KR100791120B1 - Sludge dewatering system - Google Patents

Abstract

A sludge dewatering system is provided to enable sludge to be transported and caked simply and easily by separating water contained in sludge, allow the system to be moved to a construction site promptly by simplifying the structure of the system such that the system can be mounted on a vehicle, and obtain operational efficiency and economic efficiency by performing a dewatering operation without an additional preparation. A sludge dewatering system(10) includes: a screw(16) including a body(11) having a hollow part(12) formed in an inner part of one side thereof, a plurality of discharge ports(13) formed in an outer peripheral surface of the body in the form of a slot, a conical taper part(14) formed at an end portion of the body at the other side of the hollow part, and vanes(15) formed on an outer peripheral surface of the body; a first pipe(17), a second pipe(18) formed on an outer surface of the screw in a cylindrical pipe shape; a sludge supply pipe(22) supported to a first bushing(19) connected to one end of the first pipe and installed in the hollow part to supply sludge flown in from an injection port(21); a drive shaft(26) for connecting a drive shaft head(27) and one end of the taper part to transmit drive force to the screw; a discharge pipe(30) on which a second bushing(20) is installed to support the drive shaft, and which connects the second bushing and the second pipe; a discharge hole bushing(32) installed in a plurality of discharge holes(31) formed on the discharge pipe(30); a housing(23) having a liquid discharge port(24) formed at one side thereof and a solid discharge port(25) formed at the other side thereof; a scraper(34) in which a solid discharge guide hole(33) is formed between the discharge pipe and an inner surface of the housing, and which is connected to a reduction gear of a drive motor(40) of one side; and a first cover member(35) and a second cover member(36) formed at both ends of the housing. Further, the plurality of discharge ports formed at the hollow of the screw are a plurality of circle typed through holes or long holes.

Description

Sludge Dewatering Device {SLUDGE DEWATERING SYSTEM}

The present invention relates to a sludge dewatering device formed to separate liquids and solids, and more particularly, reservoir sediments, sediments in rivers, cooling water and mud generated during tunnel construction, sludge generated during sewage construction, sewage treatment plants, The present invention relates to an environmentally friendly sludge dewatering device that separates moisture contained in sludge generated during washing such as aggregate, so that secondary pollution does not occur when the sludge is transported or processed by cake.

Looking at the conventional sludge dewatering device, the registered utility model No. 98-112450 "rotary sludge dewatering device" is alternately cast while occupying approximately half of the feed blade and the dewatering blade portion constituting the dewatering screw per pitch. Sludge which is formed of a large diameter part and a small diameter part, and the inner side ends of the feed rod portion and the dehydration cylinder portion is provided with a control rod extending toward the outer center of the small diameter portion of the transfer blade portion and the dehydration blade portion toward the shaft center to cut into the feed blade portion and the dehydration blade portion. As the sludge is rotated together with the dehydration screw by scraping by the adjusting rod to be transported and pressed, the Utility Model Publication No. 98-112450 constitutes a double blade having a large diameter and a small diameter of the transfer blade. To increase the compressive force, but the sludge is blocked in the mesh of the outer cylinder located on the outside of the screw. The dots were. In other words, when the sludge containing water is rotated with a dewatering screw and pressed under high pressure, the net of the outer cylinder is clogged by the small debris and the liquid cannot be separated to the outside. There was a problem.

Therefore, in the conventional dehydration apparatus, when the mud is viscous, such as the sediment of a reservoir or the sediment of a river, the mud is blocked in the mesh of the outer cylinder or when the mud contains a large amount of water, the fine mud is dehydrated. There was a problem in that the dewatering efficiency is lowered with the water discharged.

The present invention is to solve such a problem, reservoir sediment, sediment of the river, cooling water and mud generated during the tunnel construction, sludge generated during the construction of the well, sludge generated during the washing process such as aggregates, sewage treatment plant, etc. By separating the water contained in the sludge, the sludge can be easily transported and processed into cakes, and the composition can be easily installed on the vehicle to quickly move to the construction site without any additional preparation work. It is to provide a sludge dewatering device for the purpose of carrying out the dewatering operation of the product.

The present invention is formed in the hollow body of the plurality of discharge holes made of a long hole, one side of the body forms a tapered portion, such as a cone shape to the distal end side, and constitutes a screw with a wing formed on the outer peripheral surface of the body, the sludge is dehydrated on the outer surface of the screw A first pipe and a second pipe are configured so that the sludge supply pipe is installed at the center of the screw hollow to supply sludge. The first pipe and the second pipe are wrapped on the outer surface of the screw, and the liquid discharge port 24 is formed. And a sludge dewatering device consisting of a housing formed with a solid discharge port 25, sludges generated during reservoir cleaning, sediments in rivers, cooling water and mud generated during tunnel construction, sludges generated during the well construction, aggregates, etc. Dewatering the sludge produced in sewage treatment plant by screw is easily and easily divided into liquid and solids. It is designed to provide a sludge dewatering device that can be installed in a vehicle and installed quickly regardless of the place.

The present invention is to easily dehydrate the sludge generated in the sewage generated in the sewage generated in the sewage treatment plant, such as reservoir sediment, river sediment, cooling water and mud generated during the tunnel construction, sludge generated during the engineering work, aggregates, aggregates, etc. It can be separated into solids and solids.In particular, it can be mounted on a vehicle to be quickly moved to the construction site so that sludge dehydration can be performed without the need for separate preparation and installation, so that liquid and solids can be separated effectively. In addition, it has the effect that the environmental pollution does not occur during the secondary treatment, such as transporting dehydrated solids, cake, deoiling, composting, such as ease of operation.

In the dewatering device that can dewater the sludge, a plurality of discharge holes 13 made of a long hole is formed on the outer peripheral surface of the body 11, the hollow portion 12 is formed on one side, the hollow body on the other end is a cone shape Forming a tapered portion 14, and a screw 16 having a wing 15 formed on an outer circumferential surface of the body;

A first tubular body (17) and a second tubular body (18) formed of a cylindrical tube body so that sludge can be dehydrated on the outer surface of the screw (16);

A sludge supply pipe installed in the hollow part 12 so as to be supported by the first bushing 19 coupled to one end of the first pipe body 17 located on the outer surface of the screw hollow part 12 to supply sludge introduced from the inlet 21. (22);

A drive shaft 26 which connects one end of the tapered portion 14 of the screw body 11 to the drive shaft head 27 to transmit a driving force to rotate the screw 16;

A discharge pipe 30 for installing the second bushing 20 so as to support the drive shaft 26 and connecting the second bushing 20 and the second tubular body 18 to each other:

A discharge hole bushing 32 installed in a plurality of discharge holes 31 formed in the discharge pipe 30 to prevent wear due to discharge of solids;

The housing 23 having the first pipe 17, the second pipe 18, and the discharge pipe 30 positioned outside thereof, and having a liquid discharge port 24 on one side and a solid discharge port 25 on the other side; ;

The solid discharge guide hole 33 is formed between the discharge pipe 30 and the inner surface of the housing 23 to be connected to the solid discharge port 25, and is connected to the reduction gear of the driving motor 40 on one side to discharge the solid discharge guide hole ( A scraper (34) which is stirred to prevent blockage of (33);

The housing 23 is coupled to both ends of the first cover member 35 and the second cover member 36 to constitute a sludge dewatering device 10.

The screw blade is characterized in that the surface is coated with a strong wear resistance tungsten carbide.

The discharge port formed in the hollow body of the screw is formed of any one of a plurality of circular through holes, long holes, characterized in that the reinforcing welding with a special steel on the inner surface.

The outlet hole bushing is protruding annular frame (32 ') is installed in the middle of the outer surface to be installed firmly when combined.

The first bushing is characterized in that the flow rate control device 50 is installed to correspond to the drain hole (19 ') is configured to adjust the flow rate discharged to the drain.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

Figure 1a is a cross-sectional view of the sludge dewatering device showing the overall configuration according to an embodiment of the present invention, the present invention is a reservoir sediment, sediment of the river, cooling water and mud generated during the tunnel construction, sludge generated during the construction of the well, aggregate washing, etc. The sludge generated in the process, such as sludge generated in the sewage terminal treatment plant, such as sludge having a water content of more than 50% can be separated into water and solids.

For example, when sediment accumulates in the reservoir, the depth of the water becomes shallower and the amount of fresh water decreases, the work to remove the sediment accumulated on the bottom of the reservoir is performed.

At this time, the construction method for removing the sediment can be carried out in a number of ways, one of which is to inhale sediment at the bottom of the reservoir using a high-pressure pump to separate the water and solids, the sludge absorption tube of the sediment is sucked in the present invention When connected to the inlet of one side of the dewatering device of the introduced sludge is introduced into the hollow through the supply pipe 22 installed in the center of the hollow portion 12 of the screw through the inlet (21).

Sludge introduced into the hollow portion 12 is located between the first tube 17 and the screw 16 of the discharge hole 13 in the form of a plurality of tension holes formed in the body of the hollow portion, the solid material of the sludge by the rotation of the screw Advancing along the blade 15 of the screw is discharged to the solid outlet 25 through the tapered portion (14). The liquid is discharged to the outside through the rear liquid outlet 24.

That is, the sludge is ejected into the hollow portion 12 by the supply pipe 22 connected to the inlet 21 and at the same time, the first tube 17 and the screw 16 through the plurality of discharge ports 13 formed in the screw body by pressure. ) Is supplied.

The sludge introduced between the first tube 17 and the screw 16 through the discharge port 13 is pushed forward by the blade rotation of the rotating screw, and the liquid is separated and discharged to the rear liquid outlet 24. The inner surface of the discharge port is weld coated with a special steel such as tungsten to prevent the sludge from being worn during discharge.

 The screw has the same diameter as the body 11 of the screw 16 up to a portion corresponding to the position of the first tube 17 and the body 11 of the screw 16 corresponding to the second tube 18 has a distal end. As the diameter gradually decreases, the tapered portion 14 is formed.

  When the sludge reaches the taper portion 14 while advancing by the blade 15 of the screw 16, the inner diameter of the second tubular body 18 is narrowed and dehydrated under pressure, so that the liquid flows backwards, and the sludge solids flow into the wing ( The water is dehydrated while being compressed toward the tapered portion 14 in the pressed state by the rotational force of 15).

The dehydrated solid is discharged to the solid guide hole 31 through the discharge hole 31 of the discharge pipe 30 connecting the second tube 18 and the second bushing 20 and the solid discharge guide hole 33. Sludge discharged into the c) is discharged to the solid discharge port 25 formed on one side of the housing 23 without being blocked by the agitation of the scraper 34.

The scraper is rotated by the drive of the drive motor 40 installed on one side of the drive shaft head, the reduction gear is installed on the drive motor shaft and the reduction gear and the scraper is connected to agitate the sludge inside the solid discharge guide hole to block the discharge pipe. prevent.

The first bushing installed at the sludge inlet 21 side of the screw 16 supports the sludge supply pipe 22 and the first cover member 32 and simultaneously rotates the first bushing to allow the screw 16 to rotate smoothly. The bearing 29 is interposed between 19 and the screw 16, and the second bushing 20 is engaged with the tapered portion 14 side end of the screw to transmit the driving force to the screw 16.

The flow control device 50 is installed on one surface of the first bushing to adjust the flow rate discharged to the drain hole 19 '. The flow control device separates the first cover member on one side and then adjusts the flow control device to sludge. The sludge is dehydrated after adjusting in advance so that the amount of liquid contained in it can be smoothly discharged into the drain hole.

In addition, the discharge pipe coupled between the second tube and the second bushing is formed with a plurality of discharge holes so as to penetrate the outer peripheral surface and discharge hole 31 made of special steel, such as cemented carbide is inserted into the discharge hole 31 is extruded by a screw The sludge is discharged to prevent wear of the discharge hole and the discharge hole bushing is detached so that only the discharge hole bushing can be replaced when worn, thereby reducing the replacement cost and simplifying the repair.

The drive shaft has a second bushing fitted to the outer surface so that the drive shaft can be rotated smoothly. The outer surface of the second bushing 20 is fitted with a second cover to be coupled to the housing 23.

In addition, the drive shaft head 27 is coupled to one end of the drive shaft and the pulley 28 is coupled to one side of the drive shaft head 27 to be connected to the drive generator to transmit power to the drive shaft 26.

In addition, the ring 37 formed on both sides of the housing 23 is a ring 34 to allow a chain or the like to connect the crane to transport the sludge dewatering device 10.

In addition, the sludge dewatering device 10 of the present invention is installed so that the first tube 17 and the second tube 18 in which the screw 16 is installed are horizontal when installed, or the second tube body than the first tube 17 side. The installation of the high side of 18 can smoothly discharge the liquid separated from the sludge.

The liquid separated from the sludge discharged to the discharge port 13 flows to the opposite side on which the screw rotates and is discharged to the liquid discharge port 24 through a plurality of drain holes 19 'formed in the first bushing 19 for processing. The first cover member 35 is coupled to the housing 23 at one side of the first bushing 19 so that the liquid discharged by maintaining the watertight is discharged through the liquid outlet without leaking.

In the description of FIG. 1A of the present invention, a packing for maintaining airtightness, a bearing, and other connection components installed with rotation smoothly are combined in a conventional manner and detailed description thereof will be omitted.

Figure 1b is an enlarged cross-sectional view of the solid discharge outlet of Figure 1a, the discharge hole bushing (32) fitted in the plurality of discharge holes 31 formed in the discharge pipe 30 is formed in the outer peripheral surface protruding annulus to the outer peripheral surface is coupled to the discharge hole This prevents flow to the pressure of solids discharged into the discharge hole so as not to escape.

Figure 2a is an external view showing a screw discharge port of the sludge dewatering device according to the present invention, the discharge hole 13 is a long perforated discharge so that the sludge supplied from the supply pipe 22 smoothly flows between the screw 16 and the first tube 17. ), And the discharge port is formed in the form of a long hole, so that a large amount of sludge can be quickly separated into liquid and solids.

3A is another embodiment of the present invention, an external view of the discharge port of the screw is formed in the long hole, Figure 3a is a body 11 of the hollow portion 12 of the screw 16 as another embodiment of FIG. The discharge port 13 formed in the above) is formed by a short long hole, and a screw 16 having a short long hole discharge port 13 can be used depending on the state of the sludge.

That is, when the sludge is made of fine powder, it can be separated into a liquid and a solid by using a screw to form a discharge hole in the form of a short long hole.

Figure 3b is another embodiment of the present invention, the discharge port of the screw is an outline of the state formed in a circular through hole, it is possible to form a discharge hole 13 consisting of a plurality of circular through holes in the body around the hollow portion of the screw.

When the discharge port is discharged in a circular shape, it is preferable that the diameter of the discharge hole is punctured to 10 mm or more.

3A and 3B show another embodiment of FIGS. 1 and 2, the ejection opening formed in the screw body of the present invention is most preferably in the form of an elongated hole, as shown in FIGS. 3A and 3B as necessary. Short or long holes may be formed in the discharge port form, and can be formed in addition to any one of the triangle, quadrangle, polygon, but there is a problem in the work efficiency is inferior.

Figure 4 is an external view showing a connection state of the first tube, the second tube and the discharge pipe wrapped around the screw of the present invention, the discharge pipe 30 and the second pipe 18 is formed with a flange at one end is coupled to each other, the discharge pipe A plurality of discharge holes 31 are formed on the outer circumferential surface to allow the discharge hole bushing to be fitted and the solids to be discharged through the plurality of discharge holes. In particular, the present invention by forming a separate discharge pipe for discharging the solid material to be combined with the second pipe body, when the friction with the solid material in use, wear occurs so that only the discharge hole bushing or the discharge pipe can be replaced at the same time take the economic benefit and replace Easy to repair.

 Thus, the present invention is a reservoir sediment, sediment of the river, cooling water and mud generated during the tunnel construction, sludge generated during the construction of the well, aggregates during washing, sludge, sewage treatment plant, sludge generated in the sewage treatment plant by dehydration 2 It is designed to be used for secondary processing, and the size of discharge port and screw rotation speed can be selectively used according to the condition of the sludge when dewatering.

1) In order to protect the outlet of the solid, the wear-resistant bushing of the special heat-treated metal with high wear resistance is manufactured in a separate double structure to minimize wear during friction with the solid and to replace only the outlet hole when worn. .

 2) The present invention is to install a two-blade scraper of stainless steel in the solid guide hole existing between the discharge pipe and the housing to prevent the guide hole from being blocked by the solid material.

3) The present invention can reduce the wear of the screw by adjusting the flow level according to the concentration of sludge.

4) The present invention forms a discharge hole of a long long hole in the hollow body of the screw can discharge a lot of sludge from the beginning of dehydration to prevent clogging phenomenon, it is composed of a plurality of discharge holes to distribute the discharge pressure to distribute the wear parts Can be.

5) The present invention can minimize the wear and tear when separating and discharging the solid and liquid by welding coating a special steel made of cemented carbide in the discharge port, screw blade, liquid discharge port, solid discharge port.

6) The present invention has the advantage that the sludge storage, storage, concentration, dehydration and chemical facilities are all mounted on a truck to move to the place where sludge treatment is needed and can be easily processed.

The sludge dewatering device of the present invention is mounted on a truck or the like so that the sludge dewatering device can be moved to a required dewatering device to treat sludge.

In other words, it can be installed and moved in a vehicle so that it can be installed quickly in response to locally distributed site conditions such as reservoir, tunnel construction site, government construction work, sewage treatment plant, or can be fixedly installed in a facility line of dehydration device have.

In addition, the screw blade of the present invention by the tungsten carbide coating treatment to a certain thickness on the scroll made of special steel to prevent peeling by strong frictional resistance.

Figure 1a is a cross-sectional view of the sludge dewatering device showing the overall configuration according to an embodiment of the present invention.

Figure 1b is an enlarged cross-sectional view of the solid waste outlet of Figure 1a.

Figure 2 is an external view showing a screw discharge port of the sludge dewatering apparatus according to the present invention.

Figure 3a is another embodiment of the present invention, the appearance of the discharge port of the screw is formed in a long hole.

Figure 3b is another embodiment of the present invention, the appearance of the discharge port of the screw is formed in a circular through hole.

Figure 4 is an external view showing a connection state of the first tube, the second tube and the discharge tube wrapped around the screw of the present invention.

<Description of the symbols for the main parts of the drawings>

10: sludge dewatering device 11: body

12: Hollow part 13: discharge outlet

14: taper 15: wings

16: Screw 17: First tube

18: 2nd tube 19: 1st bushing

20: second bushing 21: inlet

22: supply pipe 23: housing

24: liquid outlet 25: solids outlet

26: drive shaft 27: drive shaft head

28: pulley 29: bearing

30: discharge pipe 31: discharge ball

32: discharge hole bushing 33: solid discharge guide hole

34: scraper 35: first cover member

36: second cover member 37: ring

40: drive motor 50: flow control device

Claims (5)

In the dewatering device that can dewater the sludge, a plurality of discharge holes 13 made of a long hole is formed on the outer peripheral surface of the body 11, the hollow portion 12 is formed on one side, the hollow body on the other end is a cone shape Forming a tapered portion 14, and a screw 16 having a wing 15 formed on an outer circumferential surface of the body; A first tubular body (17) and a second tubular body (18) formed of a cylindrical tube body so that sludge can be dehydrated on the outer surface of the screw (16); A sludge supply pipe installed in the hollow part 12 so as to be supported by the first bushing 19 coupled to one end of the first pipe body 17 located on the outer surface of the screw hollow part 12 to supply sludge introduced from the inlet 21. (22); A drive shaft 26 which connects one end of the tapered portion 14 of the screw body 11 to the drive shaft head 27 to transmit a driving force to rotate the screw 16; A discharge pipe 30 for installing the second bushing 20 so as to support the drive shaft 26 and connecting the second bushing 20 and the second tubular body 18 to each other: A discharge hole bushing 32 installed in a plurality of discharge holes 31 formed in the discharge pipe 30 to prevent wear due to discharge of solids; The housing 23 having the first pipe 17, the second pipe 18, and the discharge pipe 30 positioned outside thereof, and having a liquid discharge port 24 on one side and a solid discharge port 25 on the other side; ; The solid discharge guide hole 33 is formed between the discharge pipe 30 and the inner surface of the housing 23 to be connected to the solid discharge port 25, and is connected to the reduction gear of the driving motor 40 on one side to discharge the solid discharge guide hole ( A scraper (34) which is stirred to prevent blockage of (33); Sludge dewatering device characterized in that the housing 23 is composed of a first cover member 35 and a second cover member 36 at both ends. The method of claim 1, The discharge port formed in the hollow body of the screw is formed of any one of a plurality of circular through holes, long holes and sludge dewatering device characterized in that the coating of the wear-resistant special steel on the inner surface of the discharge port. The method of claim 1, The sludge dewatering device, characterized in that the screw blade is coated with tungsten carbide coating to a certain thickness on the surface. The method of claim 1, The outlet hole bushing sludge dewatering device, characterized in that to prevent the protruding annulus (32 ') is installed and detached from the middle portion of the outer surface. The method of claim 1, The first bushing is a sludge dewatering device, characterized in that the flow control device 50 is installed on one surface so as to correspond to the drain hole (19 ') is configured to adjust the flow rate discharged to the drain hole.

Images