KR101658451B1 - Vertical type automatic solid-liquid separation device - Google Patents

Abstract

The present invention relates to a vertical-type automatic solid-liquid separation apparatus, enabling separation of sludge and residual liquid as waste water inserted from an upper part flows to a lower part. To this end, the solid-liquid separation apparatus includes: an internal accommodating part; a waste water inlet; a residual liquid outlet; a cylindrical chamber having a sludge outlet; a screen filter installed to an accommodating part in the chamber; a rotation shaft vertically installed at the center of the accommodating part of the chamber; and a scraping unit having a scraper.

Description

[0001] Vertical type automatic solid-liquid separation device [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vertical type automatic solid-liquid separating apparatus, and more particularly, to a vertical type automatic solid-liquid separating apparatus in which wastewater injected from the upper side moves downward and can be separated into sludge and filtrate.

As a technology related to a vertical type automatic solid-liquid separator, [Korean Patent Registration No. 10-0817483 (Mar. 27, 2008, hereinafter referred to as "Prior Art") "Continuous Solid-liquid Separator for Wastewater Treatment" have.

The prior art

"A funnel is connected to the bottom of the cylindrical outer cylinder,

A cylindrical metal filter net is provided in the outer cylinder and a plurality of scrapers rotated by a rotary arm rotated as a motor are installed therein,

By providing a funnel scraper rotating inside the funnel by the funnel scraper rotating arm rotated as the rotation axis of the motor,

The liquid material in the wastewater continuously flowing into the upper inlet is continuously discharged through the metal filter net to the lateral liquid material outlet,

In the continuous solid-liquid separator for waste water treatment by the physical filtration method, the solid material which has not passed through the metal filter network among the wastewater is dropped by the rotating scraper and the funnel scraper and is continuously discharged to the lower solid material discharge port ,

A spring-inserted hole is formed at the end of the rotary arm, a spring-loaded rod is formed on the bottom surface of the scraper, a coil spring is attached to the spring-loaded rod and then a coil spring is inserted into the spring- Quot; as "characteristic, "

And the liquid material is filtered and passed while the solid material is filtered and separated so that the wastewater is continuously passed from the inside to the outside of the cylindrical metal filter net so that the inner surface of the metal filter net So that it is unnecessary to perform backwashing on the filter net, and an efficient filtration function is provided.

In the present invention, the operation of separating the wastewater into the sludge and the filtrate can be continuously performed, the sludge attached to the inner screen filter can be scraped off, And an automatic solid-liquid separation device.

In order to solve the above-mentioned problems, a vertical type automatic solid-liquid separator according to the present invention includes:

A cylindrical body having an inner receiving portion, a wastewater inlet formed at the upper end to be connected to the receiving portion, a filtered liquid outlet formed at the lower end to be connected to the receiving portion at the lower end, and a sludge outlet formed vertically through the lower portion, Chamber;

A screen filter formed in a vertically opened cylindrical shape and installed in a receiving portion of the chamber;

A rotating shaft vertically installed at the center of the receiving portion of the chamber so as to pass through the screen filter; And

And a scraping unit coupled to the rotating shaft and having a scraper contacting the inner wall of the screen filter,

The chamber has an annular upper seating part protruding along the inner wall of the receiving part so as to be disposed below the wastewater inlet and an annular lower seating part protruding along the inner wall of the receiving part to be disposed below the filtrate outlet And,

The screen filter includes an upper flange portion protruding along the outer wall of the upper end portion to be laid on the upper seating portion and a lower flange portion protruding from the lower end outer wall of the screen filter to be placed on the lower seating portion,

And the waste water inlet is formed along the tangential direction around the chamber.

The vertical type automatic solid-liquid separator according to the present invention comprises:

In the wastewater introduced into the chamber, the sludge sinks to the bottom of the chamber, and the filtrate is discharged through the filtrate outlet through the screen filter, thereby separating the wastewater into sludge and filtrate. Not only the attached sludge can be removed but also the wastewater introduced into the chamber through the wastewater inlet opens a vortex so that the process of separating the wastewater into the sludge and the filtrate can be performed more quickly and smoothly.

1 is a side sectional view of a vertical type automatic solid-liquid separator according to an embodiment of the present invention;
2 is a plan sectional view of a vertical type automatic solid-liquid separator according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, a vertical type automatic solid-liquid separation apparatus according to an embodiment of the present invention mainly includes a chamber 100, a screen filter 200, a rotating shaft 300, (400) and a rotary valve (500).

The chamber 100 has a substantially cylindrical shape,

An inner receiving portion 110;

A wastewater inlet 120 formed at the upper end to be connected to the receiving portion 110 through a lateral passage;

A filtrate outlet 130 formed at a lower end of the filtrate outlet 130 so as to be connected to the receptacle 110; And

And a sludge outlet 140 formed at the center of the lower surface so as to be connected to the receptacle 110 through the upper and lower portions.

The screen filter 200 has a vertically opened cylindrical shape and is installed in the receiving portion 100 of the chamber 100.

The periphery of the screen filter 200 has a net structure so that solids can be filtered out from the wastewater introduced into the chamber 100 to pass only the filtrate.

As shown in FIG. 1, the chamber 100 is provided with an annular upper seating portion 150 protruding along the inner wall of the receiving portion 100 so as to be disposed below the inlet 120, An annular lower seating part 160 protruding along the inner wall of the receiving part 110 is formed to be disposed below the filtrate outlet 130,

The screen filter 200 includes an upper flange portion 210 formed to protrude along the outer wall of the upper end portion and to be placed on the upper seating portion 150 of the chamber 100 and a lower flange portion 210 protruding along the outer wall of the lower end portion, A lower flange portion 220 to be placed on the lower seating portion 160 is formed.

That is, the screen filter 200 is installed in the chamber 100 in a state in which the upper flange portion 210 and the lower flange portion 220 of the screen filter 200 are respectively placed on the upper seating portion 150 and the lower seating portion 160 of the chamber 100, Lt; / RTI >

The upper seating portion 150 and the upper flange portion 210 and between the inner wall of the chamber 100 and the outer wall of the screen filter 200 by the lower seating portion 160 and the lower flange portion 220, A spaced apart space S having a structure in which a lower side is closed is formed,

According to this structure, the wastewater introduced into the receiving portion 110 through the wastewater inlet 120 of the chamber 100 flows into the inside of the screen filter 200, and thus the wastewater flowing into the inside of the screen filter 200 The sludge is deposited on the bottom of the chamber 100 and then discharged to the outside of the chamber 100 when the sludge discharge port 140 is opened and the filtrate passes through the periphery of the screen filter 200, To the outside of the chamber 100.

2, the waste water inlet 120 of the chamber 100 is formed along the tangential direction around the chamber 100. According to this structure, the waste water inlet 120 of the chamber 100 is formed with the waste water inlet 120 through the waste water inlet 120, The wastewater introduced into the wastewater 110 causes a vortex flow, so that the process of separating the wastewater into the sludge and the filtrate can be performed more quickly and smoothly. In addition, the sludge adhered to the inner wall of the chamber 100 and the inner wall of the screen filter 200 is swept away by the vapors of the wastewater, so that the performance of the apparatus can be maintained for a long time.

The rotary shaft 300 is rotatably mounted in the chamber 100 and vertically installed at the center of the receiving portion 110 of the chamber 100 so as to vertically penetrate the screen filter 200 installed in the chamber 100.

1, the rotary shaft 300 has an upper end protruding upward through the chamber 100, and a reducer 600 and a motor 700 are connected to the protruded upper end of the rotary shaft 300, .

The upper portion of the rotary shaft 300 is rotatably supported by the sealing device 170 and the bearing 180 provided on the upper surface of the chamber 100. The lower portion of the rotary shaft 300 is supported by a boss boss 191 and a support member 190 composed of a plurality of arms 192 arranged radially around the boss 191 to connect the boss 191 and the inner wall of the chamber 100 .

The scraping unit 400 is coupled to the rotating shaft 300 to remove sludge adhered to the inner wall of the screen filter 200,

Two or more upper supports 420 radially joined to the rotary shaft 300 so as to be disposed inside the screen filter 200;

Two or more lower supports 430 radially joined to the rotary shaft 300 so as to be disposed at an inner lower portion of the screen filter 200 and arranged to face each upper support 420;

At least two support frames (420) disposed along the longitudinal direction of the rotary shaft (300) and each having an upper end and a lower end facing each other, and at least two support frames (440) movably fitted into the respective lower supports (430);

A plurality of mounting plates (450) coupled to each support frame (440) so as to be arranged along the longitudinal direction thereof;

A plurality of scrapers 410 detachably coupled to each mounting plate 450 and having an end abutted against an inner wall of the screen filter 200; And

And a compression coil spring 460 sandwiched between the upper supporter 420 and the lower supporter 430 so as to be disposed between the rotary shaft 300 and the support frame 440.

2, the upper support 420 and the lower support 430 are provided in three radial directions with respect to the center of the rotary shaft 300, respectively, so that the support frame 440 And is coupled to each of the upper supporters 420 and the lower supporters 430 facing each other.

The number of the upper supporter 420, the lower supporter 430, and the support frame 440 may be variously changed in consideration of the size of the apparatus, the processing capacity, and the like.

The support frame 440 is coupled to the upper support 420 and the lower support 430, which are formed to be long along the longitudinal direction of the rotary shaft 300, and which are opposed to each other.

A through hole 441 is formed in the upper end portion and a lower end portion of the support frame 440 and the upper support plate 420 and the lower support plate 430 are inserted into the through hole 441, And moves back and forth by riding on the supporter 420 and the lower supporter 430.

The upper support 420 and the lower support 430 are formed with bolts and washers which are fastened to the upper ends of the upper and lower supports 420 and 430 so that the support frame 440 fitted to the upper and lower supports 420, A stopper 470 may be provided.

The mounting plate 450 is fixed to the support frame 440 by welding or the like and the scraper 410 is detachably coupled to the mounting plate 450 by bolting or the like.

The compression coil spring 460 is interposed between the support frame 440 and the rotary shaft 300 to urge the support frame 440 toward the inner wall of the screen filter 200 so that even if the scraper 410 is worn, In order to maintain the contact state.

As a result, the scraping unit 400 rotates inside the screen filter 200 together with the rotating shaft 300 in a state where each scraper 410 is in contact with the inner wall of the screen filter 200, The sludge adhering to the inner wall of the sludge tank is scraped off.

As shown, each scraper 410 is formed in an arcuate shape, and each of the scraper 410 is disposed obliquely to the support frame 440 and arranged in a helical shape. According to this structure, the scraping unit 400 The sludge adhered to the inner wall of the screen filter 200 can be easily moved downward and the sludge is compressed by the rotating operation, Can be improved.

The rotary valve 500 is installed in the sludge outlet 140 of the chamber 100,

As shown in FIG. 1,

A housing 510 having an upper inlet 511 connected to the sludge outlet 140, and a lower outlet 512;

A rotor 520 installed inside the housing 510 to be disposed between the inlet 511 and the outlet 512 and having a plurality of blades 521 arranged in a radial direction; And

And a driving unit 530 connected to the rotor 520 to rotate the rotor 520.

The sludge is accumulated in the spaces between the blades 521 disposed at the inlet 511 side of the housing 510 in the state where the rotor 520 is stopped so that the sludge outlet 140 is closed When the rotor 520 rotates, the sludge accumulated between the blades 521 disposed on the inlet 511 side is transferred downward and discharged to the outlet 512, thereby opening the sludge outlet 140 do.

While the present invention has been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be construed as falling within the scope of protection of the present invention.

100: chamber
110: accommodating portion 120: waste water inlet
130: filtrate outlet 140: sludge outlet
150: upper seating portion 160: lower seating portion
170: sealing device 180: bearing
190: support member
200: Screen filter
210: upper flange portion 220: lower flange portion
300:
400: scraping unit
410: scraper 420: upper support
430: lower support table 440: support frame
450: mounting plate 460: compression coil spring
470: Stopper
500: Rotary valve
510: housing 520: rotor
530:
600: Reducer
700: motor

Claims (4)

A wastewater inlet 120 formed at the upper end to be connected to the receiving portion 110 and a wastewater inlet 120 formed at a lower end to be connected to the receiving portion 110; An annular upper seating part 150 protruding along the inner wall of the receiving part 110 so as to be disposed below the waste water inlet 120, a sludge outlet 140 formed to pass through the upper part of the receiving part 110, And an annular lower seating part 160 protruding along the inner wall of the receiving part 110 so as to be disposed below the filtrate discharging opening 130;
And an upper flange portion 210 formed on the upper seating portion 150 of the chamber 100. The upper flange portion 210 is formed on the upper receiving portion 110 of the chamber 100, And a lower flange portion 220 protruding from the outer periphery of the lower end portion to be laid on the lower seating portion 160 of the chamber 100;
A rotating shaft 300 vertically installed at the center of the receiving portion 110 of the chamber 100 so as to pass through the screen filter 200;
A scraping unit 400 coupled to the rotating shaft 300 and having a scraper 410 in contact with an inner wall of the screen filter 200; And
And a rotary valve (500) installed at a sludge outlet (140) of the chamber (100)

The waste water inlet 120 is formed along the tangential direction around the chamber 100,

The scraping unit (400)
Two or more upper supporters 420 radially formed on the rotary shaft 300 so as to be disposed on the inner upper side of the screen filter 200;
Two or more lower supports 430 radially formed on the rotating shaft 300 so as to be disposed on the inner lower side of the screen filter 200 and arranged to face the upper supports 420;
Two or more support frames 440 disposed along the longitudinal direction of the rotary shaft 300 and each having an upper support part 420 and an upper support part 420 facing each other at an upper end and a lower end,
A plurality of mounting plates (450) coupled to the support frames (440) so as to be arranged along the longitudinal direction thereof;
A plurality of scrapers (410) detachably coupled to the respective mounting plates (450), the ends of which contact the inner wall of the screen filter (200); And
And a compression coil spring 460 sandwiched between the upper supporter 420 and the lower supporter 430 so as to be disposed between the rotary shaft 300 and the support frame 440,

Wherein each of the scrapers (410) is arranged in a spiral shape.
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