pressure water or high pressure steam and high pressure air supply pipe 10 are connected by rotary joint 8a to partition 3a. In connection with the injection pipes 11 provided in close proximity to the respective filtration cylinders 6 on the right side of the), the pleats 12a having the chain gears 12 formed on one side of the tubular rotary shaft 3 can be idled. Insert the pliers (13) with a small diameter at fixed intervals and install them fixed to the tubular rotary shaft (3). Power transmission flies 15 and 15a having the same diameter as the fleece 13 are fixedly installed on the rotating shaft 14 provided on the upper part of the fuselage 1a to be connected to the belts 16 and 16a, respectively, and to the idle fleece 12a. The chain gear 12 formed at the upper end is connected to the outer chain gear 17a and the chain 18 among the two chain gears 17 and 17a mounted on the rotating shaft 6a of the filtration cylinder 6, and each filtration cylinder ( In the rotating shaft 6a of 6), two chain gears 17 and 17a are respectively installed and interconnected with different chains 18a, and screw-type sludge induction rings 19 are installed in each filter source cylinder. A centrifugal dewatering filtration apparatus in which a scattering prevention cylinder (20) is installed in the rotating body (4) on the disc of the outlet (5) of the filtration cylinder (6), and a scraper (21) is installed in the lower inner circumference thereof.