KR970004568Y1 - Filtration apparatus for treatment of waste material through centrfugal force and pressing - Google Patents

Abstract

None.

Description

FILTRATION APPARATUS FOR TREATMENT OF WASTE MATERIAL THROUGH CEBTRIFUGAL FORCE AND PRESSING

1 is a partial sectional view of the present invention

2 is an enlarged cross-sectional view of the main part of the present invention

3 is a cross-sectional view of the main part excavated from line A-A of the present invention

* Explanation of symbols for main parts of the drawings

1 body 2 tubular rotary shaft

3: external power plate 4: unit filtration cylinder

4a: waste water supply pipe 5,5a: motor

6,6a: Reducer 7: Rotating shaft

8,8a: Chain 9,9a: Movement speed delay screw

10: outlet 11: sludge dropping container

12: scraper 20: screw press

21: injection hole 22: filtration cylinder

23, 23a: supply pipe 24: injection hole

25: ring injector 26,26a: rotation axis

27,27a: Spiral guide groove 28,28a: Cylindrical cam

29,29a: Round trip pipe 30,30a: Guide pin

The present invention is a screw press dewatered by centrifugal force by supplying several filtration cylinders that can be rotated at regular intervals in a high-speed rotating body when washing and concentrating paper pulp or various wastewater, sewage and manure treatment plants. The present invention relates to a wastewater dewatering filtration device having a very low water content in the discharged sludge by being supplied to the compressed dewatering filtration.

Conventionally, centrifugal dewatering device and screw press are separately used to wash and concentrate paper pulp or to filter and dewater the waste of sewage, sewage and manure treatment plants. In addition to the problem, there was a problem that can not increase the efficiency of dehydration.

In order to reduce the above problems, the present invention is capable of simultaneously rotating and rotating several filter cylinders at regular intervals in high-speed rotating bodies when cleaning or concentrating paper pulp or various wastewater and manure treatment plants. In this case, the sludge dewatered by centrifugal force was supplied to the screw press, and the compressed water was filtered again to obtain the sludge with extremely low water content.

When the present invention as described in detail by the accompanying drawings as follows.

In the center of the fuselage 1, a tubular rotary shaft 2 having a plurality of injection holes 2a is installed, and a rotating disc 3 is installed on the upper portion thereof. It is installed at regular intervals and connected to the lower part of the tubular rotary shaft 2 so that the wastewater supply pipe 4a is deeply installed in each unit filtration cylinder 4, and then gathered around the tubular rotary shaft 2 on the upper surface of the rotary disk 3. The rotor 5a and the reduction gears 6 and 6a are provided opposite to each other and connected to the rotary shaft 7 of two unit filtration cylinders 4 of each unit filtration cylinder 4, and the other two unit filtration cylinders 4 And a chain (8), respectively, a sludge moving speed delay screw (9) is installed in each filtration cylinder (4), and a scraper (12) is installed in the sludge dropping cylinder (11) in which an outlet (10) is formed. The outlet 10 is connected to the inlet 21 of the screw press 20, and to both sides on the outer circumference of the filtration cylinder 22 of the screw press 20 The supply pipes 23 and 23a can be horizontally moved so as to engage several ring-shaped injection pipes 25 through which numerous injection holes 24 are drilled, and the supply pipes 23 and 23a are rotated on the outer side of the rotating shaft 26 ( 26a) to install cylindrical cams 28 and 28a having spiral guide grooves 27 and 27a in the center, and reciprocating pipes 29 and 29a on the outer circumference thereof to supply pipes 23 and 23a. And the guide pins 30 and 30a are inserted into the reciprocating pipes 29 and 29a to be inserted into the spiral guide grooves 27 and 27a formed in the cylindrical cams 28 and 29a.

Reference numeral 13 is a motor, 20a is a screw, 31, 31a is a guide rail, 32, 32a is a guide roller. Referring to the effect of the present invention made as described above are as follows.

When the tubular rotary shaft 2 installed at the center of the body 1 is rotated at high speed by the motor 13, four unit filtration cylinders are installed at regular intervals on the rotary disk 3 fixed to the upper portion of the tubular rotary shaft 2. (4) revolves at high speed, and drives the motor (5) (5a) and the reducer (6) (6a), which are installed on the upper part of the rotating disc (3), and are connected with the chain (8). It rotates gradually in the same direction as the unit filtration cylinder 4 of large size.

At this time, when the wastewater is supplied to the wastewater supply pipe (4a) through the tubular rotary shaft (2) is supplied to the upper portion of each unit filtration cylinder (4) is rotated at a high speed, so that the wastewater is in close contact with the circumferential direction by centrifugal force and the water is filtered Dehydration and sludge fall downward. At this time, the sludge falling speed is delayed by the screw 9 installed in each unit filtration cylinder 4, and the filtration and dehydration are gradually moved downwards while the unit filtration cylinder 4 is in the same direction. Since the sludge adhering to the inner circumference of each unit filtration cylinder 4 is stolen to the central side of the body 1, it is likely to be scattered to the outside in the filtration cylinder 4 of each stage by centrifugal force. Close to the circumferential direction and the filtration dehydration is made again, if the high pressure water or high pressure steam or high pressure air to the tubular rotary shaft (2) It is injected through the injection hole (2a) drilled in the shaft (2) to clean the outer periphery of each unit filtration cylinder (4) to increase the filter dewatering effect, and when the dewatered sludge falls to the dropping tube (11), scraper ( 12) is discharged to the discharge port 10 by being supplied to the inlet (21) of the screw press 20 installed in the lower part of the body (1) is compressed and moved while being supplied into the filtration cylinder 22 by the screw (20a) Therefore, the water contained in the sludge is filtered and dewatered again to discharge the sludge having a very small moisture content, and the cleaning means of the residue attached to the outer circumference of the filtration cylinder 22 during the filtration process is installed on both sides of the filtration cylinder 22 side by side. The rotary shafts 26 and 26a are driven by driving the rotary shafts 26 and 26a provided on the side of the supply tubes 23 and 23a while supplying pressure water, high pressure air and high pressure steam to the moving supply tubes 23 and 23a. Spiral guide groove (27) (27a) Since it rotates according to the formed cylindrical cams 28 and 28a, the guide pins 30 and 30a are inserted into the reciprocating pipes 29 and 29a which can be moved around the outer circumferences of the cylindrical cams 28 and 28a. Since it is fitted in the grooves (27) (27a), the slow-moving pipes (29) (29a) are transferred to the left and right. Therefore, since the supply pipes 23 and 23a connected to the reciprocating pipes 29 and 29a are reciprocated from side to side, the ring-shaped injection pipe 25 connected to the supply pipes 23 and 23a at regular intervals moves along side to side. Injecting pressure water, high-pressure steam, or high-pressure air into the myriad of injection holes (24) to wash the debris attached to the outer periphery of the filtration cylinder (22), thereby increasing the effect of dewatering the filtration. When you can do it is an advantage that can deal with a large amount of various dirt in a short time.

Claims (1)

In the center of the fuselage 1, a tubular rotary shaft 2 having a plurality of injection holes 2a is installed, and a rotating disc 3 is installed on the upper portion thereof. Installed at regular intervals and associated with the lower part of the tubular rotary shaft (2) so that the wastewater supply pipe (4a) is deeply installed in each unit filtration cylinder (4), and then centered on the tubular rotary shaft (2) on the upper surface of the rotary disk (3) The motor 5a and the reduction gears 6 and 6a are provided opposite to each other and connected to the rotary shafts 7 of two unit filtering cylinders 4 of each unit connecting cylinder 4, and the other two unit filtering cylinders ( 4) and a chain 8, respectively, and a sludge moving speed delay screw 9 is installed in each filtration cylinder 4, and a scraper 12 is provided in the sludge dropping cylinder 11 in which an outlet 10 is formed. To the outlet 10 and connect the inlet 21 of the screw press 20 to both sides of the outer periphery of the filtration cylinder 22 of the screw press 20. Side-by-side supply pipes (23, 23a) are installed side by side to engage the ring-shaped injection pipe (25) of a number of injection holes (24) drilled through the rotation shaft 28 on the outside of the supply plate (23) (23a) (28a) is installed and the outer periphery of the reciprocating pipes (29) and (29a) to cover the supply pipes (23) and (23a), and the guide pins (30) (30a) to the reciprocating pipes (29) and (29a), the cylindrical cam A dewatering and dewatering filtration device using centrifugal force and compression made to fit in a spiral guide groove (27) (27a) formed in (28) (28a).