WO2019039622A2 - 음식물류 폐기물 발생원 집중처리 자원화 시스템 - Google Patents
음식물류 폐기물 발생원 집중처리 자원화 시스템 Download PDFInfo
- Publication number
- WO2019039622A2 WO2019039622A2 PCT/KR2017/009129 KR2017009129W WO2019039622A2 WO 2019039622 A2 WO2019039622 A2 WO 2019039622A2 KR 2017009129 W KR2017009129 W KR 2017009129W WO 2019039622 A2 WO2019039622 A2 WO 2019039622A2
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- WIPO (PCT)
- Prior art keywords
- food waste
- solid
- filter net
- discharge
- food
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F33/00—Other mixers; Mixing plants; Combinations of mixers
- B01F33/80—Mixing plants; Combinations of mixers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B09—DISPOSAL OF SOLID WASTE; RECLAMATION OF CONTAMINATED SOIL
- B09B—DISPOSAL OF SOLID WASTE
- B09B3/00—Destroying solid waste or transforming solid waste into something useful or harmless
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D35/00—Tools for shearing machines or shearing devices; Holders or chucks for shearing tools
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F3/00—Biological treatment of water, waste water, or sewage
- C02F3/02—Aerobic processes
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
Definitions
- the present invention relates to a system for collecting and disposing food wastes, and more particularly, to a system and method for separating solid wastes and sewage water by an automated system for food wastes discharged from homes, And the separated solid matter is supplied with oxygen to recover the heat of the aerobic microorganism as a raw material for the utilization by the drying and fermentation extinction device.
- a food pulverizer is installed at the lower part of the kitchen sink of each household for crushing and treating the food waste.
- the food pulverizer is installed in the lower part of the sink of the kitchen so that the food waste is put into operation, and the food waste is finely pulverized and then discharged to the outside through the transfer pipe.
- the food pulverizer is installed under the drain of the sink and uses the pulverizing blade rotated by the electric motor to pulverize the food waste and discharge it to the outside through the transfer pipe. Thereby providing user convenience.
- Korea Patent No. 1157025 discloses a food pulverizer disposed at the bottom of a sink to crush food waste; A transfer pipe connected to the food pulverizer to transfer pulverized food waste together with wastewater; A food garbage storage tank located at an end of the conveyance pipe for storing the transported food wastes and sewage; A water spray pump for sucking the sludge settled in the lower portion of the food garbage storage tank and discharging the sludge to the outside; A centrifugal separator for drying the sludge conveyed through the water spray pump and separating and discharging the sludge and the sewage water by centrifugal force; A sludge storage tank for storing sludge discharged from the centrifugal separator; And a pelletizer for processing the sludge stored in the sludge storage tank to produce pellets usable as feed or compost.
- a problem to be solved by the present invention is to provide a method and apparatus for disposing food waste discharged from households, businesses, etc., by an automated system, separating the solidified food waste from pulverized food waste, And the separated water is filtered and discharged to the sewage.
- the present invention has been made in view of the above problems, and it is an object of the present invention to provide a food waste collecting and collecting resource recycling system and a food waste collecting and collecting system.
- a solid-liquid separating and reducing device connected to the conveying device and the sewage line to separate and discharge solid matter and moisture from the food waste flowing from the conveying device;
- a solid-liquid recovery unit configured to collect and recover solid matter discharged from the solid-liquid separation / reduction unit;
- a filtration chamber in which water separated from the solid-liquid separation / reduction device is introduced and the introduced water is filtered with treated water; And a drainage chamber for receiving treated water filtered from the filtration chamber and discharging the treated water to sewage.
- the wastewater line is connected to the filtration chamber by a wastewater treatment line, and flows through the wastewater line.
- food waste is supplied to the solid-liquid separation and reduction device, And is configured to flow into the filtration chamber.
- the filtration chamber and the solid-liquid separation / reduction device are connected to each other through a re-supply line so that the food waste flowing into the filtration chamber through the over-feed processing line is supplied to the solid-liquid separation / .
- the conveying device may include a space portion communicating with the sink drain and receiving wastewater and food wastes and having an opened upper end opened and closed by a lid; A crushing part disposed in the space part and having a crushing plate for cutting and crushing food waste; A shaft for transmitting the power of the motor to the crushing plate; A discharge port communicating with the space portion and formed on a lower surface thereof with reference to the crushing portion; And a water supply pipe communicating with the space portion and formed on the upper surface of the crushing portion with respect to the crushing portion.
- the motor has a stepped portion protruding in close contact with the motor shaft, and the shaft has a receiving groove formed at a lower end thereof to receive the stepped member.
- the solid-liquid separating and reducing device comprises a tubular first filter net, and a main casing having a drain port through which the food waste flows into the sewage line while enclosing the first filter net and through which the moisture passing through the first filter net is discharged.
- a pressurizing portion coupled to a front end of the main body portion, the pressurizing portion including a tubular second filter net and a pressurizing portion casing surrounding the second filter net;
- a conveying screw rotatably coupled to the first filter net and the second filter net;
- a cake discharging part coupled to a front end of the pressing part and having a discharging member which is in close contact with a front end of the conveying screw and a cake discharging hole which is opened toward the solids discharging part disposed at a lower part .
- the main casing has a plurality of support ends protruding from the inner periphery of the main casing along the longitudinal direction, and the first filter net is coupled to the support end,
- a first inlet port connected to the sewage line is formed at an upper end of the main body casing so as to communicate with the input space and a second inlet port connected to a re-supply line is formed at a rear end of the main body casing,
- An opening communicating with the charging space is formed at the upper end of the first filtering net, and a drain is formed at the lower end of the main casing.
- the pressing portion is formed with an upward slope so that its diameter becomes larger than the one end of the pressing portion
- the pressing portion casing has a plurality of first stiffening ends protruding in the longitudinal direction on the inner periphery thereof, And a pressurizing packing for forming a discharge hollow is formed at one end of the pressurizing portion casing.
- the conveying screw may include a cylindrical screw shaft housed in the first filter net, the second filter net and the cake discharge portion, and a cylindrical screw shaft disposed in the outer periphery of the screw shaft located in the first filter net and the second filter net.
- the outer diameter of the screw shaft is smaller than the diameter of the discharge hollow at the front end thereof with respect to the pressurizing packing and the rear end of the screw hollow has a diameter smaller than the diameter of the discharge hollow, And the jaw contacting with the discharge hollow forms a curved surface.
- the discharging member may include a fixing member fixed to the inside of the cake discharging portion; An elastic member extending from the fixing member toward the front end of the feed screw; And a discharge member fixed to the elastic member and having at least one pressing blade protruding toward the front end of the conveying screw.
- the solids discharging portion is disposed in the lower portion of the solid-liquid separating and reducing device, and is configured to store the solid material discharged from the solid-liquid separating and reducing device; And a weight measuring sensor for measuring the weight of the storage case, wherein the storage case is placed on the lower surface of the case, wherein a seating groove is formed on the lower surface of the storage case, And when the seating protrusion is inserted into the seating recess, the storage case is configured to utilize the heat of aerobic microorganisms by supplying oxygen to the inside of the storage case, and the recovered solids are recovered as a raw material by the drying and fermentation disinfection device .
- the food waste waste concentrating treatment resource system of the present invention is separated and separated into solid and water by cutting, crushing, cutting and crushing food waste discharged from households, group food service places and businesses by an automated system
- the solids can be recovered as a raw material that can be recycled to compost, feed and so on by removing the odor by recovering it as a raw material by drying and fermentation extinction device using the heat of aerobic microorganism by oxygen supply.
- FIG. 1 is a schematic diagram showing a system for collecting and processing concentrated waste of food wastes according to the present invention
- FIG. 2 is a plan view showing an embodiment of a food waste source concentration processing resource conversion system according to the present invention.
- FIG. 3 is a view schematically showing an embodiment of a solids discharge unit which is an embodiment of the present invention.
- Fig. 4 is a perspective view showing a transfer apparatus as one embodiment of the present invention.
- FIG. 5 is a front sectional view of Fig.
- Fig. 6 is a view showing a crushing plate as one constitution of the conveying device of Fig. 4; Fig.
- Fig. 7 is a view showing a swirl chamber which is a constitution of the conveying device of Fig. 4; Fig.
- Fig. 8 is a view showing a shaft which is a constitution of the conveying device of Fig. 4; Fig.
- FIG. 9 is an exploded perspective view showing a solid-liquid separation / reduction device which is a constitution of the present invention.
- FIG. 10 is a view showing a cake discharging portion of the solid-liquid separation / reduction device of FIG.
- FIG. 11 is an engaging side sectional view of Fig.
- FIG. 12 is a front sectional view of Fig. 11; Fig.
- FIG. 13 is a front sectional view showing a pressing portion which is a constitution of the solid-liquid separation / reduction device of Fig.
- FIG. 14 is a view showing an embodiment of a solid matter discharge unit which is a constitution of the present invention.
- 15 is a view showing one embodiment of a filtration chamber which is an embodiment of the present invention.
- FIG. 2 is a plan view showing one embodiment of a food waste generation source collective resource conversion system according to the present invention.
- FIG. 3 is a schematic view showing a configuration
- FIG. 2 is a schematic representation of an embodiment of a solids discharge.
- FIG. FIG. 4 is a perspective view showing a conveying apparatus which is a constitution of the present invention
- FIG. 5 is a front sectional view of FIG. 4
- FIG. 6 is a view showing a crushing plate which is a constitution of the conveying apparatus of FIG.
- FIG. 7 is a view showing a swirl chamber which is a constitution of the conveying apparatus of FIG. 4
- FIG. 8 is a view showing a shaft which is a constitution of the conveying apparatus of FIG. 4, Fig. Fig.
- FIG. 10 is a view showing a cake discharging portion of the solid-liquid separating and reducing device of Fig. 9, Fig. 11 is an engaging side sectional view of Fig. 9, and Fig. 12 is a front sectional view of Fig.
- FIG. 13 is a front sectional view showing a pushing portion which is a constitution of the solid-liquid separating and reducing device of FIG. 9,
- the food waste disposal resource concentration treatment system separates the solid matter and the sewage water from the food waste discharged from the home and the group foodservice station or business premises by the source concentration treatment resource system and the separated sewage is filtered and discharged into the sewage,
- the solid material is configured to be recovered as a raw material by a drying and fermentation destroying apparatus using an exothermic heat of aerobic microorganisms through an oxygen supply.
- the transfer apparatus 10 the solid-liquid separation and reduction apparatus 30 , A solids discharge unit (40), a filtration chamber (20), and a drainage chamber (50).
- 'food wastes' described in this specification is defined as collectively refers to the garbage generated in the production, distribution, processing, cooking and the like of the food material or food, and the remaining food waste left over.
- the conveying device 10 is configured to cut, crush, cut, shredded food waste, and discharge wastewater through a sink outlet 101 such as a home, a group meal shop, a business establishment or the like.
- the solid-liquid separating and reducing device 30 is connected to the conveying device 10 by a sewage line 15 and separates the solid matter and moisture from the food waste flowing through the conveying device 10, .
- the solids discharge unit 40 may be configured to store and discharge the solids separated and discharged from the solid-liquid separation and reduction unit 30, and to internally dry and ferment the same.
- the filtration chamber 20 receives the treated water separated from the solid-liquid separation / reduction device 30 through the treated water line 19, and filters the filtered water with filtration water to transfer it to the following drainage chamber 50 .
- the drainage chamber 50 is configured to receive filtered water from the filtration chamber 20 and discharge the filtered water to the sewerage system.
- an over-feed treatment line 17 connected to the filtration chamber 20 is provided at the upper end of the valve 16 So that it can be configured to be connected to the filtration chamber 20.
- the over-feed processing line 17 is further constructed as described above is that the cut and crushed food waste and sewage discharged from the conveying apparatus 10 at normal times are discharged through the waste water line 15 to the solid- If the food wastes and wastes are temporarily introduced into the solid-liquid separating and reducing device 30, the solid-liquid separating and reducing device 30 can not remove the food wastes and sewage that have not been treated in the solid- Liquid waste and sewage are supplied to the solid-liquid separation / reduction device 30 through the feed device 10 and the lower layer through the feed line 15 and the liquid feed line 17, So that the food waste and the wastewater can be prevented from flowing backward.
- the food wastes and wastes that have been stored in the filtration chamber 20 can be introduced into the solid-liquid separation and reduction device 30 through the re-input line 18 to perform the solid matter and moisture separation process for the food waste and the wastewater .
- the transporting apparatus 10 includes a space portion 110, a crushing portion 120, a shaft 130, a discharge port 119, and a water supply pipe 150.
- the space 110 communicates with the drainage chamber 101 of the sink so that waste water and food waste can be received and the upper end of the drainage chamber 101 on the sink side can be opened and closed by the lid 111 .
- the space portion 110 communicates with the atmosphere and the lid portion 111 covers the upper end of the space portion 110 during the operation of the following crushing portion,
- the sludge phenomenon is caused to occur through the discharge port 119 as well as the waste water is prevented from flowing out to the sink discharge port 101 and the food waste cut and crushed together with the water supplied through the supply pipe 150 is completely discharged Line 15 as shown in Fig.
- a magnetic sensor is mounted on the upper surface of the crushing unit 120 corresponding to the lid unit 111 and the lid unit 111 to detect whether the lid unit 111 is open or closed.
- a known sensor may be used to detect whether the sensor is open or closed, so a detailed description thereof will be omitted.
- the container-shaped sieve 114 may be formed on the upper portion of the space 110 to closely contact the inner periphery of the space 110 to filter out chopsticks and the like, .
- the crushing unit 120 includes a crushing plate 121 in the form of a disk for cutting and crushing food waste, a crushing plate 121 attached to the inner circumference of the crushing unit 110, A swirling chamber 116 formed at a lower portion of the crushing plate 121 and a discharge port 119 formed at one side of the swirling chamber 116, do.
- One or more cutter blades 122 are formed on the upper surface of the crushing plate 121 so as to have an inclination gradient toward the rotating direction and a discharge hole 124 is formed at a position where the cutter blade 122 is disposed. So that the food waste that has been finely cut and crushed by the rotating cutter blade 122 is discharged downward.
- the cutter blade 122 forms a downward flow while cutting the food waste when the crushing plate 121 rotates according to an oblique gradient directed toward the rotation direction, so that the food waste is immediately discharged
- the wastewater containing the food wastes is also sucked into and discharged from the holes 124 by the structure of the cutter blade 122 and the discharge hole 124 described above, So that the cut food waste can be discharged to the discharge hole 124 with ease.
- the number of the cutter blades 122 and the discharge holes 124 may be selectively configured according to the working environment and is preferably symmetrical from the center of the crushing plate 121 as shown in FIG. So that the food waste can be cut evenly by the rotation of the crushing plate 121.
- the hard food waste not falling down into the discharge hole 124 is completely crushed by the mixer projection 126 and the polishing ring 118, which will be described later, Is discharged.
- the polishing ring 118 is formed in a tubular shape so as to have an inner diameter corresponding to the circumference of the crushing plate 121 and is disposed in contact with the rim of the crushing plate 121, A long hole 118-1 is formed to be maintained.
- the mixer projection 126 is coupled to the upper surface of the crush plate 121 by the coupling pin 128 so as to be rotatable and rotates together with the centrifugal force as the crush plate 121 rotates, (126) is formed with a flow hole having an elliptically-shaped central portion and is fluidly coupled to the coupling pin (128).
- the crush plate (121) is provided with a plurality of through holes 129 are formed.
- the mixer protrusion 126 has a relatively large area on one side to form an asymmetric shape, and the millstone 127 is provided with an impact force on the grinding ring 118 due to the action of a centrifugal force . It is to be understood that the number of the mixer protrusions 126 may be optionally configured.
- the mixer protrusion 126 having such a configuration rotates itself on the crushing plate 121 due to centrifugal force as the crushing plate 121 rotates. As the crushing plate 121 rotates, the remaining food waste is first finely cut by the cutter blade 122 and is moved in the direction of the crushing plate 121 by the centrifugal force. On the crushing plate 121, The bottom surface of the rotating mixer projection 126 and the upper surface of the crush plate 121 are rubbed, that is, the food waste can be completely cut and crushed due to the millstone principle.
- the mixer protrusions 126 can completely cut and shred food waste by hitting against the polishing ring 118 disposed on the side.
- the food waste to be cut and crushed by the cutter blade 122 and the mixer protrusion 126 by the rotation of the crush plate 121 is discharged through the discharge hole 124 formed on the lower side of the cutting blade 122,
- the crushing plate 121 may be rotated in conjunction with the motor shaft 133 of the motor 132.
- the crushing plate 121 may have various shapes.
- a siphon blade 123 is formed on the bottom surface of the crush plate 121.
- the siphon blade 123 is connected to the bottom of the crush plate 121 through the discharge port 119, It becomes a means to induce the siphon principle in the discharge of sewage.
- a sound-deadening blade 180 may be further formed on the crushing plate 121.
- the sound-deadening blade 180 may be formed with a hollow 183 having its center opened And includes a bending blade 181 protruding upward and a bending groove 182 opened by the bending blade 181 adjacent to the bending blade 181.
- the noise blades 180 are composed of a plurality of the noise blades 180, and are arranged in a spiral manner as shown in the figure. As the noise blades 180 rotate, food wastes to be introduced are crushed and cut, (120) through the hollow (183) formed at the center of the second chamber (180).
- the sound-deadening blade 180 is formed with a hollow 183 as a whole, and the sound generated by the operation of the crushing plate 121 is blocked by the sound-deadening blade 180 Effect.
- the swirl chamber 116 has a spiral bottom surface 117 having a slope downward from the first vortex surface 117a to the second vortex surface 117b. And a discharge port 119 is formed at the end of the second vortex surface 117b.
- the motor 132 is provided with a stepped member 134 which is in close contact with the motor shaft 133 and the shaft 130 has a receiving groove 131 in which the stepped member 134 is received at the lower end thereof It is possible to prevent the wastewater from being introduced into the motor 132 by the step member 134 even if the wastewater flows through the side surface of the shaft 130.
- the water supply pipe 150 communicates with the space part 110 and is formed on the upper surface of the crushing part 120.
- the crushing part 120 cuts and crushes the food waste, Water is supplied to the space portion 110 from the water supply pipe 150 when the waste food waste and the waste water that have been cut and crushed are discharged to the sewage line 15 to induce the siphon principle, And the cut and crushed food waste can be completely discharged to the wastewater line 15.
- the food wastes and wastes that have been cut and shredded by the transfer device 10 are transferred to the solid-liquid separation and reduction device 30 through the wastewater line 15 and are hereinafter referred to as the solid-liquid separation and reduction device 30 Will be described in detail.
- the solid-liquid separation and reduction device 30 is configured to separate water from the cut and crushed food wastes introduced from the transfer device 10 and discharge it as a solid having a low water content.
- the solid-liquid separation and reduction device 30 includes a body 310, A cake discharging unit 370, and a conveying screw 390. [0042] As shown in FIG.
- the two or more solid-liquid separating and reducing devices 30 may be connected to the waste water line 15 as described above, Liquid separating and reducing device 30 is selectively driven according to the inflow amount transferred from the plurality of conveying devices 10 by being connected to the conveying device 10.
- forward refers to the direction toward the cake discharging portion 370 of the structure of the solid-liquid separating and reducing device 30 of the present invention and is referred to as "rear” I.e., the direction toward the main body 310.
- rear I.e., the direction toward the main body 310.
- the main body 310 includes a first filter net 311, a first input port 303, a second input port 303-1, a drain port 305, and a main body casing 313.
- the main body 310 is provided with a conveying screw 390, a first filter net 311 having a diameter corresponding to the outer diameter of the screw vane 394, and a first filter net 311,
- An opening 304 opened in the longitudinal direction is formed at an upper end at 12 o'clock, and wastewater and food wastes are introduced into the first filtering net 311 through the opening 304.
- the main casing (313) is protruded in the longitudinal direction of the main casing (313) so that the support ends (324) are directed toward the center, and are coupled with the first filter net (311) As shown in FIG. 9, a binding groove 325 formed at both ends of the support end 324 is formed.
- the first perforation network 311 is constructed such that the perforated perforated perforations 311-1 are assembled in a cylindrical shape, and the perforated perforated perforation network 311-1 has a length in the circumferential direction, And a coupling protrusion 327 is formed at both ends in the circumferential direction so as to be coupled to the coupling groove 325 in a sliding manner.
- the first filtering net 311 can have relatively higher pressure durability than the structure formed integrally by sliding the unit perforated net 311-1 to the binding groove 325, There is an advantage of maintenance.
- a plurality of hooks 328 are formed at the ends of the plurality of support ends 324 so as to protrude from the inner peripheral edge of the first screening net 311.
- the helical screw vanes 394 have a plurality of hooks It is possible to slide and rotate in a state of being in close contact with the jaw 328.
- the latching jaw 328 is a device for preventing the solids from sticking to the outer surface of the screw shaft 392 and becoming idle, and it is protruded from the inner periphery of the first filtering net 311 The solids rotating by the stopping jaw 328 are caught and the solids fixed to the screw shaft 392 are separated and smoothly forwarded.
- the sewage line 15 connected to the discharge port 119 is connected to the discharge port 119 through a pipe structure 120 in which wastewater flowing through the sink discharge port 101 is discharged through the crushing unit 120 to the solid- .
- the shaft 130 is a means for transmitting the power of the motor provided at the lower part of the crushing plate 121 to the crushing plate 121.
- the shaft 130 is a means for transmitting the power of the motor provided at the lower part of the crushing plate 121 to the crushing plate 121.
- a space between the first filtering net 311 and the main body casing 313 is defined as a first space 314 and a space in which the feeding screw 390 is disposed inside the first filtering net 311 And is defined as a second spatial section 318.
- the first filtering net 311 may be formed as a perforated barrel so that the treated water generated in the second filtering space 318 can be discharged to the first space 314.
- the openings 304 are formed with a pair of longitudinal support ends 324-1 and 322-2 so as to form an interface that is spaced apart from each other at a predetermined interval corresponding to the open ends of the first and second spaces 314 and 318,
- An input space 305 is formed from the open upper portion of the second space portion 318 to the inner peripheral edge of the main body casing 313 by the longitudinal support end 324-1.
- a first inlet 303 and a second inlet 303-1 are formed on the upper side and the rear side of the main body 310, respectively.
- the two inlet ports 303 and 303-1 Liquid separating and reducing device 30 through the wastewater line 15 when the wastewater and the food waste flows into the solid-liquid separation and reduction device 30 through the first input port 303,
- the solid waste separating and reducing apparatus can not treat the food waste and sewage temporarily.
- the direction of the wastewater is changed to the over-feed processing line 17,
- the waste food wastes and wastes temporarily stored in the filtration chamber 20 are transferred to the transfer pump 250 through the re-injection line 18 when the overload of the solid-liquid separation and reduction apparatus 30 is eliminated.
- Liquid separator is supplied to the solid-liquid separator reducing device through the second charging port 303-1. At this time, the
- the supporting end 324 may have a shape of 'A' shape.
- the length of the end coupled to the main casing 313 may be shortened so that the first space 314 is supported by the supporting end
- the space can be configured to communicate with each other without being completely divided.
- a drain port 305 communicating with the outside is formed in a lower portion of the main body casing 313 to guide treated water separated from the solid material to be compressed and conveyed as the conveyance screw 390 rotates, So that the sewage can be smoothly discharged to the drain hole 305.
- both ends of the first space 314 are closed, but a collecting port 322 is formed at the front end of the first space 314 to communicate with the pressing part 330 to be described below, And is naturally drained to the drain port (305) of the space part (314).
- the pressing portion 330 is composed of a second filtering net 332 and a pressurizing portion casing 350.
- the second filtering net 332 and the pressurizing portion casing 350 are bound by a plurality of reinforcing ends 333 and 334.
- the second filtering network 332 is formed in a tubular structure having an inclined gradient and a conveying screw 390 having a helical vane formed inside the second filtering net 332 is in close contact with the inner peripheral edge of the second filtering net 332
- the treated water separated from the solid matter is discharged through the second filter net 332 to the inner peripheral edge of the pressurizing portion casing 350.
- the plurality of reinforcing ends 333 and 334 are formed in a flesh structure having a predetermined thickness, and include a first reinforcing end 333 in the longitudinal direction and a second reinforcing end 334 in the lateral direction, A plurality of flow channel grooves 335 are formed in the second reinforcing end 334.
- the reinforcing ends 333 and 334 support the pressure generated in the second filtering net 332 which is in close contact with the rotating conveying screw 390 and pressure is transmitted to the pressing portion casing 350 to increase the durability of the apparatus. do.
- the inner and outer diameters of the pressing portion 330 are formed to be smaller than the inner and outer diameters of the rear portion of the pressing portion 330 so that the inner and outer circumferences of the pressing portion 330 are directed forward, The more solid material is transported, the smaller the volume is, that is, the compressed structure is formed, thereby promoting the dewatering action.
- the inner circumference of the pressurizing portion casing 350 also has an inclined gradient that narrows toward the front so that the process water separated from the second filter net 332 is discharged to the rear by the inner peripheral inclined surface of the pressurizing portion casing 350, And can be introduced into the first space portion 314 through the collecting port 322 formed at the front side of the first space portion 314. Further, the front portion of the pressurizing portion casing 350 is engaged with the cake discharging portion 370 described below.
- the pressing portion 330 may be configured to have a structure similar to that of the first filtering net 311 and the main body casing 313 of the main body 310. That is, a plurality of reinforcing ends 333 and 334 are integrally formed at the inner periphery of the pressing portion casing 350 so as to be centered, and the reinforcing ends 333 and 334 are integrally formed at the ends of the longitudinal first reinforcing ends 333, And forms a binding groove 336 formed in both directions.
- the second filtering net 332 is configured such that arc-shaped perforated perforations 332-1 are assembled in a cylindrical shape.
- the perforated perforated network 332-1 has a length in the circumferential direction of the first reinforcing end 333
- the coupling protrusions 337 are formed at both ends in the circumferential direction so as to be coupled to the coupling grooves 336 in a sliding manner.
- a plurality of flow grooves 335 are formed in the plurality of second reinforcing ends 334 and the treated water discharged through the second filtering net 332 is naturally drained by the inner peripheral edge of the pressurizing portion casing 350 which is an inclined surface, And is configured to be smoothly discharged to the collecting port 322 formed in the main body 310.
- the pressing port 330 and the main body 310 are configured to communicate with each other by the collecting port 322.
- the pushing unit 330 includes a conveying screw 390 at the inner periphery of the second filter net 332. As the conveying screw 390 rotates, the pressurizing unit 330 compresses and transfers a solid having a high water content to the front side, The filtered water passes through the second filter net 332 and the dehydrated solids are continuously conveyed forward.
- the plurality of first reinforcing ends 333 are formed with hooking protrusions 328 protruding from the inner circumference of the second filtering net 332, (394) slides and rotates in a state of being in close contact with a plurality of the engagement protrusions (328) formed in the longitudinal direction.
- the hooking jaw 328 may be fixed to the outer surface of the screw shaft 392 and may sometimes be loosened. In order to prevent the jamming jaw 328 from hanging, the hooking jaw 328 may protrude from the inner periphery of the second filtering net 332 328 are attached to the screw shaft 392, so that the solids fixed to the screw shaft 392 can be separated and transported smoothly forward.
- the conveying screw 390 is composed of a cylindrical screw shaft 392 and a helical screw blade 394 formed on the outer periphery of the screw shaft 392.
- the end of the screw blade 394 is not flat, By the provision of the pressing end 397 cut by the oblique line, the cake transferred to the end of the screw blade 394 can be rotated in the state of being meshed with the pressing end 397 and can be continuously fed forward.
- cake refers to solid matter which has been solidified by removing residual moisture from the cut and crushed food waste.
- the outer periphery of the conveying screw 390 is in close contact with the inner periphery of the first filtering net 311 and the second filtering net 332, and the screw shaft 392 has a larger outer diameter And the screw vane 394 has a smaller diameter and a smaller pitch toward the front. This is because the inner peripheral edge of the second filter net 332 on which the feed screw 390 is disposed faces forward So as to have a corresponding structure.
- a motor (not shown) for transmitting power to the screw shaft 392 may be formed at the rear end side of the feed screw 390, and a motor shaft (not shown) 395), and the shaft extension portion 395 is rotatably fixed to a bearing (not shown) provided inside the cake discharge portion 370.
- the solid material (cut, crushed food waste) having a high moisture content is forwardly conveyed, and the internal space thereof is gradually reduced, so that the remaining water is removed.
- the residual moisture is discharged through the first filter net 311 and the second filter net 332. Since the volume of the space is further reduced toward the front of the filter net 311 and the second filter net 332, The moisture can be almost removed.
- the cake discharging part 370 is coupled to the front end of the pressing part 330, and an ejecting member 371 which is in close contact with the front end of the conveying screw 390 is provided inside the cake discharging part 370 And a cake discharging hole 372 opened toward the solid discharging portion 40 disposed at a lower portion thereof.
- the discharging member 371 includes a fixing member 375, an elastic member 374 and a discharging member 373.
- the fixing member 375 is disposed inside the case discharging unit 370 A hollow having a diameter larger than that of the shaft extension 395 is formed so that the shaft extension 395 extending from the screw shaft 392 is passed therethrough.
- the elastic member 374 is configured to extend from the fixing member 375 toward the front end of the feed screw 390.
- the discharge member 373 is fixed to the elastic member 374 and one or more pressing blades 373a are protruded toward the front end of the transfer screw 390
- the discharge member 373 has a structure in which the discharge member 373 is closely attached to the cake which is conveyed by the conveyance screw 390 and discharged to the cake discharge unit 370, The elastic member 374 is retracted by the elastic member 374 so that the ejection member 373 is pushed back and the cake can be discharged to the cake discharge hole 372.
- the discharge member 373 is also hollowed to allow the shaft end 395 extending from the screw shaft 392 to pass therethrough in the same manner as the fixing member 375.
- the pressing blade 373a It is possible to smoothly discharge the cake by grinding the bundle of the cake discharged while being rotated by the rotating shaft 390 and by guiding the discharge.
- a drying device 500 may be further provided at the tip of the cake discharging part 370.
- the drying device 500 may be configured to heat the cake discharging part 370 to perform a drying function Liquid separating and reducing device 30 is prevented from freezing and frozen during the winter season, so that the weight reducing device 30 can be smoothly operated.
- the solid matter that is, the cake, which has been reduced in moisture from the solid-liquid separation / reduction device 20 as described above, may be stored in the solids discharge unit 40 to be able to be recycled.
- the solids discharge unit 40 includes an aging tank 401, a storage case 410 and a base plate 420 as shown in FIGS. 3 and 14.
- the aging tank 401 is configured to receive a cake (solid matter) falling from the cake discharging portion 370 of the solid-liquid separation and reduction device 30.
- the stirring shaft 402 is rotatable transversely, and a plurality of stirring vanes 403 are formed on the outer surface of the stirring shaft 402, And to agitate the solids contained in the solids 402.
- the stirring vane 403 may be configured to have a tip end directed outward so that the agitating vane 403 may be connected to the stirring case 410.
- the solids conveyed to the conveying means 405 can be transferred to the storage case 410 by the action of the conveying means 405.
- the storage case 410 is configured to store the solid matter transferred from the aging tank 401.
- the base plate 420 includes a weight measuring sensor 421 for measuring the weight of the storage case 410 so that the storage case 410 is placed under the storage case 410.
- a seating groove 412 is formed on the lower surface of the storage case 410, and a seating protrusion 422 inserted into the seating groove 412 is formed in the base plate 420, Oxygen is introduced into the storage case 410 to continuously dry the moisture remaining in the solids of the storage case 410 using the heat of the aerobic microorganisms, Accordingly, the odor inside the storage case 410 can be removed, and the weight of the solid material can be reduced and the long-term storage of the raw material can be expected.
- An exhaust fan 430 may be further provided on the upper side of the aging tank 401.
- the exhaust fan 430 supplies air to the inside of the aging tank 401 and the path through which the solid material is conveyed, It is possible to reduce the weight of the solid matter and to remove the odor by inducing the evaporation action.
- the filtration chamber 20 which is an embodiment of the present invention, will be described in detail.
- the filtration chamber 20 is configured to allow the moisture and the solids separated from the solid-liquid separation and agitation device 20 to enter and filter the filtered water, and to discharge the filtered treatment water to the following drainage chamber 50.
- This filtration chamber 20 is constituted by one or more filtration columns 230.
- the filtration columns 230 are provided in the upper chamber (not shown) for imparting a rotational force by a motor 2321
- the upper chamber 231 has a space formed therein, and a motor 2311 is mounted inside the upper chamber 231 with a bottom opened.
- the motor 2311 is not shown in the drawing, but can be operated manually or at a certain level, for a predetermined time.
- the lower end of the upper chamber 231 is formed with the drain chamber 232. Although the lower end of the drain chamber 232 is not shown in the drawing, So that the upper end of the filtration chamber 233 is inserted into the receiving part 2322.
- the drainage chamber 232 is formed with a rotation rod 2321 that is integrally coupled to the motor 2311 and communicates with the drainage chamber 50 through the drainage pipe 212 at the side thereof, 233 are raised to the drainage chamber 232 and discharged to the drainage chamber 50 through the drainage pipe 212. [ It is proper to prevent reverse flow of treated water and odor from the drainage chamber 50 to the drainage pipe 212 by constructing a reverse operation (not shown) in the drainage pipe 212.
- the filtration chamber 233 includes an outer tubular portion 2331 having a plurality of first filtration holes (not shown) formed therein, and a plurality of second filtration holes connected to the outer tubular portion 2331 at a predetermined clearance And an inner tube portion 2332 formed with a number (not shown).
- the outer tube portion 2331 and the inner tube portion 2332 are connected to each other at the top by a joint portion 2333 and a plurality of first flow holes (not shown) are formed in the joint portion 2333.
- a filter member 234 to be described below is disposed in a space formed by the outer tube portion 2331, the inner tube portion 2332, and the joint portion 2333.
- the outer tube portion 2331 and the inner tube portion 2332 are connected to each other at a lower end by a finishing plate 2334.
- the finishing plate 2334 is hollow at its center do.
- a plurality of third flow holes are formed in the finishing plate 2334.
- the third flow hole functions as a solenoid which causes a suction force to act in the direction of the filter material 234 during cleaning.
- the finishing plate 2334 can be attached to and detached from the outer tubular portion 2331 and the inner tubular portion 2332. This is because when the finishing plate 2334 is attached and detached, .
- the attachment / detachment structure of the finishing plate 2334 can be variously configured, and a description thereof will be omitted.
- the lower surface of the inner tube portion 2332 is formed with a protruding portion (not shown) as a closed surface to be inserted into a hollow (not shown) of the finishing plate 2334, and the protruding portion (Not shown) is further provided on the upper surface of the support plate 235 (not shown) formed on the upper surface of the support plate 235, which will be described below, So that eccentricity does not act on the entire rotation of the filtration chamber 230.
- a fastening frame 2335 is formed at the upper end of the inner tube portion 2332 and the fastening frame 2335 is connected to the rotation rod 2321 to function as an integral body.
- a plurality of second flow holes are formed in the fastening frame 2335. The rotation is transmitted from the rotation rod 2321 to the fastening frame 2335 and a rotating force is applied to the filtration chamber 233 acting integrally with the fastening frame 2335.
- An insertion portion 2336 having a smaller diameter is formed in the upper portion of the outer tube portion 2331 so that the insertion portion is inserted into the receiving portion.
- Eccentricity of the filtration chamber 233 is prevented by eccentric protrusions (not shown) and anchoring grooves 2351 in the lower part, and eccentricity is prevented by constituting the insertion part and the accommodating part at the upper part of the filtration chamber 233 ) Can be rotated without leaning.
- the packing 2337 is formed in a ring shape, And an opening (not shown in the drawing) is formed.
- the diameter of the packing 2337 is enlarged by the centrifugal force, And is configured to contact the inner periphery of the accommodating portion 2332.
- the reason for forming the packing 2337 as described above is that unfiltered wastewater flows into the space between the insertion portion 2336 and the accommodating portion 2332 when the filtration chamber 233 rotates and flows into the drainage chamber 50 through the drainage pipe 212, In order to prevent leakage.
- the packing 2337 is constructed as a pair as shown in the figure, and it is proper to prevent water from leaking through the opening by constituting each of the openings so as to cross each other.
- the first filtration hole of the outer tubular portion 2331 is filled with waste water filtered by the filter material 234 and then filtered by the drain pipe 212 through the first flow hole of the joint portion 2333, So that the solid material such as sludge trapped in the filter material 234 flows out to the first filtration hole at the time of cleaning.
- the second filtration hole of the inner tube portion 2332 is filtered through the plurality of second flow holes of the fastening frame 2335 so that the wastewater passing through the first filtration hole and the filter medium 234 is once more filtered, So that the treated water flows out to the drain pipe 212.
- the filter medium 234 is formed in a cylindrical shape having a hollow shape (not shown), and the inner tube portion 2332 is embedded in the hollow.
- the filter medium 234 is not limited in its material,
- the shape of the filter material 234 may be tangled so that the stainless steel strip is formed in an entangled shape to filter the solids from the wastewater. So that the solid material deposited between the gaps of the filter material 234 by the centrifugal force can easily flow out to the outside.
- the filter member 234 is formed of a stainless steel strip to prevent rusting.
- a support plate 235 is disposed below the filtration chamber 233 so that the support plate 235 can be rotated easily when the filtration chamber 233 is placed on the support plate 235 to generate rotational force .
- a protrusion protrusion formed in the filtration chamber 233 is inserted into the protrusion groove 2351 so that the protrusion protrusion can be inserted into the protrusion protrusion 2351 in the inside of the protrusion groove 2351 Rotation.
- At least one support plate 236 is formed between the upper chamber 231 and the support plate 235 in the filtration column 230.
- the reason why the support plate 236 is constructed is to prevent the eccentricity from being generated when the filtration chamber 233 rotates and to reduce the contact area with the sewage flowing in the filtration chamber 233 to prevent the load of the motor 2311 And increase the rotational speed to increase the desorption efficiency of the solid material from the filter material 234.
- the wastewater introduced from the solid-liquid separation and reduction device 30 flows into the first filtration hole of the filtration chamber 233,
- the treated water that has been treated is introduced into the drainage chamber 232 through the first flow hole formed in the joint portion 2333.
- the treated water thus introduced flows into the drain pipe 212, To the drainage chamber (50).
- the wastewater flowing through the first filtration hole of the filtration chamber 233 can be introduced into the inner tube portion 2332 of the filtration chamber 233 through the second filtration hole through the filter medium 234,
- the introduced process water flows into the drainage chamber 232 through the second flow hole formed in the fastening frame 2335 and the introduced process water is discharged to the drainage chamber 50 through the drainage pipe 212 .
- the filtration efficiency of the filtration column is lowered because solids such as sludge are deposited on the filtration media 234.
- the motor 2311 is operated automatically or manually, rotational force is transmitted to the filtration chamber 233 by the rotation rod 2321 and the fastening frame 2335, and the rotational force W1 of the filtration chamber 233 is transmitted through the filtration
- a centrifugal force O is applied to the filter medium 234 inside the chamber 233 so that the solids S1 such as sludge immersed in the gap of the filter medium 234 by the centrifugal force are allowed to flow out through the first filtration hole, 234).
- the centrifugal force W2 upward in the interior of the inner tube portion 2332 is applied to the interior of the filtration chamber 233, and the centrifugal force W2 is transmitted through the second filtration hole of the inner tube portion 2332,
- the suction force I1 is applied to the third flow holes of the filter medium 234 and the finishing plate 2334 and the suction force I1 is applied to the lower surface of the filtration chamber 20 on which the lower surface of the receiving plate 235 is mounted
- the suction force I2 is applied to the suction hole 2153 and the recessed portion 2152 so that the immersed foreign substance S2 collects in the recessed portion 2152.
- the filtration material 234 is cleaned due to the structure of the filtration chamber 233, the suction hole 2153 and the recessed portion 2152, and the solid material deposited as a result of the cleaning is collected in the recessed portion 2152 So that the sediment can be removed through the lower suction pipe 240 by suction of the suction pump 220.
- the filtration column 230 is formed in the filtration chamber 20, and two of the filtration columns 230 are shown in FIGS. 2 to 3.
- both filtration columns 230 can be repeatedly cleaned and operated so that continuous filtration can be performed without interruption.
- the drainage chamber 50 and the filtration chamber (not shown) are connected to each other through the drainage pipe 212,
- the overflow pipe 213 is connected to the water supply pipe 212 at a higher position than the water discharge pipe 212 so that a large amount of water flows into the filtration chamber 20 when the flood occurs due to heavy rain, Liquid separation and reduction device 30 and the transfer device 10 can not be processed in the filtration column 20 and the water that has flowed into the filtration chamber 20 can be flowed back to the transfer device 10.
- the overflow pipe 213 The water in the filtration chamber 20 is transferred to the drainage chamber 50, so that it is possible to prevent damage such as reverse flow due to flooding.
Abstract
Description
Claims (11)
- 싱크대 배수구와 연통하여 싱크대 배수구를 통해 유입되는 음식물류 폐기물을 절단, 파쇄하도록 구성되는 이송장치;상기 이송장치와 오수라인에 의해 연결되어 이송장치로부터 유입되는 음식물류 폐기물에서 고형물과 수분을 분리하여 배출시키는 고액분리감량장치;상기 고액분리감량장치로부터 배출되는 고형물이 수용되며 수용된 고형물을 건조 및 발효시키는 고형물배출부;상기 고액분리감량장치로부터 분리된 처리수가 처리수라인을 통해 유입되며 유입된 처리수를 여과수로 여과시키는 여과챔버;상기 여과챔버로부터 여과된 처리수를 공급받아 하수로 방류시키는 배수챔버;를 포함하여 구성되는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화시스템.
- 제 1항에 있어서,상기 오수라인에는 상기 여과챔버와 연결되는 과공급처리라인이 구성되되,상기 오수라인을 통해 유입되는 음식물류 폐기물은 상기 고액분리감량장치 또는 여과챔버로 유입되며, 상기 고액분리감량장치에 음식물류 폐기물이 과공급되면 자동으로 과공급처리라인을 통해 상기 여과챔버로 유입되도록 구성되는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화시스템.
- 제 2항에 있어서,상기 여과챔버와 상기 고액분리감량장치는 재투입라인에 의해 연결되어 상기 과공급처리라인을 통해 상기 여과챔버로 유입된 음식물류 폐기물은 상기 재투입라인을 통해 상기 고액분리감량장치로 공급되도록 구성되는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화시스템.
- 제 1항에 있어서,상기 이송장치는싱크대 배수구와 연통되어 오수 및 음식물류 폐기물이 수용되며 개구된 상단이 덮개부에 의해 개폐가능한 공간부;상기 공간부에 배치되어 음식물류 폐기물을 절단, 파쇄하는 분쇄판을 구비는 분쇄부;모터의 동력을 상기 분쇄판에 전달하는 샤프트;상기 공간부에 연통되며 상기 분쇄부를 기준으로 그 하측면에 구성되는 토출구;상기 공간부에 연통되며 상기 분쇄부를 기준으로 그 상측면에 구성되는 급수관;을 포함하여 구성되는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화시스템.
- 제 4항에 있어서,상기 모터에는 모터축과 밀착하여 돌출되는 단턱부재가 구성되고,상기 샤프트에는 그 하단부에 상기 단턱부재가 수용되는 수용홈이 구성되는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화시스템.
- 제 1항에 있어서,상기 감량장치는통형의 제 1여과망과, 상기 제 1여과망을 감싸면서 상기 오수라인을 통해 음식물류 폐기물이 유입되며 상기 제 1여과망을 통과한 수분이 배출되는 배수구가 형성된 본체케이싱으로 구성되는 본체부;상기 본체부 전단에 결합되며, 통형의 제 2여과망과 상기 제 2여과망을 감싸는 가압부케이싱으로 구성되는 가압부;상기 제 1여과망, 상기 제 2여과망의 내측에 걸쳐 회전연동하는 이송스크류; 및상기 가압부의 전단에 결합되며, 그 내측에는 상기 이송스크류의 전단에 밀착되는 배출부재가 구성되며 하부에 배치되는 상기 고형물배출부를 향해 개구된 케이크배출공을 포함하여 구성되는 케이크배출부;를 포함하는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화 시스템.
- 제 6항에 있어서,상기 본체케이싱은 그 내주연에는 길이 방향을 따라 복수의 지지단이 돌출 형성되며 상기 지지단에 상기 제 1여과망이 결합되되,상기 본체케이싱의 상단에는 인접하는 상기 지지단에 의해 투입공간이 형성되고, 상기 투입공간과 연통하도록 상기 본체케이싱의 상단부에는 상기 오수라인과 연결되는 제 1투입구가 형성되고 및 상기 본체케이싱의 후단부에는 재투입라인과 연결되는 제 2투입구가 형성되며, 상기 제 1여과망의 상단에는 상기 투입공간과 연통하는 개구부가 형성되고, 상기 본체케이싱의 하단에는 배수구가 형성됨을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화 시스템.
- 제 6항에 있어서,상기 가압부는,그 일단보다 타단으로 직경이 커지도록 상향 경사구배가 형성되되, 상기 가압부케이싱은 내주연에 길이방향으로 복수의 제 1보강단이 돌출 형성되며, 상기 제 1보강단에 상기 제 2여과망이 결합되고, 상기 가압부케이싱의 일단에는 배출중공을 형성하는 가압패킹이 형성됨을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화 시스템.
- 제 6항에 있어서,상기 이송스크류는 상기 제 1여과망, 상기 제 2여과망 및 상기 케이크배출부에 내재되는 원통형의 스크류축과, 상기 제 1여과망 및 상기 제 2여과망에 위치하는 상기 스크류축 외주연에 스크류날개와, 상기 케이크배출부에 위치하는 상기 스크류축 외주연에 케이크배출날개로 구성되되, 상기 스크류축의 외경은 상기 가압패킹을 기준으로 전단부는 상기 배출중공의 직경보다 작고, 후단부는 상기 배출중공의 직경보다 크게 형성되도록 턱이 구성되며, 상기 배출중공에 접하는 턱은 곡면을 형성하는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화 시스템.
- 제 6항에 있어서,상기 배출부재는상기 케이크배출부의 내측에 고정되는 고정부재;상기 고정부재로부터 상기 이송스크류의 전단을 향해 연장되는 탄성부재;상기 탄성부재에 고정되며, 상기 이송스크류의 전단을 향해 하나 이상의 가압칼날이 돌출 형성는 배출부재;를 포함하여 구성되는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화 시스템.
- 제 1항에 있어서,상기 고형물배출부는상기 고액분리감량장치로부터 배출되는 고형물이 수용되며 내부에 산소가 공급되는 숙성조;상기 숙성조로부터 고형물을 전달받아 저장하도록 구성되는 저장케이스;상기 저장케이스가 안치되며 상기 저장케이스의 중량을 측정하도록 중량측정센서를 포함하여 구성되는 베이스플레이트;를 포함하되,상기 저장케이스의 하면에는 안착홈이 형성되고, 상기 베이스플레이트에는 상기 안착홈에 삽입되는 안착돌기가 구성되어 상기 안착돌기가 상기 안착홈에 삽입되면 상기 저장케이스 내부로 산소가 공급되도록 구성되는 것을 특징으로 하는 음식물류 폐기물 발생원 집중처리 자원화 시스템.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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PCT/KR2017/009129 WO2019039622A2 (ko) | 2017-08-22 | 2017-08-22 | 음식물류 폐기물 발생원 집중처리 자원화 시스템 |
Applications Claiming Priority (1)
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CN112642833A (zh) * | 2020-11-13 | 2021-04-13 | 顾文忠 | 一种餐厅厨余垃圾监管分类系统及其工作方法 |
CN113457239A (zh) * | 2021-05-28 | 2021-10-01 | 彭浩 | 一种避免塑料类废弃物影响流通系统的污水处理设备 |
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JP2004026613A (ja) * | 2002-06-28 | 2004-01-29 | Matsushita Electric Ind Co Ltd | 簡易型堆肥化装置及び方法 |
KR20110086312A (ko) * | 2010-01-22 | 2011-07-28 | 대 규 이 | 음식쓰레기용 탈수기의 음식쓰레기 투입장치 |
KR101333512B1 (ko) * | 2011-09-21 | 2013-11-28 | (주)씨큐브 | 음식물 쓰레기 처리시스템 |
KR101309388B1 (ko) * | 2012-07-24 | 2013-09-17 | 김경식 | 음식물류 폐기물 고액분리 감량시설 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112642833A (zh) * | 2020-11-13 | 2021-04-13 | 顾文忠 | 一种餐厅厨余垃圾监管分类系统及其工作方法 |
CN113457239A (zh) * | 2021-05-28 | 2021-10-01 | 彭浩 | 一种避免塑料类废弃物影响流通系统的污水处理设备 |
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