KR101816693B1 - Screw press dehydration system - Google Patents

Abstract

The present invention relates to a screw press dehydration system improving an energy saving work environment which can optimize a condensation and dehydration effect as well as enhance a mixture and condensation effect of polymer and sludge and enable a flowing flux to stably act. The system comprises: a sludge tank temporarily storing collected sludge; a sludge pump installed on a sludge supply line for supplying the sludge from the sludge tank; a polymer dissolving device storing the polymer to be used for condensation of the sludge; a polymer pump installed on a polymer supply line for supplying the polymer from the polymer dissolving device; a pipe condensation device mixing and condensing the sludge supplied from the sludge tank and the polymer supplied from the polymer dissolving device; a filtrate dehydration device primarily dehydrating the condensed mixture of the sludge and the polymer supplied from the pipe condensation device; a screw press secondarily dehydrating the mixture of the sludge and the polymer supplied from the filtrate dehydration device; a purified water tank storing purified water; and a washing water pump installed on a purified water supply line for supplying the purified water from the purified water tank.

Description

Screw press dehydration system for improved energy saving working environment

The present invention relates to a screw press dewatering system for improving energy saving working environment, and more particularly, to a dewatering system for screw press dewatering system capable of smoothly mixing and coagulating sludge and polymer and optimally flowing, The present invention relates to an energy saving work environment improvement screw press dewatering system.

Generally, for the sludge treatment, a device such as a screw press is used in which a rotating screw is installed in a cylindrical perforated network to concentrate and dehydrate the sludge.

An example of such a screw press is Korean Registered Patent Publication No. 10-1337290 (published on June 6, 2013).

However, the prior art for the treatment of sludge is not optimized for the entire system for the treatment of sludge, but is developed by concentrating only on the efficiency of individual devices such as screw presses, thereby optimizing flocculation and mixing, The overall efficiency of the device is not sufficiently considered, and the design is limited to a certain low technical limit. Therefore, there is an urgent need to develop a new technology that can lower the water content.

Korean Registered Patent Publication No. 10-1337290 (Announced on December 6, 2013)

In order to solve the above-mentioned problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to enhance the effect of mixing and coagulation of polymer and sludge and to stably flow the flowing flocs, The purpose of the present invention is to provide a dehydration system for an improved energy saving working environment of a screw press.

It is another object of the present invention to provide an energy saving work environment improvement screw press dewatering system capable of not only automatic and manual operation but also smooth operation and preventing occurrence of deformation, There is a purpose.

It is another object of the present invention to provide a dehydration system for an energy saving working environment improvement screw press which is easy to clean in a screw press which is difficult to disassemble and assemble and can increase the productivity of sludge treatment by increasing the cleaning effect.

Further, it is an object of the present invention to provide a dehydrating system for an improved energy-saving working environment of a screw press which is easy to operate, has little noise and vibration, and hardly generates a trouble.

The present invention also relates to an energy saving operation environment capable of performing a complete dehydration treatment of the sludge in a stable and excellent efficiency through an optimum design system comprising a pipe coagulation apparatus of polymer and sludge, a filtrate dehydration apparatus aggregated with polymer and sludge, and a screw press And to provide an improved screw press dehydration system.

As a means for solving the above problems, the present invention provides an energy saving working environment improvement screw press dewatering system,

A sludge tank for temporarily storing the collected sludge,

A sludge pump installed on the sludge supply line for supplying sludge from the sludge tank,

A polymer dissolving device for storing the polymer to be used for sludge agglomeration,

A polymer pump installed on the polymer supply line for supplying the polymer from the polymer dissolving apparatus,

A pipe coagulating device for mixing and coagulating the sludge supplied from the sludge tank and the polymer supplied from the polymer dissolving device,

A filtrate dewatering device for primarily performing a dewatering operation on a mixture of the coagulated sludge and polymer supplied from the pipe coagulating device,

A screw press for performing a second dewatering operation from the sludge and polymer mixture supplied from the filtrate dewatering device,

A washing water tank for storing washing water and

And a washing water pump provided on the washing water supply line for supplying washing water from the washing water tank,

And the wash water pump is a booster pump having a pressure of 6 kg / cm 2 or more.

Further, in the pipe coagulation apparatus,

A cross-shaped tubular body having a sludge inflow path, a sludge and polymer aggregation discharge path, and a sludge flow path having a circular section,

A rotating shaft installed vertically through the center of the sludge flow path of the cross-shaped tubular body,

An agitating blade located on the sludge flow path of the cross-shaped tubular body and having a lower end coupled to the rotating shaft;

And a polymer supply pipe connected to the polymer flow path of the rotating shaft to supply the polymer,

 The agitating blades are formed with rounded corners at the end edges, the number of which is 6 to 8,

A drive shaft having a drive shaft coupled to one end of the rotary shaft through a coupling,

A coupling cover for connecting the driving means and the cross-shaped body body,

A tubular body having a hollow portion formed at an end of the tubular body to be inserted into the tubular body,

A first bearing inserted and coupled to the hollow portion of the one-side finishing portion and supporting a rotating shaft of the driving means side,

A first bearing cover which is provided at an end portion of the one-side finishing portion on the drive means side and is provided with a first sealing member at the center thereof to seal the periphery of the first bearing,

A first sealing bracket provided on an end portion of the stirring blade side of the one-side finishing portion,

A first mechanical seal mounted on the first sealing bracket,

A second sealing member disposed between the first bearing and the first mechanical seal,

A tubular body having a hollow portion formed at an end thereof to be engaged with the other side portion of the cross-shaped tubular body,

A second bearing inserted and coupled to the hollow portion of the other finishing portion and supporting a rotation shaft on the opposite side of the driving means,

A second bearing cover provided at an end of the other end portion opposite to the driving means and provided with a third sealing member at the center to seal the periphery of the second bearing,

A second sealing bracket provided on an end portion of the other end of the agitating blade,

A second mechanical seal mounted on the second sealing bracket,

And a fourth sealing member disposed between the second bearing and the second mechanical seal,

A first oil supply port formed through the crucible body and the one-side finishing portion,

A second oil supply port formed through the cross-shaped tubular body and the other end portion,

An electronic automatic oil supply device coupled to each of the first oil supply port and the second oil supply port,

A first lock nut installed between the first bearing and the first bearing cover,

And a second lock nut installed between the second bearing and the second bearing cover,

A first connection hole passing through the cruciform body body and the one-side finishing portion and connected to the space between the one-side finishing portion and the second sealing bracket;

And a second connection hole passing through the cross body body and the other end portion and connected to a space portion between the other end portion and the second sealing bracket,

And the first connection hole and the second connection hole are formed in a downward direction.

Further, in the pipe coagulation apparatus,

A sludge inflow path, a sludge and a polymer flocculation discharge path,

A sludge line connected in a straight line to the sludge inflow path and connected to the sludge line,

A plurality of polymer branches connected to intermediate sides of the sludge line,

And a polymer line connecting the plurality of polymer branches and the polymer line to the tip,

And the polymer branch is formed at 15 to 65A.

The apparatus may further include a polymer supply valve disposed in each of the plurality of polymer branches,

Wherein the polymer supply valve comprises a ball valve and is configured to be replaceable by forming a union or a flange.

Further, the filtrate dehydrating apparatus

An outer tube having a circular tube shape and having a discharge hole at a predetermined interval on a lower side thereof,

A cylindrical filter screen disposed inside the outer cylinder at a distance from the inner circumferential surface of the outer cylinder and having a length of 1500 to 2000 mm and a plurality of filtration holes having a diameter of 0.5 to 5 mm,

Cleaning means located inside the filter screen, for cleaning the filter screen back and forth in the longitudinal direction of the filter screen,

And driving means for driving the cleaning means,

In addition,

And a cleaning portion formed by a plurality of spaced apart and formed of 2 to 8 pieces.

Wherein each of the cleaning portions comprises a ring-shaped brush having an outer diameter of 0.1 to 0.5 mm and made of nylon and a brush holder to which the brush is fixed,

Wherein the brush holder comprises:

An outer ring portion to which the brush is coupled,

A plurality of connection links disposed radially inside the outer ring portion,

And a core portion positioned at the center of the outer ring portion and coupled to the outer side of the outer ring portion,

The driving means is composed of an air cylinder and has a stroke of 750 to 1000 mm. The right and left limit switch and the air control valve control the reciprocating motion and the speed in the left and right direction,

Wherein a front end of the rod of the air cylinder is coupled to a core portion of the cleaning portion,

And a T-shaped pipe which is connected to the inflow portion of the outer tube and to which a flange cover is coupled to prevent the airtightness of the other opening,

The air cylinder is fixedly coupled to the outside of the flange cover,

And a sludge observation unit coupled to a discharge unit of the outer cylinder,

The sludge-

A hollow cylindrical body portion to which the outer tube is coupled to the inflow portion,

A discharge pipe coupled to a lower portion of the body portion,

A transparent window coupled to one side of the body and having a diameter of 200 to 300 mm,

An illumination means installed so as to confirm the inside through the transparent window,

A cleaning agent which is coupled to the inner surface of the transparent window and rotates to remove the transparent window,

And a cleaning unit having one end coupled to the cleaning tool and penetrating the transparent window and having a grip at the other end thereof.

Further, in the screw press,

Base frame,

One side and the other side frame provided on both sides of the base frame,

A cylindrical screen fixedly coupled to the one side and the other side frame at both ends thereof and having a plurality of perforations,

A rotary screw rotatably supported by the first and second bearings provided on the one side and the other side frame and having a spiral blade formed on the outside,

Four to eight sludge inlet pipes connected to the inside of the cylindrical screen through the one side frame and around the rotating screw,

Two to four guide bars fixedly mounted on the bracket of the other side frame,

A pressing portion which is slidably mounted on the guide bar and moves back and forth toward a cake outlet formed on the other side of the cylindrical screen,

A pair of pressing air cylinders fixedly installed on the upper and lower sides of the other side frame and pressing the pressing portion forward and rearward,

A linear motion guide (LM guide) having both ends fixed to the beam member fixed to the one side and the other side frame,

And a plurality of posture nozzles are installed on the left and right sides of the screen so as to be movable in the longitudinal direction of the screen by a single system, A washing unit configured to be able to double wash

And a casing fixed to the one side and the other side frame and the base frame and accommodating the screen and the cleaning unit,

An auxiliary frame positioned outside the other side frame and fixedly installed on the base frame,

And a third bearing installed in the auxiliary frame and rotatably supporting one end of the rotary shaft of the rotary screw,

And a main driving means for rotating the rotating shaft of the rotating screw.

Further, a pressure transmitter installed in a pipe connecting the filtrate dehydrating device and the screw press,

And a control device for controlling the screw press, the sludge pump, and the polymer pump according to the pressure value input from the pressure transmitter.

Further, the control device performs proportional control, proportional integral, and proportional differential control.

In addition, an inlet of the sludge pump is connected to the outlet of the sludge pump for inputting [(Fe ₂ (OH) _n (SO ₄ ) _{3 -n / 2} ) _m (0 < _{n? 2} , m = f Is further provided.

Through the above-mentioned problem solving means, the energy saving working environment improvement screw press dewatering system of the present invention improves the effect of mixing and agglomeration of the polymer and sludge and not only stably behaves the flowing flocs, but also the concentration and dehydration effect It is possible to optimize the operation of the screw press, to automatically and manually operate the apparatus, to smoothly operate the apparatus, to prevent the occurrence of deformation, and to improve the convenience and stability remarkably, It is possible to increase the productivity of the sludge treatment by facilitating the washing effect, and it is easy to operate, has little noise and vibration, and has almost no trouble occurrence, which makes it easy to maintain and repair.

FIG. 1 is a view schematically showing a screw-press dewatering system for improving energy saving working environment according to the present invention.
2 is a cross-sectional view of a piping coagulation apparatus for an energy saving working environment improvement screw press dewatering system according to the present invention.
3 is a plan view showing a piping coagulation apparatus for an energy saving working environment improvement screw press dewatering system according to the present invention.
4 is a front view of the filtrate dehydrating apparatus of the screw press dewatering system for improving energy saving working environment according to the present invention.
5 is a cross-sectional view illustrating an apparatus for dewatering filtrate of a screw press dewatering system for improving energy saving working environment according to the present invention.
FIG. 6 is a view showing a screw press of a screw press dewatering system for improving energy saving working environment according to the present invention in a front view. FIG.
7 is a view showing a screw press of a screw press dewatering system for improving energy saving working environment according to the present invention, which is exploded and observed from above.

BEST MODE FOR CARRYING OUT THE INVENTION A preferred embodiment of a screw press dewatering system for improving energy saving working environment according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view of a piping coagulation apparatus of an energy saving working environment improvement screw press dewatering system according to the present invention. FIG. 2 is a cross- FIG. 3 is a plan view showing a piping coagulation apparatus of a screw press dewatering system for improving energy saving working environment according to the present invention. FIG. 4 is a front view of an apparatus for dewatering filtrate of a screw press dewatering system for improving energy saving working environment according to the present invention. FIG. 5 is a cross-sectional view illustrating an apparatus for dewatering filtrate of a screw press dewatering system for improving energy saving working environment according to the present invention, and FIG. 6 is a view showing an energy- Fig. 5 is a view showing a state in which a screw press of the system is exploded on the front face, 7 is an exploded view of the screw press of the screw press dewatering system for improving energy saving working environment according to the present invention.

1, an energy saving working environment improvement screw press dewatering system according to the present invention includes a sludge tank 100, a sludge pump 200, a polymer dissolving apparatus 300, a polymer pump 400, A filtrate dehydrating apparatus 600, a screw press 700, a washing water tank 800, a washing water pump 900, and the like.

Here, the sludge tank 100 is storage means for temporarily storing collected sludge.

The sludge pump 200 is a pump installed on a sludge supply line for supplying sludge from the sludge tank 100 and forcibly transferring sludge stored in the sludge tank 100.

The polymer dissolution apparatus 300 is a polymer storage means for storing a polymer to be used for sludge agglomeration.

The polymer pump 400 is a pump installed on the polymer supply line for supplying the polymer from the polymer dissolving apparatus 300, and forces the polymer stored in the polymer dissolving apparatus 300 to be transferred.

The pipe coagulating apparatus 500 is an apparatus for mixing and coagulating the sludge supplied from the sludge tank 100 and the polymer supplied from the polymer dissolving apparatus 300. As shown in Figs. 2 and 3, A cross body body 501 having a sludge inflow path 509 and a sludge and polymer flocculation discharge path 510 and a sludge flow path having a circular cross section, And a stirring blade 503 disposed on the sludge flow path of the cross body body 501 and having a lower end coupled to the rotation shaft 502.

The agitating blades 503 are formed in a rectangular shape with rounded end edges, and the number of the agitating blades 503 is six to eight.

The pipe coagulation apparatus 500 includes a drive shaft 504 having a drive shaft coupled to one end of the rotation shaft 502 through a coupling 511 and an inverter motor 507, A coupling cover 512 for connecting the tubular body 501, a one-side finishing portion 505 which is inserted into one side of the cross-shaped tubular body 501 and has a hook at an end thereof and has a hollow portion therein, A first bearing 513 inserted into the hollow portion of the one-side finishing portion 505 and supporting the rotation axis 502 of the driving means 504 in the inside, A first bearing cover 514 provided at an end of the one side finishing portion 505 at the side of the first finishing portion 504 and having a first sealing member 515 at the center thereof to seal the periphery of the first bearing 513, A first sealing bracket 516 provided at an end portion of the first sealing bracket 516 on the side of the first sealing bracket 516, A second sealing member 518 installed between the first bearing 513 and the first mechanical seal 517 and a second sealing member 518 inserted into the other side of the cross body body 501, A rotation shaft 502 on the opposite side of the driving means 504 is inserted into the hollow portion of the other side finishing portion 506 and inserted into the hollow portion of the other side finishing portion 506. The other end portion 506 has a hollow portion inside, And a third sealing member 521 provided at the center of the second bearing 519 so as to seal the periphery of the second bearing 519. The second bearing 519 supports the second bearing 519, A second sealing bracket 522 provided at an end of the other side finishing portion 506 on the side of the agitating blades 503 and a second sealing bracket 522 attached to the second sealing bracket 522, A second mechanical seal 523, a fourth sealing part 523 provided between the second bearing 519 and the second mechanical seal 523, And a material 524.

The pipeline coagulation apparatus 500 includes a first oil supply port 507 formed through the cross-shaped body body 501 and the one-side finishing unit 505, a second oil supply port 507 formed through the cross- A second oil supply port 508 formed through the first oil supply port 507 and the second oil supply port 508, an electronic automatic oil supply device 525 coupled to each of the first oil supply port 507 and the second oil supply port 508, A first lock nut 526 installed between the first bearing 513 and the first bearing cover 514 and a second lock nut 527 installed between the second bearing 519 and the second bearing cover 520, A first connection hole 528 passing through the cross body body 501 and the one side finishing portion 505 and connected to the space between the one side finishing portion 505 and the second sealing bracket 522, And is connected to the space portion between the other end portion 506 and the second sealing bracket 522 through the cross body body 501 and the other end portion 506 And a second connection hole 529 are formed.

The first connection hole 528 and the second connection hole 529 are formed in a downward direction.

The pipe coagulation apparatus 500 includes a sludge line 530 connected in a straight line to the sludge inflow path 509 and connected to the sludge line, a plurality of polymers connected to both sides of the sludge line 530, The polymer branch path 531 and the polymer channel 532 connecting the polymer edge and the polymer edge are formed in the branch path 531 and the polymer branch path 531 is formed in the range of 15 to 65A .

The pipe coagulation apparatus 500 further includes a polymer supply valve 533 installed in each of the plurality of polymer branch paths 531. The polymer supply valve 533 is a ball valve, And can be replaced.

4 and 5, the filtrate dewatering apparatus 600 is a device for performing a primary dewatering operation on a mixture of polymerized sludge and polymer supplied from the pipe coagulating apparatus 500, An outer cylinder 601 having a discharge hole 603 at a predetermined interval on a lower side thereof and an inner circumferential surface of the outer cylinder 601 spaced apart from the inner circumferential surface of the outer cylinder 601 and having a length of 1500 to 2000 mm A cylindrical filter screen 602 having a plurality of filtration holes 604 having a diameter of 0.5 to 5 mm and a cylindrical filter screen 602 located inside the filter screen 602 and having a longitudinal direction of the filter screen 602, Cleaning means for cleaning the cleaning means (602), and driving means (504) for driving the cleaning means.

The cleaning unit 605 includes a plurality of spaced apart cleaning units 605 formed in two to eight positions. Each of the cleaning units 605 has a ring shape and has an outer diameter of 0.1 to 0.5 mm and is made of a nylon- (612) and a brush holder to which the brush (612) is fixed.

The brush holder includes an outer ring portion 613 to which the brush 612 is coupled, a plurality of connection portions disposed radially inward of the outer ring portion 613, The driving unit 504 is composed of an air cylinder 606 and has a stroke of 750 to 1000 mm. The left and right limit switch and the air control valve are used to reciprocate left and right, And the front end of the rod of the air cylinder 606 is coupled to the core portion 615 of the cleaning portion 605.

The filtrate dewatering device 600 is provided with a first opening 608 at the inlet of the outer cylinder 601 and an inlet 609 at a right angle upper portion of the first opening 608, The air cylinder 606 is fixedly coupled to the outer side of the flange cover 611 and is connected to the discharge port 601 of the outer cylinder 601. The air cylinder 606 is connected to the flange cover 611, And a sludge inspecting unit coupled to the sludge inspecting unit.

The sludge observation means includes a hollow cylindrical body portion 616 to which the outer tube 601 is coupled to the inlet portion, a discharge tube 618 coupled to the lower portion of the body portion 616, A transparent window 619 having a diameter of 200 to 300 mm, an illuminating means installed inside the transparent window 619 so as to confirm the inside through the transparent window 619, a transparent window 619 coupled to the inner surface of the transparent window 619, And a cleaning tool 622 having one end connected to the cleaning tool 620 and penetrating the transparent window 619 and having a handle 621 formed at the other end thereof.

6 and 7, the screw press 700 is a dehydrator for performing a second dewatering operation from the sludge and polymer mixture supplied from the filtrate dewatering device 600. The screw press 700 includes a base frame 701, A plurality of side frames 702 and 703 disposed on both sides of the base frame 701, a cylindrical screen 704 fixed to both ends of the one side and the other side frames 702 and 703 to form a plurality of perforations, A rotating screw 706 rotatably supported by first and second bearings 707 and 708 provided on one side and the other side frames 702 and 703 and formed with a spiral blade 705 on the outside, Four sludge inlet pipes 709 connected to the inside of the cylindrical screen 704 around the rotating screw 706 through the sludge inlet pipe 709 and the sludge inlet pipe 709 fixed to the bracket of the other side frame 703 A pressing portion 710 which is slidably mounted on the guide bar 711 and moves back and forth toward a cake outlet formed on the other side of the cylindrical screen 704, A pair of pressurizing air cylinders 712 fixed to the upper and lower sides of the other side frame 703 and pressing the pressing portion 710 forward and rearward, A linear motion guide 713 which is fixedly installed at both ends of the screen 704 so as to be movable in the left and right directions by the linear motion guide 713 and LM guide, A washing unit 714 in which a plurality of posture nozzles 715 are formed and fixed to the one side and the other side frames 702 and 703 and the base frame 701 to be reciprocated in the longitudinal direction of the screen 704, The cleaning unit 714 An auxiliary frame 717 positioned on the outer side of the other side frame 703 and fixed to the base frame 701 and an auxiliary frame 717 installed on the auxiliary frame 717 to receive the rotation of the rotation screw 706, A third bearing 718 for rotatably supporting one end of the rotating shaft 502 and a main driving means 719 for rotating the rotating shaft 502 of the rotating screw 706.

The washing water tank 800 is storage means for storing the washing water supplied to the washing unit 714.

The washing water pump 900 is a pump installed on the washing water supply line for supplying washing water from the washing water tank 800. The washing water is forced from the washing water tank 800 to the washing unit 714, .

Preferably, the wash water pump 900 is a booster pump having a pressure of 6 kg / cm 2 or more.

1, a pressure transmitter 1000 is installed in a pipe connecting the filtrate dewatering device 600 and the screw press 700. As shown in FIG.

The control device controls the screw press 700, the sludge pump 200 and the polymer pump 400 according to the pressure value input from the pressure transmitter 1000. The control device controls proportional control, proportional integral, proportional control And performs differential control.

In the present invention, [(Fe ₂ (OH) _n (SO ₄ ) _{3 -n / 2} ) _m (0 < _{n 2} , m = f (n)] is added to the outlet of the sludge pump 200 And an input means for inputting by a pump is provided so that the water content can be remarkably lowered.

Through the above-described structure, the energy-saving working environment improvement screw press dewatering system of the present invention improves the effect of mixing and agglomeration of the polymer and the sludge, stably flows the flowing flocs, The screw press 700 can be operated automatically and manually as well as being smoothly operated and prevented from being deformed. Thus, convenience and stability can be remarkably increased, and in the screw press 700 which is difficult to disassemble and assemble, It is possible to increase the productivity of the sludge treatment by facilitating the cleaning effect, and it is easy to operate, has a small noise and vibration, and has almost no trouble occurrence, so that it has advantages such as easy maintenance.

100: sludge tank
200: sludge pump
300: Polymer dissolution apparatus
400: polymer pump
500: Piping coagulation apparatus 501: Cross-shaped body body
502: rotating shaft 503: agitating blade
504: driving means 505:
506: other end portion 507: first oil supply port
508: Second oil supply port 509: Sludge inflow path
510: Sludge and polymer flocculation exhaust 511: Coupling
512: coupling cover 513: first bearing
514: first bearing cover 515: first sealing member
516: first sealing bracket 517: first mechanical seal
518: second sealing member 519: second bearing
520: second bearing cover 521: third sealing member
522: second sealing bracket 523: second mechanical seal
524: fourth sealing member 525: electronic automatic oil supply device
526: first lock nut 527: second lock nut
528: first connection hole 529: second connection hole
530: sludge line 531: polymer branching
532: Polymer line 533: Polymer supply valve
600: filtrate dehydrating apparatus 601: outer tube
602: Filter screen 603: Discharge hole
604: Filtration hole 605: Cleaning part
606: Air cylinder 607: T-shaped pipe
608: One opening 609: Inlet opening
610: other side opening 611: flange cover
612: Brush 613: Outer ring portion
615: core portion 616:
618: discharge pipe
619: Transparent window 620:
621: handle 622: cleaning tool operating part
700: screw press 701: base frame
702: one side frame 703: the other side frame
704: Screen 705: Spiral blade
706: rotating screw 707: first bearing
708: Second bearing 709: Sludge inlet pipe
710: pressing portion 711: guide bar
712: Air cylinder for pressurizing 713: Linear motion guide
714: Cleaning section 715: Nozzle
716: casing 717: auxiliary frame
718: third bearing 719: main drive means
800: Cleaning water tank
900: Wash water pump
1000: Pressure transmitter

Claims (1)

A sludge tank for temporarily storing the collected sludge,
A sludge pump installed on the sludge supply line for supplying sludge from the sludge tank,
A polymer dissolving device for storing the polymer to be used for sludge agglomeration,
A polymer pump installed on the polymer supply line for supplying the polymer from the polymer dissolving apparatus,
A pipe coagulating device for mixing and coagulating the sludge supplied from the sludge tank and the polymer supplied from the polymer dissolving device,
A filtrate dewatering device for primarily performing a dewatering operation on a mixture of the coagulated sludge and polymer supplied from the pipe coagulating device,
A screw press for performing a second dewatering operation from the sludge and polymer mixture supplied from the filtrate dewatering device,
A washing water tank for storing washing water and
And a washing water pump provided on the washing water supply line for supplying washing water from the washing water tank,
The washing water pump is a booster pump having a pressure of 6 kg / cm 2 or more,
In the pipe coagulation apparatus,
A cross-shaped tubular body having a sludge inflow path, a sludge and polymer aggregation discharge path, and a sludge flow path having a circular section,
A rotating shaft installed vertically through the center of the sludge flow path of the cross-shaped tubular body,
An agitating blade located on the sludge flow path of the cross-shaped tubular body and having a lower end coupled to the rotating shaft;
And a polymer supply pipe connected to the polymer flow path of the rotating shaft to supply the polymer,
The agitating blades are formed with rounded corners at the end edges, the number of which is 6 to 8,
A drive shaft having a drive shaft coupled to one end of the rotary shaft through a coupling,
A coupling cover for connecting the driving means and the cross-shaped body body,
A tubular body having a hollow portion formed at an end of the tubular body to be inserted into the tubular body,
A first bearing inserted and coupled to the hollow portion of the one-side finishing portion and supporting a rotating shaft of the driving means side,
A first bearing cover which is provided at an end portion of the one-side finishing portion on the drive means side and is provided with a first sealing member at the center thereof to seal the periphery of the first bearing,
A first sealing bracket provided on an end portion of the stirring blade side of the one-side finishing portion,
A first mechanical seal mounted on the first sealing bracket,
A second sealing member disposed between the first bearing and the first mechanical seal,
A tubular body having a hollow portion formed at an end thereof to be engaged with the other side portion of the cross-shaped tubular body,
A second bearing inserted and coupled to the hollow portion of the other finishing portion and supporting a rotation shaft on the opposite side of the driving means,
A second bearing cover provided at an end of the other end portion opposite to the driving means and provided with a third sealing member at the center to seal the periphery of the second bearing,
A second sealing bracket provided on an end portion of the other end of the agitating blade,
A second mechanical seal mounted on the second sealing bracket,
A fourth sealing member disposed between the second bearing and the second mechanical seal,
A first oil supply port formed through the crucible body and the one-side finishing portion,
A second oil supply port formed through the cross-shaped tubular body and the other end portion,
An electronic automatic oil supply device coupled to each of the first oil supply port and the second oil supply port,
A first lock nut installed between the first bearing and the first bearing cover,
And a second lock nut installed between the second bearing and the second bearing cover,
In the pipe coagulation apparatus,
A sludge inflow path, a sludge and a polymer flocculation discharge path,
A sludge line connected in a straight line to the sludge inflow path and connected to the sludge line,
A plurality of polymer branches connected to intermediate sides of the sludge line,
A polymer conduit connecting the plurality of polymer branches and the tip and polymer lines,
And a polymer supply valve installed in each of the plurality of polymer branches,
The polymer supply valve is composed of a ball valve and is configured to be replaceable by forming a union or a flange,
The filtrate dewatering device comprises:
An outer tube having a circular tube shape and having a discharge hole at a predetermined interval on a lower side thereof,
A cylindrical filter screen disposed inside the outer cylinder at a distance from the inner circumferential surface of the outer cylinder and having a length of 1500 to 2000 mm and a plurality of filtration holes having a diameter of 0.5 to 5 mm,
Cleaning means located inside the filter screen, for cleaning the filter screen back and forth in the longitudinal direction of the filter screen,
And driving means for driving the cleaning means,
In addition,
And a cleaning portion formed by a plurality of spaced apart and formed of 2 to 8 pieces.
Wherein each of the cleaning portions comprises a ring-shaped brush having an outer diameter of 0.1 to 0.5 mm and made of nylon and a brush holder to which the brush is fixed,
Wherein the brush holder comprises:
An outer ring portion to which the brush is coupled,
A plurality of connection links disposed radially inside the outer ring portion,
And a core portion positioned at the center of the outer ring portion and coupled to the outer side of the outer ring portion,
The driving means is composed of an air cylinder and has a stroke of 750 to 1000 mm. The right and left limit switch and the air control valve control the reciprocating motion and the speed in the left and right direction,
Wherein a front end of the rod of the air cylinder is coupled to a core portion of the cleaning portion,
And a T-shaped pipe which is connected to the inflow portion of the outer tube and to which a flange cover is coupled to prevent the airtightness of the other opening,
The air cylinder is fixedly coupled to the outside of the flange cover,
And a sludge observation unit coupled to a discharge unit of the outer cylinder,
The sludge-
A hollow cylindrical body portion to which the outer tube is coupled to the inflow portion,
A discharge pipe coupled to a lower portion of the body portion,
A transparent window coupled to one side of the body and having a diameter of 200 to 300 mm,
An illumination means installed so as to confirm the inside through the transparent window,
A cleaning agent which is coupled to the inner surface of the transparent window and rotates to remove the transparent window,
And a cleaning unit coupled to the cleaning unit and having a handle formed at the other end thereof through the transparent window,
In the screw press,
Base frame,
One side and the other side frame provided on both sides of the base frame,
A cylindrical screen fixedly coupled to the one side and the other side frame at both ends thereof and having a plurality of perforations,
A rotary screw rotatably supported by the first and second bearings provided on the one side and the other side frame and having a spiral blade formed on the outside,
Four to eight sludge inlet pipes connected to the inside of the cylindrical screen through the one side frame and around the rotating screw,
Two to four guide bars fixedly mounted on the bracket of the other side frame,
A pressing portion which is slidably mounted on the guide bar and moves back and forth toward a cake outlet formed on the other side of the cylindrical screen,
A pair of pressing air cylinders fixedly installed on the upper and lower sides of the other side frame and pressing the pressing portion forward and rearward,
A linear motion guide (LM guide) having both ends fixed to the beam member fixed to the one side and the other side frame,
And a plurality of posture nozzles are installed on the left and right sides of the screen so as to be movable in the longitudinal direction of the screen by a single system, A washing unit configured to double wash,
A casing fixed to the one side and the other side frame and the base frame and accommodating the screen and the cleaning unit,
An auxiliary frame located outside the other side frame and fixedly installed on the base frame,
A third bearing installed in the auxiliary frame and rotatably supporting one end of the rotary shaft of the rotary screw,
And main driving means for rotating the rotary shaft of the rotary screw,
A pressure transmitter installed in a pipe connecting the filtrate dewatering device and the screw press,
And a controller for controlling the screw press, the sludge pump and the polymer pump according to a pressure value inputted from the pressure transmitter.
Energy conservation work environment improvement screw press dewatering system

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