KR100414905B1 - Cylindrical fine solid material eliminator for sewage and waste water - Google Patents

Abstract

PURPOSE: Provided is a cylindrical fine foreign matters removing device which is able to effectively separate the foreign matters and treated water for a long period of time by backwashing a spray nozzle when a screen or perforated holes are stopped up by the foreign matters or floating matters. CONSTITUTION: The device comprises a sewage and wastewater supplying part(1) to supply the sewage and wastewater through an inflow pipe(10) to the inner side of a rotary drum(20), a foreign matter separator(2) separating the foreign matters and treated water by passing the inflown sewage and wastewater from the sewage and wastewater supplying part through the rotary drum and discharging the separated foreign matters, a washing part(3) including a spraying nozzle(30) formed on the outer side of the rotary drum toward the center direction to backwash the foreign matters isolating perforated holes formed on the rotary drum, a rotating part(4) supporting the rotary drum with many supporting rollers(42) and rotating by an operating motor(40), a treated water collecting part(5) collecting the treated water by the foreign matter separating part in a water-collecting chamber(50) and transferring it to a purifying device and a foreign matter discharge part(6) collecting the separated foreign matters by the foreign matter separating part through an outlet(25), wherein the foreign matter separating part consists of the rotary drum having a wheel(22), a guide rail(24), many perforated holes(21), a screen(27) attachably and detachably adhered closely to the inner circumferential side of the rotary drum to primarily filter the foreign matters and a guide screw(28) attachably and detachably installed on the inner side of the screen and having a spiral-type vertical wall to transfer the dehydrated foreign matter to the outlet and the supporting rollers of the rotating part are coated by urethane and supported by an automatic, cautious bearing(42) to provide smooth rotating motion.

Description

Cylindrical Fine Dust Removal Device {CYLINDRICAL FINE SOLID MATERIAL ELIMINATOR FOR SEWAGE AND WASTE WATER}

The present invention relates to an apparatus for removing cylindrical fine contaminants, in particular, to dewater the contaminants contained in the wastewater introduced by rotating a rotating drum formed with a screen or through holes to separate and remove the contaminants during the wastewater treatment process. Reduce the load, and when the screen or through hole of the rotating drum is blocked by a contaminant or suspended matter, backwashing is carried out using a spray nozzle on the outside of the rotating drum to keep it always available. The present invention relates to a cylindrical fine contaminant removal device that can effectively separate the contaminants and the treated water for a long time.

In general, an apparatus for removing a contaminant used in a pretreatment step of a wastewater treatment process is a facility for removing floating contaminants in wastewater introduced through an inflow channel, and conventionally, coarse contaminants are firstly removed by a crude wood screen. The fine fines remaining by the detail screen are separated and removed secondly, and then introduced into the sedimentation basin, and the treated water from which the fines are removed to some extent is transferred to a biochemical treatment step, which is a post-treatment step, to perform water treatment.

In the method for removing contaminants by passing wastewater through the crude wood or detail screen, it is necessary to install the screen in the flow direction of the wastewater to remove the contaminants step by step, so that sufficient space must be secured to form the flow path of the wastewater. When the screen is installed at a predetermined position of the flow path, there has been a need to remove or collect the debris filtered by the screen at an appropriate time.

In order to solve the above problems, the drum is rotated in a state in which a plurality of holes are formed on the outer circumferential surface in a horizontal state, and waste water flows into one side of the drum so that coarse or fine contaminants are separated from the sewage in the drum. After agglomeration and discharge to the other side, the sewage is being actively developed a drum-type rotating screen to collect the bottom through the hole of the drum. In addition, since the wedge wire that has been widely used as a screen forming the outer circumferential surface of the conventional drum is an expensive material, research into a method of replacing the wedge wire has been actively conducted.

The related art related to the drum-type rotating screen is disclosed in Korean Utility Model Registration No. 127099, and the rotating drum screen for sewage pretreatment shown in FIG. 5 forms an inclined drum 101 by forming numerous holes in the surface thereof. It is provided with a rotary wheel 103 at both ends of the drum 101, the support roller 104 is installed to be engaged with the rotary wheel 103 on both sides of the upper end of the support body 112, the upper end of the support body 112 The driving motor 105 is formed at the end, the pinion 107 is provided at the side of the driving motor 105, and the gear 106 is inserted and provided at one side of the drum 101.

The sewage pretreatment rotating drum may be filtered to some extent through the hole formed in the surface of the drum 101 when the sewage containing a large amount of contaminants 111 is introduced through the inlet 108. However, since a separate removal means for removing the contaminants 111 stuck to the inner circumferential surface of the drum 101 is not added, all holes formed in the surface of the drum 101 are blocked during long-term operation. The sewage is discharged through the discharge chute 102 in a state where 111 is not removed, and the contaminants 111 dehydrated in the drum 101 are transferred to the discharge chute 102. ) Is installed at an inclined angle, but when the contaminants 111 are concentrated at the outlet side of the drum 101, the inner circumferential surface of the drum 101 does not maintain the same slope as the initial state and flows. It is acting as a resistance. Therefore, since the sewage discharged through the drum 101 has to be reprocessed the contaminant 111 through a separate process in a post-treatment step, there is a problem that the overall sewage treatment efficiency is lowered. In addition, the degree of removal of the contaminants by the drum 101 is determined by the size of the hole formed in the outer circumferential surface of the drum 101, and thus there is a problem in that fine contaminants having a size smaller than the diameter of the hole cannot be filtered out.

As described above, the prior art for removing the contaminants stuck to the hole formed in the surface of the drum and performing the cleaning is disclosed in Korean Utility Model Registration No. 162956. The wastewater treatment apparatus shown in FIG. In the upper portion of the inlet pipe 232 for the introduction of waste water is connected to the inlet 263 to the hose fixing unit 203, the outer cylinder 204 having a drain 241 in the lower center is horizontally installed, The outer periphery of the outer periphery of the screen device 206 that rotates by receiving the power of the motor (M) is formed inside the outer cylinder 204 is formed with a plurality of drain holes (266) and the inner peripheral screw conveyor for discharging waste ( A screen device 206 having a 265 is formed, and a front sprocket 261 is installed at the tip inlet 263 of the screen device 206 to receive the power of the gear motor M, and the screen device 206 is provided. At the other end of the screen), the screen device 206 has a pair of support rolls. The discharge unit 211, which is supported by the 273 and discharges the contaminants filtered by the rotating screen device 206, is installed, and the air inlet and the washing water are provided at the front of the screen device 206. Inlet pipe is formed in the inlet is formed, the other side of the inlet pipe is formed inside the space around the outer circumference of the cleaning brush 252 in the form of '+' is installed at regular intervals, each washing brush 252 Between the) is characterized in that the brush body 251 is provided with a plurality of spray nozzles are arranged at a predetermined interval to the washing water and the air is sprayed, a pair of support rollers that the screen device 206 is supported ( The lower end of 273 is characterized in that the support roller 273 is installed with an oil box filled with oil so that the oil is locked.

The wastewater treatment device is provided with a brush body 205 formed with a plurality of spray nozzles and cleaning brushes 252 on the upper portion of the screen device 206 for dewatering and separating the dirt and suspended matter from the waste water. B is a screen cleaning device designed to clean the outer circumferential surface of the screen device 206 while spraying the washing water, and at the same time to remove the debris trapped in the through hole 266 of the outer cylinder 204 with the cleaning brush 252, but the outer cylinder ( 204 and the brush body 205 is rotated separately, so that dehydration and washing are made, so that the injection direction of the injection nozzle and the hole direction of the outer cylinder 204 are difficult to coincide, and the contaminants caught in the hole 266 are difficult to match. Not only does not completely remove the cleaning brush 252 is rubbed on the outer circumferential surface of the outer cylinder 204 because the cleaning is actually performed only wipe the outer circumferential surface of the outer cylinder 204 actually There was a problem that the washing of the through-hole 266 is not made properly. In addition, the screw conveyor 265 formed on the inner circumference of the outer cylinder 204 is integrally formed on the inner circumference of the outer cylinder 204 so that the debris dehydrated by the screen device 206 is transferred to the discharge unit 211. When cleaning the inside of the outer cylinder 204, there was a difficulty in cleaning the structure, because the cleaning of the inside is not made smoothly, there may be a problem that a sedimentation layer is formed by the impurities, the screen device 206 Again, the diameter of the through hole 266 formed in the outer cylinder 204 is determined, which makes it unsuitable for removing fine particles of fine size. In addition, the support roller 273 supporting the screen device 206 is made of the same material as the caster, which is a general rolling means, so that the center of rotation of the guide ring formed on the outer circumference of the screen device 206 and the support is supported. If the center of rotation of the roller 273 does not match, there is a problem that the support roller 273 is easily deformed because the deformation occurs, so that the water must be replaced frequently, and the washing water sprayed through the spray nozzle of the brush body 251 is There is a problem in that the maintenance costs are fixed in operation because it is consumed by being supplied from a separate device.

The present invention has been made to solve the above problems, an object of the present invention is to separate the contaminant and the treated water contained in the waste water by using a rotating drum formed with a plurality of through holes on the outer peripheral surface, the through hole of the rotating drum In order to remove the clings attached to the rotating drum, the treated water from which the contaminants have been removed is sprayed to backwash, and there is provided a removable screen and guide screws inside the rotating drum. It provides a segregation separation means that can be effectively separated and transported to the various sizes of the fine particles to remove the fine contaminants, the support roller supporting the rotating drum is automatically maintained even if the axis of rotation of the rotating drum is not kept constant Providing a rotating means that is automatically adjusted according to the change of the rotation axis of the There used to.

1 is a front view of a cylindrical fine contaminant removing device according to the present invention,

Figure 2 is a side view of the cylindrical fine contaminant removing apparatus according to the present invention,

3 is an exploded perspective view of a wastewater supply unit and a contaminant separating unit which are main parts of a cylindrical fine contaminant removing device according to the present invention;

Figure 4 is a plan view of the main part of the washing machine for removing the cylindrical fine contaminants according to the present invention,

5 is a perspective view showing the configuration of a conventional rotary drum screen for sewage pretreatment,

6 is a cross-sectional view of a conventional wastewater treatment apparatus.

Explanation of symbols on the main parts of the drawings

1: wastewater supply part 2: contaminant separation part

3: cleaning part 4: rotating part

5: treatment collection part 6: contaminant discharge part

7: frame 8: cover

10: inlet pipe 11: distributor

12: inner cover plate 13: support

14: support bearing 15: flange

20: rotating drum 21: through hole

22: wheel 23: sprocket

24: guide rail 25: outlet

26: inner wall 27: screen

28: guide screw 29: water splashing jaw

30: injection nozzle 31: nozzle tube

32: on-off valve 33: treated water supply pipe

34: pump 35: drain valve

36: drain pipe 40: drive motor

41: chain gear 42: support roller

43: self-aligning bearing 44: chain

50: catchment chamber 51: treated water outlet

71: upper frame 72: shelf frame

73: lower frame 74: support frame

81: viewing window

The object of the present invention as described above, the waste water supply unit for supplying the waste water to the inside of the rotating drum through the inlet pipe; A waste separation unit for separating waste material and treated water by passing the waste water introduced from the waste water supply unit through a screen or a hole formed in the rotating drum, and transferring the waste material by rotating the guide screw; A washing unit for backwashing the screen or hole of the rotating drum with a spray nozzle formed outside the rotating drum; A rotating part for supporting the rotating drum with a plurality of supporting rollers and rotating the driving drum; A treatment collection unit for collecting the treated water separated by the contaminant separation unit into a collection chamber and transferring the treated water to a purification apparatus; And it is achieved by a cylindrical fine contaminant removing device, characterized in that it comprises a contaminant discharge portion for collecting the contaminants separated by the contaminant separator through the outlet.

Preferably, the contaminant separating unit, the wheel is formed on one end of the outer peripheral surface to be rotated in connection with the drive motor of the rotating unit, the guide rails are formed on both sides of the outer peripheral surface so as not to be separated from the support roller, the outer peripheral surface so that the treated water is separated from the complex A rotating drum in which a plurality of through holes are formed; A screen configured to closely contact the inner circumferential surface of the rotating drum to filter out contaminants; And a guide screw installed on the inside of the screen, the guide screw having a spiral vertical wall formed so that the dehydrated contaminants are rotated to the outlet side when the rotating drum is rotated.

More preferably, the screen is achieved by a cylindrical fine contaminant removal device, characterized in that formed by 20 to 80 mesh or formed in the form of twill weave and cross weft cross each other.

In addition, the through hole formed on the outer circumferential surface of the rotating drum is achieved by a cylindrical fine contaminant removal device, characterized in that the long hole is formed by perforating in the zigzag gap.

In addition, the cleaning unit is formed with a nozzle tube branched in the form of a manifold on the outside of the rotating drum, a plurality of injection nozzles are formed at regular intervals so as to be sprayed in the centrifugal direction on the outer peripheral surface of the nozzle tube, the injection nozzle is rotated It is installed at a height of 2/3 to 1 with respect to the drum, the injection nozzle is applied to the P-type cutting injection nozzle having a circular fan-shaped orifice structure, the nozzle pipe branched at the front side and the rear end of the nozzle tube during backwashing It is achieved by the cylindrical fine contaminant removing device, characterized in that each opening and closing valve is formed to adjust the pressure injected through the injection nozzle of the.

Hereinafter, an embodiment according to the present invention will be described in more detail with reference to the accompanying drawings. When the direction is defined based on the accompanying drawings, the wastewater inflow side of the cylindrical fine contaminant removal apparatus according to the present invention is called one side, and the contaminant discharge side is called the other side.

1 is a front view of a cylindrical fine contaminant removing apparatus according to the present invention, Figure 2 is a side view of a cylindrical fine contaminant removing apparatus according to the present invention.

Cylindrical fine contaminant removal apparatus according to the present invention is a waste water supply unit for introducing waste water (1); A contaminant separator (2) for separating and discharging the contaminants and the treated water contained in the waste water by the rotating drum (20) having a through hole (21); A washing unit (3) for washing the rotating drum (20); A rotating part 4 for rotating the rotating drum 20; A treatment collection unit 5 for collecting and transporting the treatment water; A junk discharge portion (6) for collecting the junk; And a frame 7 for fixing or positioning the components.

First, when describing the frame (7) of the cylindrical fine contaminant removal apparatus according to the present invention, the frame (7) is collected by smoothly filtered the treated water in the direction of gravity when the contaminant separation of the waste water by the contaminant separation unit (2) In order to fix the components to a certain height from the ground as possible. In each of the components constituting the frame (7), the upper frame (71) for fixing the waste water supply unit (1), the contaminant separation unit (2), the rotating unit (4) and the treatment collection unit (5) It is formed wide horizontally, four support frame 74 is formed vertically to support the upper frame 71, the upper frame 71 of the support frame 74 so that it is stably supported The lower frame 73 is coupled to the stop portion, and the shelf frame 72 is horizontally fixed so that the pump 34 is fixed to one side of the support frame 74, that is, the drainage side of the treatment collection unit 5. Formed. Here, the frame 7 is formed of a square tube having a large moment per unit area.

The wastewater supply unit 1 is a distributor for evenly supplying the wastewater introduced from the outside to the contaminant separator 2 and the wastewater into the rotating drum 20 (distributor) ( 11), one end of the inlet side of the inlet pipe 10 is fixed by a support bearing 14 provided on the upper end of the support 13 formed vertically on one side upper portion of the upper frame 71. The other end of the distributor 11 side of the inflow pipe 10 is penetrated by the inner wall 26 of the rotating drum 20 and supported by a bearing or the like.

The contaminant separating unit 2 includes a rotating drum 20 having a plurality of through holes 21 formed on an outer circumferential surface to separate coarse contaminants contained in the wastewater; Installed inside the rotating drum 20 to separate fine contaminants, the screen 27 is woven in a grid-like form and the inner side of the screen 27 is installed in accordance with the rotation of the rotating drum 20 The vertical wall is composed of a guide screw 28 formed in a spiral shape to be discharged to the discharge port 25 side, the guide rail 24 formed on both outer peripheral surfaces of the rotating drum 20 is the upper frame 71 It is seated on the support roller 42 formed in the upper portion of the support is rotatably supported.

The cover 8 is formed on the upper frame 71 outside the contaminant separator 2 to prevent the treated water from splashing to the outside when the rotary drum 20 rotates. A viewing window 81 is formed at the top to check the washing state of the rotating drum 20 by the washing unit 3.

The washing unit (3) is a contaminant blocking the grid of the through hole 21 or the screen 27 of the rotating drum 20 in the process of separating the contaminants of the wastewater introduced into the contaminant separation unit (2) A drain pipe 36 connected to the bottom surface of the collection chamber 50 to backwash the washing water, that is, the treated water from the outside of the rotary drum 20; A pump 34 connected to the drain pipe 36 for pumping a part of the treated water collected; A treatment water supply pipe 33 connected vertically to the pump 34 to transfer the treatment water to the upper portion of the rotary drum 20; A nozzle pipe 31 branched from the treated water supply pipe 33 to transfer the treated water; Water pressure of the nozzle nozzle 31 formed on the outer circumferential surface of the nozzle tube 31 and formed on the inlet side and the outlet side of the nozzle tube 31 for branching out the treated water at a high pressure. Consists of the on-off valve 32 for adjusting the. Here, the pump 34 is located below the level of the treated water collected in the collection chamber 50 so that vanes of the pump 34 are always filled with treated water to prevent the pump 34 from being lost due to idling. It is preferably installed at the lower end of the collecting chamber 50.

The rotating part 4 supports the rotating drum 20 with a plurality of support rollers 42 and rotates the driving motor 40, and at least four supports on both sides of the upper end of the upper frame 71. The roller 42 is installed, one side of the upper frame 71 is provided with a drive motor 40 for transmitting the rotational force by connecting the chain 44 to the rotating drum 20.

Guide rails 24 are formed on the outer circumferential surface of the rotating drum 20 so as not to be separated during rotation by being seated on the support rollers 42, and the chain of the driving motor 40 is formed on one outer circumferential surface of the rotating drum 20. The wheel 22 is formed to be connected to the gear 41 and the chain 44, and the sprocket 23 is formed on the outer circumferential surface thereof.

Non-constant rotational movement due to the non-uniform distribution of the load of the contaminants remaining in the rotating drum 20 and removal of the contaminants stuck to the through-hole 21 or the screen 27 when the rotating drum 20 is rotated. When the rotating drum 20 is not rotated while maintaining a constant rotating shaft due to the vibration caused by the impact that falls when the support roller 42 supporting the rotating drum 20 is the rotating shaft of the rotating drum 20 Torsion occurred because it was not kept parallel to the seam, and there was an inconvenience in that the support roller 42 was broken during frequent operation and had to be replaced frequently. In order to solve this problem, the support roller 42 is fixed by the self-aligning bearing 43, and the urethane coating is applied to the outer circumferential surface of the support roller 42 to absorb the shock transmitted from the rotating drum 20. The dust-proof effect was obtained, and the durability of the rotating part 4 was improved by using a shaft made of a material of the self-aligning bearing 43 and the SM450 capable of withstanding 20,000,000 rotations or more.

The treated water collecting part 5 is a means for collecting and draining the treated water separated by the contaminant separating part 2 or reusing it as washing water. The upper frame is located below the contaminant separating part 2. The water collecting chamber 50 fixed to the 71 and the drain pipe 36 connected to the lower end of one side of the water collecting chamber 50. The collecting chamber 50 has a receiving portion deeply formed like a general collecting container, and the bottom surface is inclined to one side so that the treated water can be smoothly collected.

On one side of the collection chamber 50, a treatment water outlet pipe 51 is formed to drain the treated water to a post-treatment step, and a portion of the treatment water is supplied to the washing unit 3 at one lower end thereof. In order to discharge or discharge, the drain pipe 36 is connected, the drain pipe 36 is branched by a tee (tee) at one end is formed with a drain valve 35, the other end is connected to the pump 34. .

The junk discharge part (6) is for collecting the junks separated by the junk separation unit (2) through the discharge port (25), transfer means for transporting the discharged junk is not shown; Drying means for drying the contaminants; Grinding means for grinding the contaminants; And collecting means for collecting the contaminants.

3 is an exploded perspective view of a wastewater supply part and a contaminant separating part, which are main parts of a cylindrical fine contaminant removing device according to the present invention, one side of the inlet pipe 10 is seated on the support bearing 14, and the distributor 11 is integrated on the other side. It is formed as, and the screen 27 and the guide screw 28 is installed on the inside of the rotating drum 20 is shown is separated.

The inlet pipe 10 is a pipe connected to supply waste water introduced from the outside into the contaminant separator 2, and a flange 15 is formed at one side to be connected to an external supply source. An inner cover plate 12 is formed at the stop portion 10 of the rotary drum 20 to block a hole for penetrating the inlet pipe 10 through the inner wall 26 of the rotating drum 20. At the other end of the pipe 10, a duct-shaped distributor 11 whose upper part is opened to evenly spread the waste water flowing in through the inflow pipe 10 of the waste water supply unit 1 inside the contaminant separator 2. ) Is extended. In addition, one side of the inlet pipe 10 is seated on the support bearing 14 to be seated while maintaining a certain height by the support (13). Here, the side of the distributor 11 is bent outwardly so that the supplied waste water flows over (flow) to fall evenly to form an inclined surface.

The contaminant separating unit 2 includes a rotating drum 20 in which a plurality of through holes 21 are formed to remove fine contaminants secondarily; Installed on the inside of the rotating drum 20, the screen 27 is woven in a grid form to remove coarse contaminants primarily and the inside of the screen 27 is rotated so that the rotating drum 20 is rotated As it is composed of a guide screw 28 is formed with a spiral vertical wall for conveying the contaminants to the outlet 25 side.

First, the rotating drum 20 has a plurality of long holes (elliptical holes) perforated in a zigzag column on the stainless steel cylindrical outer circumferential surface to effectively remove the contaminants contained in the waste water, the drive of the rotating part (4) A wheel 22 is formed at one end of the outer circumferential surface of the wheel 22 so as to be connected to the motor 40 and rotated, and the chain gear 41 and the chain 44 coupled to the driving motor 40 are coupled to the outer circumferential surface of the wheel 22. The sprocket 23 is formed. In addition, guard rails are formed on both sides of the outer circumferential surface of the rotating drum 20 so as not to be separated from the supporting rollers 42 when seated on the supporting rollers 42 and rotated, and on one side of the rotating drum 20. Holes are formed in the center of the inner wall 26 to penetrate the inlet pipe 10, and water is splashed on the inner circumferential surfaces of both ends of the rotating drum 20 to prevent the treated water from flowing into the outlet 25 or the hole. Bump 29 is formed.

The screen 27 has a larger size of the grating formed by the wire to separate the coarse matter than the through-hole 21 formed on the outer circumferential surface of the rotary drum 20 primarily. Here, the screen 27 is made of a stainless steel wire having a corrosion resistance against waste water is woven to form a grid of 20 to 80 mesh, the screen 27 to solve the blockage caused by the contaminants and low transmittance, etc. It is woven so that the warp and weft cross each other in the form of twill. The twill weave is a combination of two or more warp and weft yarns organized so as to represent the ridge line (serpentine line) is excellent in flexibility and can be easily installed by bending the screen 27 in the rotating drum 20, It is preferable that the mesh of the screen 27 is formed of 40 to 80 so that even fine impurities of 0.15 mm can be separated and removed.

The guide screw 28 is a spiral vertical wall installed inside the screen 27 so that the debris dehydrated by the screen 27 and the rotating drum 20 is transferred to the outlet 25. As described above, the diameter of the guide screw 28 manufactured in the spring shape is retracted, and then inserted into the screen 27 and installed to form a spiral by being in close contact with the inner circumferential surface by elastic force.

The rotary drum 20, the screen 27 and the guide screw, which are components of the contaminant separation unit 2, are manufactured to be detachable for replacement or cleaning, and the components are rotated to the rotary drum 20. To be used to draw out the outlet 25 of the side.

4 is a plan view of a washing part 3 which is a main part of the cylindrical fine contaminant removing apparatus according to the present invention, and is installed on the contaminant separating part 2, that is, the upper part of the rotating drum 20 to perform backwashing. The state in which the tube 31 is branched in the form of a manifold is shown.

The washing unit 3 includes a pump 34 for supplying the treated water for washing; A treated water supply pipe 33 for supplying the treated water discharged from the pump 34 to the injection nozzle 30; A nozzle pipe (31) for branching the treated water in a plurality of directions to supply the nozzle; It consists of a spray nozzle 30 for injecting the treated water into the through-hole 21 of the rotating drum 20, the washing unit 3 is the contaminant separating unit 2 as shown in FIG. The nozzle tube 31 is disposed on the upper part of the rotating drum 20 to spray the treated water supplied from the pump 34 connected to the bottom of the collecting chamber 50 located at the lower part of the rotating drum 20. ) And injection nozzles 30 are formed.

Referring to FIG. 4, the nozzle pipe 31 is formed so as to branch in a manifold form on the outer side of the rotating drum 20, and the treated water is formed on the outer circumferential surface by the injection nozzle 30. A plurality of injection nozzles 30 are formed to be aligned at regular intervals so as to be injected in the centrifugal direction of the rotating drum 20. In addition, the injection nozzle 30 formed in the nozzle tube 31 is preferably installed at a height of 2/3 to 1 with respect to the rotary drum 20 to allow the treated water to be sprayed in two or more directions.

In addition, the injection nozzle 30 is applied to the P-cutting injection nozzle 30 having a circular fan-shaped orifice structure that causes a strong impact force and cohesion even at low pressure, so that there is no corrosion or clogging by the treated water In order to produce a stainless material is preferable.

Opening and closing valves 32 are formed in the nozzle pipe 31 branched at the back of the nozzle tube 31 at the front end side and the rear end side thereof, respectively, to the nozzle tube 31 branched by the operation of the opening and closing valve 32. It is possible to control the injection direction or the injection pressure by the injection nozzle 30 by selectively supplying the treated water or by adjusting the supply amount or the supply pressure.

The apparatus for removing cylindrical fine contaminants according to the present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various changes and modifications can be made without departing from the technical spirit of the present invention. It will be apparent to those of ordinary skill in the art.

As described above, the present invention primarily removes coarse contaminants by forming a large grid size in order to separate and remove contaminants during the pretreatment of the wastewater treatment process, and to form a through hole smaller than the size of the grid of the screen. By passing through the rotating drum to remove the second small fines in a manner to drain the treated water to remove the contaminants was able to reduce the load in the aeration tank during the post-treatment process, by installing a guide screw on the inside of the rotating drum It is to make sure that the impurities are smoothly discharged during the rotation of the nozzle, and the nozzle is formed to be sprayed in the centrifugal direction from the upper part of the rotating drum to correspond to the through hole so as to remove the impurities caught in the through hole of the rotating drum. Wash water sprayed through the spray nozzle Since the need for a separate supply of the wash water in accordance with the washing by using a treatment to prevent maintenance cost it does not occur provided the impurities removal apparatus capable of long time continuous motion.

In addition, since the support roller supporting the rotating drum is dustproof with urethane coating, it is possible to operate in a quiet manner. When the rotating shaft center of the rotating drum is changed by adjusting the self-aligning bearing in the center of the supporting roller, the rotating shaft is automatically adjusted. To improve the durability of the support roller.

In addition, the rotating drum is a component of the contaminant separation unit; Since the screen and the guide screw can be attached and detached, it is easy to wash and maintain the inside of the rotating drum, and when the screen and the guide screw are damaged, it can be referred to as a very useful invention.

Claims (14)

delete Waste water supply unit 1 for supplying the waste water to the inside of the rotating drum 20 through the inlet pipe (10); A dirt separation unit (2) for passing wastewater introduced from the waste water supply unit (1) to the rotary drum (20) to separate the contaminants and the treated water, and transport and discharge the separated contaminants; A washing unit (3) including a spray nozzle (30) formed in the centrifugal direction on the outside of the rotating drum (20) to backwash the contaminants blocking the through holes formed in the rotating drum (20); A rotating part (4) for supporting the rotating drum (20) with a plurality of support rollers (42) and rotating the driving motor (40); A treated water collecting part 5 for collecting the treated water separated by the contaminant separating part 2 to a water collecting chamber 50 and transferring it to a purification apparatus; And And a junk discharge portion 6 for collecting the junk separated by the dirt separation unit 2 through an outlet 25, The contaminant separating unit 2, A wheel 22 is formed at one end of the outer circumferential surface so as to be connected to the driving motor 40 of the rotating part 4, and guide rails 24 are formed at both sides of the outer circumferential surface so as not to be separated from the support roller 42. A rotating drum 20 in which a plurality of through holes 21 are formed on an outer circumferential surface to separate the contaminants by car and drain the treated water; A separate screen 27 installed detachably close to an inner circumferential surface of the rotating drum 20 to filter out contaminants primarily; And Removably installed separately inside the screen 27, and made of a guide screw 28 is formed with a spiral vertical wall so that dehydration of dehydration during rotation of the rotary drum 20 is transferred to the outlet 25 side , The support roller 42 of the rotating part 4 is cylindrical, characterized in that the outer peripheral surface is coated with urethane for dust protection, and is supported by the self-aligning bearing 43 to provide a smooth rotational movement against the fluctuation of the shaft center. Fine dust removal device. The method of claim 2, The screen 27 is a cylindrical fine contaminant removal device, characterized in that formed of 20 ~ 80 mesh. The method of claim 2, The screen 27 is a cylindrical fine contaminant removal device, characterized in that formed in the form of twill weave and cross weft cross each other. The method of claim 2, The through-hole 21 formed on the outer circumferential surface of the rotating drum 20 is a cylindrical fine contaminant removal device, characterized in that the long hole is formed by perforating in the zigzag column. The method of claim 2, The rotating drum 20 of the contaminant separating part 2 forms a sprocket 23 on the outer circumferential surface of the wheel 22, and a chain gear 41 coupled to the wheel 22 and the driving motor 40. Chain 44 is connected to the outer circumferential surface of the cylindrical fine contaminant removal device, characterized in that the rotation is made by the chain drive. The method of claim 2, The washing unit 3 is formed with a nozzle tube 31 branched in a manifold form on the outside of the rotating drum 20, a plurality of injection nozzles 30 to be injected in the centrifugal direction on the outer peripheral surface of the nozzle tube 31 ) Is formed at regular intervals, the cylindrical nozzle fine particles removal device, characterized in that the injection nozzle 30 is installed at a height of 2/3 to 1 with respect to the rotary drum (20). The method of claim 7, wherein The injection nozzle 30 is a cylindrical fine contaminant removal device, characterized in that the P-type cutting injection nozzle having a circular fan-shaped orifice structure is applied. The method of claim 7, wherein The front and rear ends of the nozzle tube 31 is characterized in that the opening and closing valve 32 is formed to adjust the pressure injected through the injection nozzle 30 of the nozzle tube 31 branched during backwashing, respectively Cylindrical fine dust removal device. The method of claim 2, Cylindrical, characterized in that the pump 34 is installed to be below the treated water level in order to supply a portion of the treated water collected into the collection chamber 50 of the treated water collection unit 5 to the washing unit (3) Fine dust removal device. The method of claim 2, In order to spread the waste water flowing in through the inlet pipe 10 of the waste water supply unit 1 evenly to the inside of the contaminant separating unit 2, a duct-shaped distributor having an upper portion open at the end of the inlet pipe 10 ( Distributor) (11) characterized in that the cylindrical fine contaminants removal device is formed. delete The method of claim 2, Cylindrical fine contaminant removal device, characterized in that the water splash prevention jaw (29) is formed on the inner peripheral surface of both ends of the rotating drum (20). The method of claim 2, The frame (7) is a cylindrical fine contaminant removal device, characterized in that formed in a square tube with a large moment per unit area.