KR101837747B1 - Purifying System of Waste Producing Laver Manufacturing Procedure - Google Patents

Abstract

An apparatus for purifying waste water generated in a dried-laver processing process according to the present invention comprises: a waste water supply means pumping and supplying waste water generated in a dried-laver processing process to a first filter means; the first filter means primarily filtering the waste water supplied from the waste water supply means; a water tank unit receiving treated water having passed through the first filter means; a second filter means receiving the treated water stored in the water tank unit by intake pumping, and filtering the treated water; an UV processing unit sterilizing, by a UV lamp, virus or the like which can be included in the treated water filtered by the second filter means; a water purifying tank receiving purified water having passed through the UV processing unit; a purified water discharge means supplying, to a dried-laver forming device, the purified water stored in the water purifying tank; and a dehydrating means receiving byproducts such as dried-laver residues generated in the first filter means, and discharging the byproducts through a dehydrating and pressurizing process. The present invention reuses wastewater, thereby reducing costs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wastewater purification apparatus,

The present invention relates to a purification system for wastewater that is discarded after use in a steaming process. Generally, the roasting process is a process in which roasted roots of a certain size are taken into a certain shape and then dried to obtain a large amount of wastewater. Therefore, if the wastewater can be purified and reused, a large amount of water consumption can be reduced, so that the plant can be operated economically.

A conventional technique related to the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2014-0146443 (published on December 24, 2014). 1 is a block diagram of the conventional Kim shaping apparatus and the drying apparatus for producing the same. 1, the conventional Kim shaping apparatus and the dry Kim manufacturing apparatus having the Kim shaping apparatus are provided with a kimono transfer conveying apparatus 20 for transferring the Kim sun shroud 5, A drying device 73 for drying the Kim layer L formed on the Kim solution packaging 5 by the Kim forming device 30, And a control device for controlling the overall operation of the apparatus. The drying steam production apparatus 10 can sequentially perform the forming process of the steam and the drying process while continuously transferring the plurality of steam drying furnace 5 to the drying furnace 20. The kimono-related transfer apparatus 20 may be of various types capable of discharging the water passing through the Kimono plant 5 while continuously transferring a plurality of Kimono plants 5 such as various conveyors. The Kim shaping device 30 and the drying device 73 are arranged in order along the conveyance path of the Kim shingling 5 by the Kim shingling conveying device 20. [ The drying device 73 may be of various types that are applied to a conventional dry steam production apparatus. The kimchi forming apparatus 30 is further provided with a predetermined amount W of water on the Kim's open field 5 to form a wet Kim's layer L on the Kim's open field 5 transported by the Kim delivering apparatus 20, And a thickness detecting device 32 provided in the middle of the conveyance path of the Kim lighting furnace 5 for detecting the thickness of the wet Kim layer L formed on the Kim tray 5, . Although the drawing shows that the raw water supply device 31 and the thickness detection device 32 are provided in pairs so as to be spaced apart from each other along the conveying path of the radiant field 5, the raw water supply device 31 and the thickness detection device 32 may be variously changed. The primordial water supply device (31) receives the primordial water (W) from the primordial water reservoir (33). A feed pipe 34 is connected to the raw water storage tank 33 and a feed pipe 34 is connected to the feed guide 35 disposed along the feed path of the kimchi shale 5. A pump 36 is installed in the supply pipe 34 and the raw water W stored in the raw water storage container 33 is transferred to the supply guide 35 through the supply pipe 34. A supply nozzle 37 is provided in the supply guide 35 so as to face the primordial water supply device 31 and is directed to the primordial water W through the supply nozzle 37 into the discharge cylinder 40 of the primordial water supply device 31. [ Is continuously supplied. When the raw water W is supplied to the discharge cylinder 40, the raw water W overflowing in the discharge cylinder 40 flows into the recovery guide 38 disposed along the conveying path of the Kim opening 5 . The recovery guide 38 is connected to the primary water reservoir 33 through the recovery pipe 39 and the raw water W flowing into the recovery guide 38 from the discharge pipe 40 is discharged through the recovery pipe 39 And is recovered to the primordial water storage tank 33 and re-supplied.

Since the conventional Kim shaping apparatus and the dry Kim manufacturing apparatus having such a conventional Kim shaping apparatus can reuse the ground water but do not have a filtration and purification process, the wastewater used in the Kim shaping process is reused as it is, There is an inefficiency in that it can not be substantially reused and reused. Accordingly, an object of the present invention is to efficiently reuse wastewater generated in the Kimchi processing step through filtration and purification processes and to form an elvan stone layer to improve the water taste. It is also intended to reduce the cost of reusing wastewater and to make the work process efficient.

The wastewater purification apparatus of the present invention having the above-described objects has a wastewater supply means for supplying wastewater generated in the steaming step to the first filter means and supplying the wastewater, A second filter means for supplying filtered water to the water tank portion through suction pumping and filtering the stored water; and a second filter means for filtering the stored water in the water tank portion, An UV ultraviolet processing unit for disinfecting and disinfecting viruses and the like contained in the treated water filtered by the filter means with a UV lamp, a purified water tank for receiving the purified water through the UV ultraviolet processing unit, A water purifying means for supplying purified water to the molding apparatus, and a by-product such as a scum generated by the first filter means, A dehydration means for discharging through it, characterized in that configured.

The wastewater purification apparatus of the present invention having the above-described construction of the present invention has the effect of reducing energy by reusing water generated in the Kim process. In addition, it is possible to reduce the manufacturing cost by reusing water and it is possible to reduce the taste of Kim according to the water used in the Kim processing process. It uses clean water that passes through the purification process and the elvan stone layer, It is effective.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a conventional Kim shaping apparatus,
FIG. 2 is a perspective view of a whole waste water purification apparatus,
FIG. 3 is a plan view of a wastewater purification apparatus,
4 is a bottom view of a wastewater purification apparatus generated in the Kim process,
FIG. 5 is a side view of a wastewater purification apparatus,
6 is a detailed configuration diagram of a water tank portion applied to the present invention,
FIG. 7 is a perspective view of a first filter portion of a first filter means applied to the present invention; FIG.
8 is an exploded view of a first filter unit applied to the present invention,
9 is an exploded view of the inner filter portion of the first filter portion applied to the present invention,
10 is an exploded perspective view of the first filter portion according to the present invention,
11 is a detailed configuration diagram of a controller unit applied to the present invention.

A wastewater purifying apparatus for the present invention having the above-described objects will now be described with reference to FIGS. 2 to 11. FIG.

Fig. 2 is a perspective view of the entire wastewater purification apparatus generated in the processing step of the present invention. 2, the wastewater purification apparatus of the present invention includes a wastewater supply unit 100 for supplying wastewater generated in the steaming step to the first filter unit and supplying wastewater, A first filter means 200 for firstly filtering the treated water, a water tank portion 300 for receiving treated water through the first filter means, and a second A UV ultraviolet processing unit 500 for sterilizing and disinfecting mold bacteria contained in the treated water filtered by the second filter unit with a UV lamp, A water purifying tank (600) for receiving purified water, a purified water discharging means (700) for supplying purified water stored in the purified water tank to the Kim shaping device, and byproducts such as scum generated by the first filter means, That consists of dehydrating means 800 for discharging through the process is as claimed. In addition, the water purifier tank is provided with an elvan layer having a certain thickness to improve the water taste and to use purified water in the Kim process. In addition, the second essential means 400 may be an industrial water filter used in a factory or the like. When the water pressure rises, the output signal of the attached pressure sensor is output to the control unit 900 of the controller unit 900. When the water pressure rises, When the hydraulic cylinder is operated to operate the hydraulic pump, the lower cover of the first filter unit is opened so that the byproduct falls on the conveyor belt of the dehydrating unit, and the byproducts that have fallen are moved to the press unit and dehydrated and compressed and discharged in the press. The first filter unit 200 includes a first filter unit 210 and a second filter unit 220 and is supplied between the first filter unit 210 and the second filter unit 220 Way valve 230 for switching the supply route of the wastewater. The three-way valve 230 is connected to the first filter unit 210 and the second filter unit 220, And to selectively supply the wastewater to the first filter unit or the second filter unit by controlling the information and the controller. For example, when the internal pressure of the first filter unit 210 rises while the wastewater is supplied to the first filter unit 210, the pressure sensor (or timer) generates sensor information and transmits the sensor information to the controller unit 900 And the controller unit 900 controls the three-way valve 230 to cross the supply of the wastewater to the first filter unit 210 and to supply the wastewater to the second filter unit 220.

3 is a plan view of a wastewater purification apparatus that occurs in the processing step of the present invention. 3, the first filter unit 200 of the wastewater purification apparatus, which occurs in the present invention, includes a first filter unit 210, a second filter unit 220, and a three-way valve 230, The filter unit is attached to the frame unit 240 attached to one side of the upper part 300 with a predetermined angle of inclination. When the inner pressure of the wastewater supplied to the filter unit is increased while the sensor signal of the pressure sensor is received The controller drives the three-way valve to stop the supply of the wastewater to the one-piece filter unit and to control the supply of the wastewater to the other filter unit. When the brush unit 290, which is mounted inside the one- The byproduct adhered to the primary filtering net 281 mounted on the inside of the filter unit can be easily dropped to the bottom, and when the cover 251 under the filter unit is opened, A product such as nor be scattered on top of the conveyor belt 810 to the accurate drop. In addition, a first maintenance window 301 and a second maintenance window 302 are formed on the upper portion of the water tank 300. If one side filter portion is the first filter portion 210, the other side filter portion becomes the second filter portion 220. If the one filter portion is the second filter portion 220, the other filter portion becomes the first filter portion 210 You can.

Fig. 4 is a bottom view of a wastewater purification apparatus generated in the processing step of the present invention. 4, the apparatus for purifying waste water generated in the processing step of the present invention includes a byproduct guiding unit 270 installed at a lower portion of the filter unit at one side of the frame unit 240 installed at one side of the water tank unit 300, The byproduct dropped from the first filter unit 210 or the second filter unit 220 is guided to fall exactly onto the conveyor belt 810 of the dewatering unit 800. The first filter unit 210 and the second filter unit 220 installed in the frame unit 240 are equipped with a cover unit 250 at a lower portion thereof and the cover unit 250 covers the cover 251 and the cover 250. [ And two hydraulic cylinders 255 which are fastened to both sides of the filter unit body at both ends of the cover supporting unit, and a hinge unit 253 which is fastened to one side of the cover and the outer surface of the filter unit body, (257). When the pistons of both hydraulic cylinders (255) are advanced to the outside of the cylinder, the cover (251) rotates around the hinge (257) will be. When the one side of the lower cover 251 of the first filter unit 210 and the second filter unit 220 is opened as described above, the byproducts accumulated in the filter unit drop on the byproduct guiding unit 270, It falls to the top. The by-products that fall on the rotating conveyor belt 810 pass through the press portion 870 for press-dewatering and are dehydrated and pressed. The action of the hydraulic cylinder part 255 is to cause the control part of the controller part 900 to operate the hydraulic pump so as to supply or discharge the hydraulic pressure to or from the cylinder to advance and retract the piston of the cylinder part. The conveyor belt 810 constituting the dehydrating means 800 has a structure in which the rotary roller 820 formed at both ends of the conveyor belt 810 and the idler roller are rotated by the conveyor motor 815, The press portion 870 rotates the conveyor belt 810. The press portion 870 includes an upper dewatering filter portion 873 including a plurality of upper rollers 871 and a lower roller 881 and surrounding the upper roller, And the lower dewatering filter portion 883 that surrounds the lower roller is passed through while allowing the by-product to pass through. One of the plurality of upper rollers 871 may be connected to the press motor 875 so as to rotate. The upper dewatering filter portion 873 and the lower dewatering filter portion 883 rotate while the upper roller is rotated and the lower rollers are rotated at the same time when the press motor 875 is driven, The by-product passing between the filter portions 883 can be dehydrated and compressed. In this case, a separate motor may be further connected to the lower roller 881 to be driven.

Fig. 5 is a side view of the wastewater purification apparatus generated in the Kim process. 5, the apparatus for purifying waste water generated in the processing step of the present invention includes a frame unit 240 attached to one side of an upper portion of a water tank unit 300, first filter means 200 fastened to one side of the frame unit, A water tank unit 300 installed below the frame unit 240 and supplied with treated water filtered by the first filter unit 200 and a water tank unit 300 receiving and supplying filtered water from the water tank unit 300 2 filter means 400 and a UV ultraviolet processing unit 500 for disinfecting the treated water filtered by the second filter means 400 using a UV lamp and a UV ultraviolet processing unit 500 for disinfecting the UV ultraviolet processing unit 500 And a purified water tank 600 to which purified water is supplied. In addition, a byproduct guiding part 270 is formed at one upper end of the lower frame part of the first filter device 200, and a dehydrating device 800 is formed below the byproduct guiding part.

6 is a detailed configuration diagram of a water tank portion applied to the present invention. 6, the water tank 300 according to the present invention includes a rectangular body 330, a first repair window 301 and a second repair window 302 formed on the body, A filter net 340 is formed in the upper part of the partition wall to filter the debris, and the filter body 310 is formed in the upper part of the partition wall. And a drain valve 350 is formed at one side of the drain pipe 330 to drain the treated water of the water tank portion during maintenance and cleaning. 360 are formed. In the water tank unit 300 configured as described above, the treated water filtered in the first filter unit 200 flows in through the inflow hole 310 and the treated water flows in the filter net 340 formed on the upper part of the partition 320, And the treated water that has passed through the filter net flows into the second filter means 400 through the discharge port 360.

7 is a perspective view of a first filter portion of a first filter means applied to the present invention. 7, the first filter unit 210 of the first filter unit of the present invention includes a filter motor 212 for driving the brush unit 211 mounted in the filter body 214, A wastewater inflow hole 213 through which the wastewater flows through the pipe, a pressure sensor 215 for sensing the internal pressure of the first filter unit, an air inlet 217 for injecting air, A hydraulic cylinder part 255 which is fastened to both sides of the filter body 214 and opens and closes the cover according to the movement of the piston by the operation of the hydraulic pump 920, And a fastening portion 218 for fastening the hinge portion 257 and the first filter portion 210 to the frame portion 240. The first filter unit 210 of the first filter unit configured as described above drives the hydraulic cylinder unit 255 to open or close the lower cover 251 using the hinge unit 257, (212) rotates the inner brush part (211). The first filter unit 210 described above has the same structure as the second filter unit 220.

8 is an exploded view of a first filter unit applied to the present invention. 8, the body portion 214 of the first filter portion is formed with a coupling portion 218 for fastening the frame portion 240 to one side, and the lower portion of the body portion 214 of the first filter portion is inserted through the inlet hole 310 of the water tank portion 300 A lower circular ring portion 228 constituted by a filter outlet hole 219 and an upper circular ring portion 224 which is fastened inside the upper portion of the body portion and a shaft of a filter motor 212 fastened to the upper portion of the body portion 214, A brush unit 211 for brushing the inner surface of the primary filter screen 213 installed in the main body 214 and a cover unit 250 for opening and closing the cover 251 formed at the lower part of the body unit 214 using a hinge unit 257, And the cover 251 of the cover part 250 is driven to thereby constitute the hydraulic cylinder part 255 constituted on both sides of the body part.

FIG. 9 is an exploded view of the internal filter unit of the first filter unit applied to the present invention. FIG. 9, the filter formed inside the first filter unit includes an upper circular ring part 224 fastened to the body part 214 by fastening means such as bolts and nuts at the upper and lower parts inside the body part 214, A primary squeeze network 213 in the form of a nonwoven fabric attached to the inside of the secondary sieve network and a secondary squeeze network 213 in the form of a nonwoven fabric attached to the inside of the secondary squeezing net 223, And a fixing band 235 fastened to the upper, middle, and lower portions, respectively, for fixing the tea squeezing nets to the inside of the secondary sieving net.

10 is an exploded perspective view of the first filter portion according to the present invention. 10, the first filter unit according to the present invention includes a body part 214 and a fastening part 218 for fastening the frame part to one side of the body part. The first filter part is fastened to the inner lower part by fastening means such as a bolt nut, A lower circular ring portion 228 constituted by a filter outlet hole 219 penetrating the inlet hole 310 of the body 300 and a shaft of a filter motor 212 fastened to an upper portion of the body portion, A brush part 211 for brushing the inner surface of the primary filter screen 213 installed inside the filter part, a cover part 250 opened and closed by using the hinge part 257 formed at the lower part of the body part, A hydraulic cylinder part 255 which is fastened to both sides of the cover supporting part 253 of the cover part and drives the opening and closing of the cover through a hinge part 257, The upper circular ring portion 224 and the lower circular ring portion 228, A primary screen 223 in the form of a nonwoven fabric adhered to the inside of the secondary screen 223 and a primary screen 223 for fixing the primary screen to the inside of the secondary screen 223, And a fixing band 235 fastened to the upper, middle, and lower portions, respectively. The lower circular ring portion 228 and the body portion 214 and the upper circular ring portion 224 and the body portion 214 can be prevented from leaking by caulking the gap with silicone caulking after fastening. The filter can be removed by using the brush part 211 that is coupled to the motor shaft and rotates by driving the filter motor 212 when the debris or the like adheres to the primary filtering wire 213 after filtering. In the above, the primary filtering network may be a combination of a nonwoven fabric and a steel mesh network.

11 is a detailed configuration diagram of a controller unit applied to the present invention. 11, the controller unit 900 according to the present invention is installed in the first filter unit 210 and the second filter unit 220 of the first filter unit 200, respectively. In the filtering process of the filter unit, A wastewater supply pump 110 that operates by controlling the control unit to supply the wastewater generated in the steaming process to the first filter unit, A suction pump 410 installed between the first filter unit 300 and the second filter unit 400 to operate to suck the treated water stored in the water tank unit into the second filter unit, A three-way valve 230 installed between the first and second filter units for selectively supplying wastewater to the first filter unit or the second filter unit, , Time information is provided to the control unit A timer 910 for controlling the three-way valve in accordance with a predetermined time instead of the pressure information of the pressure sensor, a hydraulic pump 920 for driving the hydraulic cylinder for operating the cover constructed at the lower part of the filter unit, A press motor 875 for driving the rotating roller of the press section and a control section 950 for receiving the pressure information from the pressure sensor 215 of the first filter section, And controls the three-way valve so that the wastewater supplied to the first filter unit 210 is transferred to the second filter unit 220. When the reference pressure is higher than the reference pressure, The filter motor 212 of the first filter unit 210 is driven to drive the brush unit 211 mounted in the first filter unit so that byproducts such as scum deposits attached to the first filtering unit 213 are dropped, Firm The conveyor motor 815 installed on the conveyor belt 810 and the conveyor belt 810 installed on the conveyor belt 810 are driven so that the inlet cylinder portion of the first filter unit 210 is operated to open the bottom cover 251, To drive the rotary roller of the conveyor belt and then drive the press motor 875 of the press section to rotate the rotary roller to control the pressing and dewatering of the by-products. The control unit drives the suction pump 410 to supply the treated water filtered by the first filter unit 200 to the second filter unit 400. The treated water that has passed through the second filter unit is supplied to the UV ultraviolet processing unit And then collected in the purified water tank. In addition, the wastewater supplied to the second filter unit 220 under the control of the three-way valve 230 controls the three-way valve so that the pressure information of the pressure sensor 215 provided in the second filter unit exceeds a predetermined reference pressure, The wastewater is filtered, sterilized and treated through the second filter unit 220, the second filter unit 400, and the UV ultraviolet treatment unit 500 of the first filter unit until the wastewater supply is switched to the first filter unit 210 The control unit 950 receives the pressure information from the pressure sensor 215 installed in the second filter unit 220 and compares the reference pressure with the reference pressure stored in the memory unit 940 Way valve 230 to control the supply of wastewater to the first filter unit 210 and driving the filter motor 212 installed in the second filter unit 220 to control the supply of the wastewater to the second filter unit 210. [ The brush part 211 is driven to remove the by-products and fall on the conveyor belt As a by-product hadoen to discharge by pressing the dehydration by-products to drive the conveyor motor 815, the press motor 875 control is to perform the operation as described above repeated. In the above description, the pressure information is generated by the pressure sensor 215 installed in the filter unit, and the control unit controls the three-way valve. However, instead of the pressure information, the time information received from the timer 910 is used Way valve so that the first filter unit and the second filter unit can be operated at an intersection.

100: wastewater supply means, 200: first filter means,
300: water tank portion, 400: second filter means,
500: UV ultraviolet treatment part, 600: water tank,
700: purified water outlet, 800: dehydrating means,
900:

Claims (8)

In a wastewater purification apparatus that occurs in a Kim process,
The wastewater purification apparatus, which is generated in the above-
A wastewater supply means (100) for pumping and supplying wastewater generated in the Kim process to the first filter means;
The first filter unit 210, the second filter unit 220, and the three-way valve 230 are formed by firstly filtering the wastewater supplied from the wastewater supply unit so that the first filter unit or the second filter unit is driven at an intersection A first filter means (200)
A water tank unit 300 for receiving the treated water through the first filter unit;
A purified water tank 600 supplied with treated water through the water tank unit;
Water purifying means (700) for supplying purified water stored in the purified water tank to a Kim shaping apparatus;
And a dewatering means 800 for receiving a byproduct such as scum generated by the first filter means and discharging the dewatered product through a squeezing process,
The first filter unit 210 or the second filter unit 220 includes a body part 214 and a fastening part 218 for fastening the frame part to one side of the body part, A lower circular ring portion 228 constituted by a filter outlet hole 219 penetrating the inlet hole 310 of the body 300 and a shaft of a filter motor 212 fastened to an upper portion of the body portion, A brush part 211 for brushing the inner surface of the primary filtering wire 213 installed in the filter part and a cover part 215 formed at the lower part of the body part are connected to a cover part 250 opened and closed by using a hinge part 257, A hydraulic cylinder part 255 which is fastened to both sides of the cover part 253 to drive the opening and closing of the cover through the hinge part 257 and an upper circular ring part 224 which is fastened to the body part by the fastening means in the upper part of the body part, And the lower circular ring portion 228, A primary filtering network 213 in the form of a nonwoven fabric adhered to the inside of the secondary filtering network 223 and a primary filtering network 213 for fixing the primary filtering network to the inside of the secondary filtering network, And a fixing band (235) which is formed on the upper surface of the base plate.
delete The method according to claim 1,
The dehydrating means (800)
A rotary roller 820 formed at both ends of a conveyor belt 810 that rotates in an endless track and a rotary roller driven by a conveyor motor 815 in the idle roller to rotate the conveyor belt 810, Is constituted by a plurality of upper rollers 871 and a lower roller 881 and a portion between the upper dewatering filter portion 873 which surrounds the upper roller and the lower dewatering filter portion 883 which surrounds the lower roller is made by- One upper roller 871 of the upper roller is connected to the press motor 875 so that when the press motor 875 is driven, the upper roller is rotated, while the lower rollers are rotated, Wherein the dewatering filter portion (873) and the lower dewatering filter portion (883) are rotated.
delete In a wastewater purification apparatus that occurs in a Kim process,
The wastewater purification apparatus, which is generated in the above-
A wastewater supply means (100) for pumping and supplying wastewater generated in the Kim process to the first filter means;
The first filter unit 210, the second filter unit 220, and the three-way valve 230 are formed by firstly filtering the wastewater supplied from the wastewater supply unit so that the first filter unit or the second filter unit is driven at an intersection A first filter means (200)
A water tank unit 300 for receiving the treated water through the first filter unit;
A second filter means (400) for supplying and storing filtered water stored in the water tank portion through a suction pump;
A UV ultraviolet processing unit 500 for sterilizing and disinfecting fungal bacteria contained in the treated water filtered by the second filter unit with a UV lamp;
A purified water tank 600 supplied with treated water through the water tank unit;
Water purifying means (700) for supplying purified water stored in the purified water tank to a Kim shaping apparatus;
And a dewatering means 800 for receiving a byproduct such as scum generated by the first filter means and discharging the dewatered product through a squeezing process,
The first filter unit 210 or the second filter unit 220 includes a body part 214 and a fastening part 218 for fastening the frame part to one side of the body part, A lower circular ring portion 228 constituted by a filter outlet hole 219 penetrating the inlet hole 310 of the body 300 and a shaft of a filter motor 212 fastened to an upper portion of the body portion, A brush part 211 for brushing the inner surface of the primary filter screen 213 installed in the filter part and a cover part 215 formed at the lower part of the body part are covered with a cover part 250 opened and closed by using a hinge part 257, A hydraulic cylinder part 255 which is fastened to both sides of the cover part 253 to drive the opening and closing of the cover through the hinge part 257 and an upper circular ring part 224 which is fastened to the body part by the fastening means in the upper part of the body part, And the lower circular ring portion 228, A primary filtering network 213 in the form of a nonwoven fabric adhered to the inside of the secondary filtering network 223 and a primary filtering network 213 for fixing the primary filtering network to the inside of the secondary filtering network, And a fixing band (235) which is formed on the upper surface of the base plate.
delete 6. The method of claim 5,
The dehydrating means (800)
A rotary roller 820 formed at both ends of a conveyor belt 810 that rotates in an endless track and a rotary roller driven by a conveyor motor 815 in the idle roller to rotate the conveyor belt 810, Is constituted by a plurality of upper rollers 871 and a lower roller 881 and a portion between the upper dewatering filter portion 873 for wrapping the upper roller and the lower dewatering filter portion 883 for wrapping the lower roller is made by- One upper roller 871 of the upper roller is connected to the press motor 875 so that when the press motor 875 is driven, the upper roller is rotated, and at the same time, the lower rollers are rotated, Wherein the dewatering filter portion (873) and the lower dewatering filter portion (883) are rotated.
In the second filter portion having the same structure as that of the first filter portion used in the wastewater purifying device generated in the Kim process,
The second filter unit having the same structure as that of the first filter unit used in the wastewater purifying apparatus generated in the above-mentioned Kim processing step,
A body portion 214;
And a filter outlet hole 219 which is connected to the inlet hole 310 of the water tank part 300 and which is connected to the lower part of the lower part by a fastening part 218 for fastening the frame part to one side of the body part, A ring portion 228;
A brush part 211 connected to the shaft of the filter motor 212 fastened to the upper part of the body part and brushing the inner surface of the primary filtering wire 213 installed inside the filter part by the rotation of the filter motor;
A cover part 250 which is opened and closed by using a hinge part 257 formed on a lower part of the body part;
A hydraulic cylinder part 255 fastened to both sides of the cover supporting part 253 of the cover part and driving the opening and closing of the cover through a hinge part 257;
An upper circular ring part 224 fastened to the body part by fastening means at the upper part of the body part;
A secondary screen 223 made of a steel material and placed on the lower circular ring portion 228;
A primary screen 213 in the form of a nonwoven fabric attached to the inside of the secondary screen 223;
And a fixing band 235 fastened to the upper, middle, and lower portions, respectively, for fixing the primary filtering network to the inside of the secondary filtration net. The second filter portion having the same structure as the first filter portion.

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