KR101106168B1 - Screw dehydrator - Google Patents

Abstract

PURPOSE: A screw dehydrator is provided to prevent the clogging phenomenon of a screen by separating sludge from the screen and smoothly washing the entire of screen by spraying water to the screen. CONSTITUTION: A main body case(10) includes a plurality of frames(11), a dehydrated remaining water outlet, and a dehydrated cake outlet. A screw shaft(21) is rotatably installed in the main body case and rotates by a driving motor. The screw shaft compresses and transfers sludge. A pressurized screw part(20) includes a spiral screw wing. A screen part(30) is installed at the outer side of the pressurized screw part and passes moisture from the sludge. A washing water spraying nozzle part is installed at the outer side of the screen part and sprays washing water toward the outer circumference of the screen part.

Description

Screw dehydrator

The present invention relates to a screw dehydrator for dewatering sludge containing water, and more particularly, the sludge may be transported while pressing sludge as well as forcing the sludge into the screw dehydrator. The present invention relates to a screw dehydrator which not only smoothly concentrates and dehydrates in a short time but also further increases the dewatering efficiency of the screw dehydrator through screen cleaning of the screw dehydrator.

Sludge (sludge) containing water from industrial wastewater treatment facilities, wastewater treatment facilities, and environmental wastewater treatment facilities such as agriculture and livestock should be treated, which is the sludge dewatering rate, that is, sludge by solid-liquid separation and dewatering equipment. The dewatering rate of the sludge is very important for how much water in the sludge has been removed, which means that there is a big difference in the sludge disposal cost and recycling range depending on the amount of water contained in the sludge. If it can be significantly reduced or removed, the cost of disposal and disposal of the sludge is reduced, as well as the economic value of the sludge can be recycled as a fuel can be recycled.

In general, in order to process the sludge, the polymer coagulant is added to the reaction tank containing the water-containing sludge to remove the water by solid-liquid separation of the sludge as the sludge reacts with the introduced polymer coagulant. The use of a flocculant alone does not sufficiently remove the water from the sludge, which lowers the dewatering efficiency of the sludge.

Thus, a device for increasing the dewatering efficiency of the sludge, that is, a dehydration device such as a centrifugal dehydrator, a belt press, a screw dehydrator, etc. is used to remove water contained in the sludge, that is, the sludge agglomerated by the flocculant is dewatered. The injected sludge is compressed by centrifugal force or a roller in the dehydration apparatus, or moisture is removed by a compression movement of a screw.

The centrifugal dehydrator supplies sludge (agglomerated solidified sludge) inside a bowl rotating at 2000 to 3000 rpm, and separates and dehydrates water and solids having different specific gravity by using the centrifugal force of the rotating bowl. Centrifugal dehydrator consumes high power to rotate the bowl at high speed, severely causes vibration and noise by the rotating bowl, as well as failure and malfunction of the centrifugal dehydrator, resulting in maintenance and management of the centrifugal dehydrator. This is difficult, such as cost, time, and manpower loss is large, and in the case of a sludge having a low specific gravity difference or high viscosity and fine particles, there was a problem that the dewatering efficiency of dewatering the sludge is deteriorated.

The belt press supplies sludge between two filter cloths (or high-pressure belts, etc.) and the pressing force (or air pressure) of each roller while passing through a plurality of rollers while the sludge is wrapped by the two filter cloths. Dehydration of the water contained in the sludge, the belt press is difficult to adjust the automatic operation in accordance with the change in the supply amount of the sludge or the concentration of the sludge, and when the excessive amount of flocculant to flocculate the sludge As the clogging occurs, the dewatered water from the sludge does not pass through the filter cloth, and the dewatering efficiency is not only lowered. When the clogging phenomenon occurs, the filter cloth is not easily washed due to the high viscosity of the flocculant. Even if the washing is not restored to its original condition, the belt press is sludge and washing according to the open type Depending on can be scattered to the outside of the belt press severe ambient pollution due to the sludge and the wash water in which the scattering of course there is a problem in that the odor has occurred.

The screw dehydrator removes water from the sludge as well as removes water from the sludge while compressing and moving the sludge to the opposite side by rotating the screw after inserting the sludge containing water into the dehydrator, the water is discharged to the outside through the screen, The screw dehydrator has a problem in that the dehydration efficiency of the screw dehydrator decreases as the fine sludge contained in the water discharged from the sludge through the screen and discharged to the outside during the compression movement blocks the screen hole of the screen.

Here, the screw dehydrator of the dehydration device, in order to solve the problem of the screw dehydrator and improve the dewatering efficiency of the sludge, domestic registered utility model No. 20-0232305 'Waste type dewatering device by the wedge-type wire filtration cylinder 'The dewatering device by the wedge-shaped wire filtration cylinder' is installed in the 'filtration cylinder in the water spray nozzle by installing a water spray nozzle outside the filtration cylinder to discharge the water contained in the sludge to the outside The dewatering efficiency of the dehydration apparatus is improved by removing the sludge filtered in the filtration cylinder by the washing water injected into the filter.

However, the dewatering device of the wedge-shaped wire filtration cylinder has a double filtration cylinder between the outer cylinder and the transfer screw inside the outer cylinder through which sludge is injected and discharged, and is a part in which high compressive force and shear force are applied. The structure of the dewatering device is very complicated as well as the structure of the dewatering device is coupled to the portion that is in contact with the transfer screw and the tapered tubular rotary shaft, the inner filtration cylinder located inside of the double filtration cylinder, as well as coupling between the respective components of the dewatering device And assembling is very difficult, and as the sludge is injected through the open sludge inlet of the outer cylinder in the dehydration device, bad smell is caused by the injected sludge, and a long slot shape is formed in the longitudinal direction of the double filtration cylinder. And the slots are equally spaced from the inlet to the outlet of the sludge. It takes a lot of time to obtain a predetermined moisture content in the paper, as well as a small amount of sludge treatment per hour, the operation of the damper by the air cylinder of the dewatering device is not adjusted in real time according to the sludge amount and concentration In the case of a poor dewatering sludge, the operation is not only very complicated, but it is impossible to realize the target dewatering efficiency constantly when there is a small change in the operating environment, and when the blockage occurs in the filtering cylinder by the sludge, the filtering cylinder is separated and washed. In order to repair or replace the water spray nozzle spraying the washing water to the outer circumferential surface of the filtration cylinder, the filter cylinder and the water spray nozzle can be repaired by removing the outer cylinder of the dehydrator and performing the repair and replacement work. And the replacement of the filtration cylinder and water spray nozzle in the dehydrator Since the washing water sprayed from the water spray nozzles is washed in the outer state of the filtration cylinder located on the outer side and the circumferential surface of the filtration cylinder on the inner side cannot be washed, the filtration efficiency is continuously reduced. This causes the sludge dewatering efficiency to decrease.

Republic of Korea Utility Model Registration No. 20-0232305 (2001.05.16.)

The present invention has been proposed in order to solve the problems in the prior art as described above, by preventing the sludge injected into the screw dehydrator to prevent odor and scattering of sludge by forcibly injecting sludge into the screw dehydrator in a closed state The sludge is compressed and transported according to the forced injection force and the rotation of the screw to smoothly concentrate the sludge as well as to smoothly remove the water contained in the sludge, that is, dewater the sludge, and the upper part of the main body case of the screw dehydrator. The separation and configuration of a plurality of screens in the screen unit, as well as easy to combine and disassemble the components between the parts, easy replacement, repair and maintenance of the screw dehydrator, water to the outer surface of the rotating screen of the screen unit Clogging of the screen by spraying to clean the entire outer surface of the screen As the diameter of the screen hole formed on the screen of the screen portion is reduced from the sludge injection portion to the discharge portion, the sludge dewatering treatment of a large capacity is possible, as well as the moisture contained in the sludge is easily removed, and the screw dehydrator The purpose of the present invention is to increase the sludge dewatering efficiency in the screw dehydrator by maintaining a constant dewatering efficiency by controlling the state change (amount, concentration, etc.) of the injected sludge and the clogging of the screen hole.

The present invention for achieving the above object, a plurality of frames coupled to the inside, the main body case each formed with a dehydration solution outlet and a dehydration cake outlet; A screw shaft which is rotatably installed in the main body case and gradually grows in diameter from the sludge inlet to the outlet so as to compress and transport the sludge while being rotated by a driving motor, and has a spiral screw blade on the outer circumferential surface of the screw shaft. Screw portion; A screen unit having a screen installed outside the pressurized screw part to filter out the sludge contained in the water discharged from the sludge that is compressed and transported and pass only the water; A washing water spray nozzle unit installed outside the screen unit and spraying the washing water onto the screen outer circumferential surface of the screen unit for cleaning; And a control unit for controlling the operation of various devices. The screw dehydrator provided with at least one inspection cover rotatably coupled to an upper side of the main body case to open and close the upper side of the main body case, and the screen unit and a screen frame. It is coupled to the outer circumferential surface of the screen frame consists of a plurality of screens having a myriad of screen holes to pass only the water escaped from the sludge, one side of the main body screw screw shaft one side is inserted and coupled to the screw shaft of the One side of the screen unit is coupled with one side of the screen unit to support the one side of the rotating shaft rotating the screen is installed rotatably, the other side in the body case that is the position corresponding to the shear rotating block is inserted into the other side of the screw shaft Screwdriver The other end of the screen is coupled with the other side of the screen and the rear end rotation block for rotating the screen is rotatably coupled, and the front rotation block is screwed to rotate in the forward and reverse directions according to dewatering of sludge and washing of the screen. A rotating unit for rotating / stopping the shaft and the screen is installed, and the screw shaft and the screen rotating in the forward and reverse directions according to the dewatering of the sludge and the cleaning of the screen are mounted on the frame of the main body case outside the screen portion. Fixing units to be installed are respectively installed, the screw dehydrator is provided on the rear rotary block side is provided with a back pressure unit to adjust the moisture content of the dewatering cake to be discharged finally.

According to the present invention made as described above, the sludge containing water injected into the screw dehydrator by the screw shaft rotation of the pressurized screw portion while being forced to inject the sludge into the screw dehydrator in a closed state is conveyed while being discharged As a result, the screw dehydrator prevents odors caused by sludge and prevents sludge from scattering, thereby cleaning the surrounding environment as well as smoothly condensing the sludge to be transported, thereby smoothly removing moisture contained in the sludge. That is, there is an effect that the dewatering efficiency of the sludge is improved.

In addition, the upper part of the main body case of the screw dehydrator is provided with an inspection cover, and configured to separate the screen of the screen portion into a plurality, the internal parts of the screw dehydrator according to the ease of coupling and disassembly between the components of the screw dehydrator And as the repair and replacement of each component of the screen unit is made easily, the maintenance of the screw dehydrator is easy, as well as the effect of reducing the loss of work time, manpower, cost and the like.

The screw dehydrator is provided with a washing water spray nozzle part and rotates the screen part, thereby spraying water (clean water) to the entire outer circumferential surface of the screen part rotated by the washing water spray nozzle part, and the sludge filtered on the screen. By separating the to clean the entire screen smoothly, it also has the effect of preventing the screen clogging phenomenon.

On the other hand, by forming a small number of screen holes formed on the screen of the screen portion from the sludge injection portion of the screw dehydrator to the discharge portion (dewatering cake forming portion) as the diameter, so that the water dehydrated from the sludge through each screen hole to the outside As it is smoothly discharged, the dewatering operation of the sludge is not only easy, but also a large amount of sludge treatment is possible.

The sludge injected into the screw dehydrator is provided with a back pressure unit equipped with a pneumatic cylinder, a moving member, a mixing plate, a gap member, and an opening degree measuring sensor to maintain a constant discharge of the dewatered cake from which the sludge is dewatered from the screw dehydrator. By controlling the state change (quantity, concentration, etc.) of the screen, screen screen clogging phenomenon, etc. of the sludge to maintain a constant dewatering efficiency of the sludge as well as improve the dewatering efficiency of the sludge, the overall performance of the screw dehydrator is improved There is also.

1 is a system diagram showing the overall system of the present invention screw dehydrator.
Figure 2 is a front view showing the screw dehydrator of the present invention.
Figure 3 is a plan view showing a screw dehydrator of the present invention.
Figure 4 is a side view of the present invention screw dehydrator.
Figure 5 is an exploded perspective view showing each configuration of the screen portion of the present invention screw dehydrator separated.
Figure 6 is a view showing a pressure screw portion of the screw dehydrator of the present invention.
Figure 7 is a cross-sectional view showing a shear rotary block of the present invention screw dehydrator in cross section.
8 is a cross-sectional view showing a rear end rotation block of the present invention screw dehydrator in a cross-sectional state.
9 is a view showing a rotation unit of the screw dehydrator of the present invention.
10 is a view showing a fixing unit of the present invention screw dehydrator.
11 is a structural diagram showing a back pressure unit structure of the present invention screw dehydrator.

Hereinafter, the screw dehydrator according to the present invention will be described in more detail with reference to FIGS. 1 to 11 as follows.

The present invention removes the water contained in the sludge while compressing and transporting sludge (sludge) containing water generated in an industrial wastewater treatment facility, a wastewater treatment facility, and an environmental wastewater treatment facility such as agricultural / livestock. Screw dehydrator for dehydration is provided.

One side of the screw dehydrator is provided with a sludge supply unit for mixing the chemical (coagulant) to the sludge generated in various wastewater treatment facilities to feed into the screw dehydrator.

As shown in FIG. 1, the sludge supply unit includes a sludge generated in the various wastewater treatment facilities as well as a sealed agglomeration apparatus 110 for injecting a chemical (coagulant) into the introduced sludge and stirring the sludge. The sludge supply pump 111 and the chemical supply pump 112 respectively pumped to supply the sludge and the medicine (coagulant) to the sealed agglomeration device 110 are provided on the outside of the hermetic agglomeration device 110, respectively. The hermetic aggregator 110 is provided with a stirrer 116 which is rotated by a motor 115 to agitate the introduced sludge and the chemicals to agglomerate the sludge. Sludge supply pipe 113 for supplying the sludge agglomerated while being agitated by the screw 116 to the screen unit 30 of the screw dehydrator, that is to be described later is connected is installed , And the sludge supply pipe 113, the sludge supplied to the pressure gauge 114 that the medicine is forcibly injected by the medicine supply pump 112, check the supply pressure of the mixed sludge is provided.

The end of the sludge supply pipe 113 is the opposite side of the hermetic agglomeration device 110 is inserted into the coupling groove 212 formed on one side of the screw shaft 21 of the pressure screw unit 20 to be described later, as well as the coupling groove ( The inlet hole 213 is formed at 212 to allow the sludge supplied from the sludge supply pipe 113 to be introduced into the screen unit 30.

The screw dehydrator into which water-containing sludge flows from the sludge supply unit is shown in FIGS. 2 to 4, and the main body case 10, the pressurized screw unit 20, the screen unit 30, Large rear rotary block 40, 50, rotary unit 60, fixed unit 70, back pressure unit 80, the washing water spray nozzle unit 90 and the control unit 100 for controlling the operation of the various devices Consists of

The main body case 10 is installed on the outside to surround various components of the screw dehydrator, and a plurality of frames 11 are coupled to the main body case 10 in the horizontal and vertical directions, and the main body case 10 Between the frame 11 positioned outside the frame 11 and the frame 11 positioned inside the support ribs 14 to reinforce the strength of the main body case 10 and to maintain a constant gap between the frames 11. ) Is installed.

The lower part of the main body case 10 is formed with a dehydration filtrate outlet port 12 through which the water (water) dehydrated from the sludge is formed, and the dewatering cake from which water is removed from the sludge is discharged from the lower part of the main body case 10. The dewatering cake outlet 13 is formed.

The upper side of the main body case 10 is rotatably coupled to the check cover 15 to open and close to check the state of the components in the main body case 10 and to easily repair and replace the respective components as shown in FIG. At least one check cover 15 is installed on the upper side of the main body case 10 in consideration of the purpose, use, effect, etc., and one surface of the check cover 15 is rotated on the main body case 10. It is hinged as possible, and the other side of the inspection cover 15 is provided with a locking member for locking the inspection cover 15 to the main body case 10 and releasing the locked state.

The pressurized screw unit 20 is to remove, that is, dehydration of the water contained in the sludge while pressing and transporting the sludge introduced into the screw dehydrator from the sludge inlet side to the sludge discharge side, the pressurized screw unit 20 is As shown in FIG. 2 and FIG. 6, a screw shaft 21 rotated by the motor 1 is provided to press the sludge and to transport the sludge to the discharge side, and a rotating screw is provided on the outer circumferential surface of the screw shaft 21. A screw blade 22 for feeding the sludge to the dewatering cake discharge port 13 by the shaft 21 is provided spirally.

The screw shaft 21 squeezes the sludge a little bit more easily, as well as the sludge, the outer diameter gradually increases toward the sludge discharge side from the sludge inlet side to smoothly transport the sludge to the dewatering cake outlet (13). It is formed so as to become large. Accordingly, the outer circumferential surface of the screw shaft 21 gradually decreases the interval between the screens 32 of the screen unit 30 to be described later as the sludge inflow side toward the sludge discharge side.

On one outer circumferential surface of the screw shaft 21, a fixing protrusion 211 is formed in contact with the contact protrusion 64 of the rotary unit 60, which will be described later, and the end of the fixing protrusion 211 has a predetermined angle. The photographic slope 211a is formed.

A coupling groove 212 is formed at one side of the screw shaft 21 so that the sludge supply pipe 113 of the sludge supply unit is inserted and coupled, and the sludge sent from the sludge supply pipe 113 to the coupling groove 212 side. An inlet hole 213 is formed to communicate with the coupling groove 212 to be introduced into the screen unit 30.

The other side of the screw shaft 21 is provided with a driving means for rotating the screw shaft 21 to compress and transport the sludge, the driving means is a motor (1) driven by a power applied from the outside It is provided, the reducer (2) for reducing the driving force (rotational force) of the motor (1) to the desired rotational speed and rotational force is connected and coupled, the reducer (2) has a drive sprocket (3) is axially coupled, A drive shaft 4 is coupled to the other side of the screw shaft 21, and a manual sprocket 5 is axially coupled to the drive shaft 4, and the drive sprocket 3 and the manual sprocket 5 are coupled to each other. Between the chain 6 which transfers the driving force of the motor 1 to the drive shaft 4 and the screw shaft 21 is coupled.

The means for transmitting the driving force of the motor 1 to the drive shaft 4 and the screw shaft 21 is applied to various structures such as pulleys and belts as well as the drive sprocket 3, the manual sprocket 5 and the chain (6) And changeable.

The end of the screw blade 22 of the pressurizing screw portion 20 is elastically in contact with the inner surface of the screen 32 of the screen portion 30, as well as being caught in each screen hole 324 of the screen 30 to be described later remaining An elastic member 221 extending and fixed to the screen 32 side is coupled by a fixing member such as a bolt or a nut to remove sludge and prevent clogging of the screen hole 324. The elastic member 221 is a screw blade. It is installed to protrude about 1 ~ 10mm from the end of 22.

The screen unit 30 is installed on the outer side of the pressure screw unit 20 to pass the water (water) escaped from the sludge that is compressed and transported by the rotation of the screw shaft 21 in the pressure screw unit 20 to pass. The dehydration liquid discharge port 12 is discharged to the outside and the sludge from which the water is removed is not allowed to pass.

As shown in FIGS. 2 and 5, the screen unit 30 is provided with a screen frame 31 forming a shape of the screen unit 30, and the outer circumferential surface of the screen frame 31 comes out of the sludge. It consists of a plurality of screens 32 having a myriad of screen holes 324 to pass only water.

The screen frame 31 of the screen unit 30 is composed of a plurality of circular frame-shaped circular plate 311, and a plurality of support frames 312 for connecting and coupling the respective circular plate 311, the screen unit ( The screen 32 of the 30 is a reinforcement having a myriad of screen holes 324 respectively installed between each circular plate 311 and the support frame 312 of the screen frame 31 to pass water discharged from the sludge. The plate 321 and the coupling plate 322 formed along the outer surface of the reinforcing porous plate 321 and bolted to each of the circular plate 311 and the support frame 312, and located in the coupling plate 322 And a plurality of reinforcing ribs 323 formed on the outer circumferential surface of the reinforcing porous plate 321.

On the outer circumferential surface of any one of the circular plate 311, a fixing protrusion 313 is formed to protrude from the contact protrusion 74 of the fixing unit 70 to be described later, and the fixing protrusion 313 The inclined surface 313a inclined at an angle is formed at the end.

Form a myriad of screen holes 324 to be evenly arranged on the entire surface of the reinforcing porous plate 321 of the screen 32, or bundles a plurality of screen holes 324 in a group and the reinforcing porous plate 321 ) Can be formed into multiple groups.

The diameter of each screen hole 324 of each screen 32 is formed to gradually decrease toward the discharge side from the sludge inflow, that is, press each of the screen 32 from the sludge inlet side to the sludge discharge side The screen hole diameter of the pressurized concentrate part is 1.0-1.5 mm, and the screen hole diameter of the pressure filter part is 0.5-1.0 so that the sludge can be easily compressed and transported and the dewatered sludge is separated by the concentration part, the pressure filtration part, and the high pressure dehydration part. mm, the diameter of the screen hole of the high pressure dewatering portion is formed to 0.1 ~ 0.5mm and the diameter of the screen hole 324 toward the pressure concentrated portion, the pressure filtration portion, the high pressure dewatering portion toward the side is formed so as to decrease by 0.1mm by 1.0mm have.

The circular plate 311 and the support frame 312 and the coupling plate 322 is fastened by fastening members such as bolts or screws to be inserted and detached to the screen frame 31 detachably coupled to the screen 32 A plurality of balls are formed.

The front end rotation block 40 is rotatably installed on one side of the main body case 10 and one side of the screw shaft 21 is inserted and coupled to support one side of the screw shaft 21 of the pressure screw unit 20. Together, the screen 32 of the screen unit 30 is rotated.

2 and 7, the shear block body 41 is coupled to the front frame 11 of the main body case 10, and the shear block body 41 is screwed to the shear block body 41. One end of the shaft 21 is inserted into a shear insertion hole 42 is inserted, the screen front coupling groove 43 is inserted into one side of the screen 32, the outer peripheral surface of the front block main body 41 is coupled It is formed along the outer circumferential surface of the rear block body 41, and is located on the outer surface of the front block body 41 to engage with the outer surface of the front block body 41 to support and rotate the shear rotary block 41 At least one shear rotating roller unit 44 is rotatably coupled to the frame 11 of the main body case 10 by a roller fixing member 45 to assist.

The rear end rotation block 50 is rotatably installed on the other side of the main body case 10 at a position corresponding to the front end rotation block 40 to support the other side of the screw shaft 21 of the pressure screw unit 20. The other side of the screw shaft 21 is inserted and coupled so as to rotate the screen 32 of the screen unit 30 so as to.

2 and 8, the rear end block body 51 is coupled to the rear end frame 11 of the main body case 10, the rear end block body 51, The other end of the screw shaft 21 is inserted into the rear end insertion hole 52 is formed, the rear end of the rear block of the screen 51, the rear end of the screen 32 is coupled to the other end of the screen 32 is inserted into the coupling It is formed along the front outer circumferential surface of the rear end block body 51, is located on the outer surface of the rear end block body 51 and engaged with the outer surface of the rear end block body 51 to support and support the rear end rotation block (51). At least one rear end rotating roller unit 54 is rotatably coupled to the frame 11 of the body case 10 by a roller fixing member 55 to assist rotation.

The front and rear rotary roller units 44 and 54 are provided with rotary rolls 441 and 541 rotatably fastened to the frame 11 by roller fixing members 45 and 55, and the front and outer circumferential surfaces of the rotary rolls. Rotating grooves 442 and 542 are formed to be engaged with the protrusions 411 and 511 protruding from the outer edges of the rear end block bodies 41 and 51.

The rotary unit 60 is installed in the shear rotary block 40 to rotate / stop the screw shaft 21 and the screen 32 to rotate in the forward and reverse directions according to the dewatering of the sludge and washing the screen 32 will be.

2 and 9, the rotation unit 60 is coupled to one surface of the first bracket 61, the first bracket 61 is supported and coupled to the shear rotation block 40, the spring 63 ) Is coupled to the first spring box 62 and the first spring box 62, the outer peripheral surface of one side of the screw shaft 21 to rotate and stop the screw shaft 21 and the screen 32 A first contact protrusion 64 formed to protrude and contact the fixed protrusion 211 having an inclined surface 211a on one surface thereof, and an inclined surface of the fixed protrusion 211 formed on an upper surface of the first contact protrusion 64. 211a) and the inclined surface 64a in sliding contact.

The fixing unit 70 is installed on the frame 11 of the main body case 10, which is the outer side of the screen unit 30, the screw shaft rotates in the forward and reverse directions according to the dewatering of the sludge and washing of the screen 32 21 and the screen 32 are rotated / stopped.

The fixing unit 70 is coupled to one surface of the second bracket 71 and the second bracket 71 supported by the frame 11 of the main body case 10, as shown in Figs. Of the screen unit 30 to rotate and stop the screw shaft 21 and the screen 32 by being coupled to the second spring box 72 having the spring 73 embedded therein and the second spring box 72. The second contact protrusion 74 protrudes from the outer circumferential surface of any one of the plurality of circular plates 311 among the components constituting the screen frame 31 and is in contact with the fixing protrusion 313 having the inclined surface 313a on one surface. ) And an inclined surface 74a which is formed on the upper surface of the second contact protrusion 74 and is in sliding contact with the inclined surface 313a of the fixed protrusion 313.

The back pressure unit 80 is installed on the rear side of the rear end rotation block 50 to discharge the dewatered cake to a predetermined thickness by adjusting the moisture content of the dewatered sludge, that is, the final discharged cake, and pneumatic pressure.

2 and 11, the back pressure unit 80, the frame 11 of the main body case 10 is coupled to the pneumatic cylinder 81 is operated by the air supplied from the outside, the pneumatic cylinder The moving member 82 is axially coupled to the reciprocating movement according to the operation of the pneumatic cylinder 81, and the moving member 82 is discharged to the dehydrating cake from which water is removed from the sludge. The back pressure plate 83 for sliding reciprocating in the rear end insertion hole 52 of the rear end rotation block 50 is coupled to the upper end, and the upper surface of the moving member 82 is reciprocated together with the moving member 82. The spacer member 84 is coupled to the frame 11 of the body case 10, which is a position corresponding to the spacer member 84, to operate the pneumatic cylinder 81 according to the distance from the spacer member 82. While adjusting the rear end insertion hole 52 of the rear end rotation block 50 and the vessel An opening degree measuring sensor 85 for detecting a gap with the spacer 84 is coupled to measure the degree of opening between the outer surfaces of the platen 83.

The air pipe 86 through which the air flows is connected to the pneumatic cylinder 81 of the back pressure unit 80 to supply air to the pneumatic cylinder 81, and the pneumatic cylinder 81 is connected to the air pipe 86. Air pressure control unit 87 is coupled to detect the pressure of the air supplied to the) and to adjust the air pressure.

In addition, an inclined surface 521 which is inclined at a predetermined angle is formed on the inner surface of the rear end insertion hole 52 of the rear end rotation block 50, and the rear end of the back pressure plate 83 on the rear end insertion hole 52 side. An inclined surface 831 that is inclined at a predetermined angle is formed to allow the back pressure plate 83 to slide into the insertion hole 52.

The washing water spray nozzle unit 90 is installed outside the screen unit 30 to spray washing water to the outer circumferential surface of the screen 32 of the screen unit 30 so as to wash the screen 32. As shown in FIG. 1, the washing water spraying nozzle unit 90 is provided with a washing water pump 91 that pumps washing water outside the screw dehydrator, and the washing water pump 91 is provided with a washing water pump 91. The washing water supply pipe 92 for supplying the washing water pumped by) into the screw dehydrator is in communication with each other, and the sludge caught on the screen 32 is screened on the outer circumferential surface of the washing water supply pipe 92. A plurality of spray nozzles 93 are provided for spraying the washing water to the outer circumferential surface of the screen 32 so as to remove them from the nozzle 32.

The present invention configured as described above, sludge generated in various wastewater treatment facilities such as industrial wastewater treatment facilities, wastewater treatment facilities, and environmental wastewater treatment facilities such as agricultural / livestock, etc., is introduced into the sealed agglomeration apparatus 110 by a sludge supply pump 111. In addition to the inflow, the hermetic agglomerating device 110 is supplied with a chemical (coagulant) pumped from the chemical supply pump 112, by the motor 115 and the agitator 116 sludged in the hermetic agglomeration device 110. Aggregates while stirring to mix with the drug.

The sludge and water agglomerated into the sludge supply pipe 113 from the hermetic agglomeration apparatus 110 are supplied together, and sludge and water are forcibly supplied into the screw dehydrator by the pumps 111 and 112 and the hermetic agglomeration apparatus 110. do.

The agglomerated sludge and water supplied are introduced into the screen unit 30 through the coupling groove 212 and the inlet hole 213 formed on one side of the screw shaft 21 of the pressurized screw 20 of the screw dehydrator.

Here, in the drive means consisting of the motor 1, the reducer 2 and each sprocket 3 and 5, the drive shaft 4 and the chain 6, the drive shaft 4 is a screw of the pressure screw unit 20. As the shaft 21 is coupled to the other side, the screw shaft 21 that receives the driving force of the motor 1 rotates forward and backward, that is, when dewatered, rotates in the forward direction and rotates the screen 32 of the screen unit 30. When washing, rotate in the reverse direction.

When the screw shaft 21 is rotated while the sludge is introduced into the screen unit 30, the force and force to inject the sludge by the pumps 111 and 112 and the sealed agglomerating device 110 and the screw shaft 21. The sludge is transferred from the sludge inlet side to the sludge discharge side by the screw blade 22 coupled to the rotational force of the screw shaft and the outer circumferential surface of the screw shaft 21.

The conveyed sludge is compressed and the moisture (water) contained in the sludge is drawn out, and the escaped water is screened through a screen hole (324) formed in the screen 32 of the screen unit 30 30 is discharged to the outside of the screw dehydrator through the dehydration liquid discharge port 12 formed in the lower portion of the main body case 10.

At this time, the sludge does not escape to each screen hole 324 of the screen 32 is transferred to the sludge discharge side by the injection force of each of the pump (111,112) and the rotational force of the screw shaft 21, the compression transfer While the water is completely removed sludge, that is, the dewatering cake is passed through between the other side of the screw shaft 21 and the rear rotating block 50 and the back pressure plate 83 of the back pressure unit 80 to dehydrate the body case 10 It is discharged to the outside of the screw dehydrator through the cake outlet (13).

At this time, when the operation state of the back pressure unit 80 to maintain a constant discharge of the dewatered cake decompressed by the screw shaft 21, the water is dehydrated, the dewatered cake is the dewatered cake outlet 13 The back pressure plate 83 of the back pressure unit 80 is pushed while being transferred to the side side, and the push is pushed by the back member 83 and the moving member 82 and the spacer 83.

Then, the sensor 60 detects a gap between the gap member 83 and the opening degree measurement sensor 85, and transmits the detected signal to the controller 100, and the controller 100 controls the air pressure controller 87 according to the detected signal. ) To operate the pneumatic cylinder 81, the movable member 82 reciprocates according to the operation of the pneumatic cylinder 81 and the back pressure plate 83 is the rear end insertion hole of the rear rotary block 50 (52) As the reciprocating while sliding in the inner space between the rear rotation block 50 and the back pressure plate 83 is kept constant, as well as the constant interval is maintained, the discharge of the dehydration cake is dehydrated due to the constant Is maintained.

Meanwhile, the screw dehydrator may dewater the sludge as well as wash the screen 32 of the screen unit 30.

In order to dewater the sludge, the screw shaft 21 of the pressure screw unit 20 rotates in the forward direction, that is, in the direction of the arrow shown in FIG. 10, and the fixing protrusion 211 of the screw shaft 21 is rotated. The contact protrusion 64 of the rotation unit 60 is not caught, that is, the screw shaft 21 as each inclined surface 211a of the fixed protrusion 211 and the inclined surface 64a of the contact protrusion 64 slides like a rub. Is rotated, and at the same time, the contact protrusions 74 of the fixing unit 70 coupled to the main body case 10 are fixed to the outer circumferential surface of any one of the circular plates 311 of the circular plates 311 of the screen 32. The screen part 30 does not rotate due to the protrusion 313.

As such, the screw shaft 21 is rotated by the rotation unit 60, and the screen unit 30 is not rotated by the fixing unit 70, so that the sludge is dehydrated while being transported by compression. (Water) is discharged to the outside through each screen hole 324 formed in the screen 32 of the screen unit 30.

In addition, when the washing water is sprayed from the washing water spray nozzle unit 90 to the screen 32 to wash the screen 32 of the screen unit 30, the screen may be cleaned to wash the entire outer circumferential surface of the screen 32. (32) should be rotated.

That is, when washing the screen 32, if the screw shaft 21 is rotated in the direction of the arrow (reverse direction) shown in Figure 9, the fixing protrusion 211 of the screw shaft 21 of the rotary unit 60 As the contact protrusion 64 is caught, the screen rotation unit 30 coupled to the shear rotation block 40 and the shear rotation block 40 rotates along the rotating screw shaft 21, so that the washing water spray nozzle In the unit 90, as the washing water is sprayed to the entire outer circumferential surface of the screen 32, the entire outer circumferential surface of the screen 32 is washed to prevent the screen holes 324 of the screen 32 from being blocked. do.

Therefore, the screw dehydrator can easily and easily dewater the sludge containing moisture in a faster time, and prevent the screen holes 324 of the screen 32 from which the dehydrated moisture is discharged from being blocked by sludge. By doing so, as well as to increase the dewatering efficiency of the sludge in the screw dehydrator is to improve the performance of the screw dehydrator.

As such, the screw dehydrator according to the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings described herein, and various modifications may be made by those skilled in the art within the technical scope of the present invention. Therefore, it should not be understood individually from the technical idea and the prospect of the present invention.

10: body case 11: frame
12: Dehydration fluid outlet 13: Dewatering cake outlet
15: check cover 20: pressure screw
21: screw shaft 22: screw blade
30: screen unit 31: screen frame
32: Screen 40: Shear rotating block
41: shear block body 42: shear insertion hole
43: screen shear coupling groove 44: shear rotating roller unit
50: rear end block 51: rear end block body
52: rear insertion hole 53: screen rear coupling groove
54: after rotation roller unit 60: rotating unit
70: fixing unit 61.71: brackets 1, 2
62,72: First and second springs 63,73: First and second springs
64, 74: first and second contact protrusions 80: back pressure unit
81: pneumatic cylinder 82: moving member
83: back pressure plate 84: spacer
85: opening degree measuring sensor 90: cleaning water spray nozzle
91: washing water pump 92: washing water supply pipe
93: injection nozzle 100: control unit
110: hermetic agglomeration device 111: sludge supply pump
112: chemical supply pump 113: sludge supply piping
114: sludge supply pressure gauge 115: motor
116: stirrer 211, 313: fixed protrusion
211a, 313a: slope 212: coupling groove
213: inlet hole 311: circular plate
312: support frame 321: reinforcing plate
322: coupling plate 323: reinforcing rib
324: screen ball 411, 511: fitting protrusion
521,831: slope

Claims (11)

A main body case having a plurality of frames coupled to the inside, and a dehydration solution outlet and a dehydration cake outlet; A screw shaft which is rotatably installed in the main body case and gradually grows in diameter from the sludge inlet to the outlet so as to compress and transport the sludge while being rotated by a driving motor, and has a spiral screw blade on the outer circumferential surface of the screw shaft. Screw portion; A screen unit installed at an outer side of the pressurizing screw unit and having a screen to allow only water (water) to escape from the sludge that is compressed and transported; A washing water spray nozzle unit installed outside the screen unit and spraying the washing water onto the screen outer circumferential surface of the screen unit for cleaning; In the screw dehydrator provided with; a control unit for controlling the operation of the various devices,
At least one check cover for rotatably opening and closing the body case upper side is rotatably coupled to the upper side of the body case,
The screen unit is composed of a screen frame and a plurality of screens having a myriad of screen holes coupled to the outer circumferential surface of the screen frame to pass only the water discharged from the sludge,
One side of the main body case is inserted into the screw shaft one side of the pressing screw portion is coupled to support one side of the screw shaft and the screen side of the screen unit is coupled to the rotating side of the shear rotating block for rotating the screen,
The other end of the screw shaft is inserted and coupled to the other side in the main body case which is a position corresponding to the front end rotating block to support the other side of the screw shaft, and the other side of the screen is coupled to rotate the rear end rotating block to rotate the screen. Combined,
The shear rotating block is provided with a rotating shaft for rotating / stopping the screw shaft and the screen rotates in the forward and reverse directions according to the dewatering of the sludge and washing the screen,
The frame of the main body case, which is the outer side of the screen part, is provided with a screw shaft rotating in the forward and reverse directions and a fixing unit for rotating / stopping the screen according to dewatering of the sludge and washing of the screen.
Screw dehydrator, characterized in that the back pressure unit is provided with a back pressure unit to adjust the moisture content of the final dewatering cake discharged on the side.
The method of claim 1,
In the screw dehydrator, sludge and chemicals are introduced into the side of the sludge inflow, as well as a sealed aggregator equipped with a stirrer for agitating the sludge and the chemical, and the sealed agglomeration device is provided with a sludge for supplying the sludge mixed with the stirred chemical to the screen portion. Supply pipe is installed, and the sludge supply pipe is installed with a sludge supply pressure gauge for checking the supply pressure of the sludge mixed with the sludge supply pump and the drug supply pump forced by the chemical supply pump, the sludge supply on one side of the screw shaft of the pressure screw portion The screw dehydrator, characterized in that the coupling groove portion having an inlet hole is inserted into the pipe as well as the sludge mixed with the chemicals supplied through the sludge supply pipe to the screen portion.
The method of claim 1,
The screen frame of the screen unit is composed of a plurality of circular frame-shaped circular plate, and a screen frame provided with a plurality of support frames for connecting and coupling each circular plate,
Screens of the screen portion respectively installed between each circular plate of the screen frame are formed with a reinforcing porous plate having a myriad of screen holes for passing the water discharged from the sludge, and formed along the outer surface of the reinforcing porous plate to support each circular plate. Screw dehydrator comprising a plurality of reinforcing ribs formed on the outer peripheral surface of the reinforcing porous plate and the coupling plate bolted to the frame and the coupling plate.
The method according to claim 1 or 3,
Screw dehydrator, characterized in that a myriad of screen holes are formed on the entire surface of the reinforcing porous plate or a plurality of screen holes are bundled into one group to form a plurality of screen holes on the reinforcing porous plate.
The method according to claim 1 or 3,
Each screen hole diameter of each screen is a screw dehydrator, characterized in that it is formed to gradually become smaller toward the discharge side from the sludge inflow.
The method of claim 1,
Shear rotation block, a shear block body coupled to the front side frame of the main body case, a shear insertion hole formed in the shear block body is inserted and coupled to one side of the screw shaft, and formed along the outer peripheral surface of the rear surface of the shear block body screen One side of the screen is coupled to the front coupling groove is inserted into the outer surface of the front block body as well as rotatably coupled to the frame of the main body case is engaged with the outer surface of the front block body to support and rotate the shear rotation block Consists of at least one shear rotating roller unit to assist,
The rear end rotation block has a rear end block main body coupled to the rear end side frame of the main body case, a rear end insertion hole formed at the rear end main block main body and into which the other side of the screw shaft is inserted, and is formed along the front outer peripheral surface of the rear end block main body. The other end of the screen is coupled to the rear end coupling groove, the rear end block is located on the outer surface of the main body as well as rotatably coupled to the frame of the main body case is engaged with the outer surface of the rear end block body to support and rotate the rear end rotation block Screw dehydrator, characterized in that consisting of at least one after-roller roller unit to help.
The method according to claim 1 or 3,
The rotation unit includes a first bracket that is supported and coupled to a shear rotating block, a first spring box that is coupled to one surface of the first bracket, and includes a spring, and is coupled to the first spring box to rotate the screw shaft and the screen. A first contact protrusion having an inclined surface which protrudes on one side outer circumferential surface of the screw shaft so as to stop and comes into sliding contact with an inclined surface of the fixed protrusion so as to contact a fixed protrusion having an inclined surface,
The fixing unit includes a second bracket that is supported and coupled to the frame of the main body case, a second spring box that is coupled to one surface of the second bracket and has a spring built therein, and is coupled to the second spring box to rotate the screw shaft and the screen. And a second contact protrusion having an inclined surface which is formed to protrude on an outer circumferential surface of any one of the plurality of circular plates and constitutes a screen frame of the screen unit so as to be in contact with the fixed protrusion having a slope. Screw dehydrator, characterized in that configured.
The method of claim 1,
The back pressure unit is coupled to the frame of the main body case and is operated by air supplied from the outside, a moving member axially coupled to the pneumatic cylinder and reciprocating according to the operation of the pneumatic cylinder, and coupled to the moving member A back pressure plate for sliding reciprocating in the rear end insertion hole of the rear end block by the moving member to discharge the dewatered cake from which water is removed from the sludge, and a spacer member coupled to the upper surface of the moving member for reciprocating together with the moving member And, coupled to the frame of the main body case corresponding to the spacing member to adjust the operation of the pneumatic cylinder in accordance with the spacing member while measuring the degree of opening between the inner surface of the rear end insertion hole of the rear end rotation block and the outer surface of the back pressure plate. Screw dehydrator, characterized in that consisting of an opening degree measuring sensor for detecting a gap with the spacing member.
The method of claim 8,
The pneumatic cylinder is connected to the air pipe through which the air flows to supply air to the pneumatic cylinder, the air pipe is characterized in that coupled to the air pressure control unit for sensing the pressure of the air supplied to the pneumatic cylinder and adjust the air pressure Screw dehydrator.
The method of claim 8,
Screw dehydrator, characterized in that formed on the inner surface of the rear end insertion hole and the outer peripheral surface of the back pressure plate side of the rear end insertion block is inclined at a predetermined angle so that the back pressure plate can be slid to the rear end insertion hole.
The method of claim 1,
The washing water spray nozzle unit includes a washing water pump installed outside the screw dehydrator to pump the washing water, a washing water supply pipe connected to the washing water pump and supplied with the washing water pumped by the washing water pump, and the washing. Screw dehydrator is installed on the outer peripheral surface of the water supply pipe consisting of a plurality of injection nozzles for spraying the cleaning water to the outer peripheral surface of the screen.

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