KR101263098B1 - Organic waste treatment system - Google Patents

Abstract

The present invention significantly reduces the solidification of waste and the purification treatment of the filtrate by separating and atomizing water from organic waste such as livestock manure or food waste, and is highly commercial and eco-friendly. To provide a waste treatment apparatus.
To this end, the present invention is a transport unit for transporting the organic waste at high speed through the air, a separation tower for separating the organic waste transported at high speed by the transport unit to the solids and the filtrate in the sprayed state, and the Characterized in that it comprises a purifying tower for deodorizing and sterilizing the filtrate of the atomized state transported through the air from the separation tower, and the discharge unit for discharging the filtrate of the deodorized and sterilized in the purification tower to the atmosphere .

Description

Eco-Friendly Organic Waste Disposal Equipment {ORGANIC WASTE TREATMENT SYSTEM}

The present invention relates to an environment-friendly organic waste treatment apparatus, and more particularly, by separating the water from organic waste such as livestock manure and food waste to atomize the waste solidification and the filtrate can significantly reduce the cost of purification treatment An environmentally friendly organic waste treatment apparatus is provided.

In general, organic wastes are organic wastes of 40% or more derived from animals and plants, and livestock manure, sewage sludge, food wastes, and the like.

Organic wastes are increasing every year due to the increase of national income, urbanization, and industrialization. Currently, a large amount of waste is disposed of by landfill, incineration, and dumping at sea.

In order to prevent environmental pollution in the future, the disposal of marine dumping, landfilling, and incineration will be restricted, and sewage sludge and livestock manure will be discharged in accordance with the London Convention '96 Protocol. Food waste is banned from January '13.

Accordingly, various technologies have been developed to reduce, recycle, and recycle organic wastes.

However, the conventional organic waste treatment apparatus is expensive to purify the filtrate generated by the solidification and solidification to remove the water from the organic waste, and is subject to the installation site due to the occurrence of odor-related complaints of nearby residents, etc. There was a difficulty.

The present invention significantly reduces the solidification of waste and the purification treatment of the filtrate by separating and atomizing water from organic waste such as livestock manure or food waste, and is highly commercial and eco-friendly. To provide a waste treatment apparatus.

The present invention has been made to solve the above problems, the transport unit for transporting the organic waste at high speed through the air, and the organic waste transported at a high speed by the conveying unit hit the ceiling into a solid and sprayed filtrate A separation tower for separation, a purification tower for deodorizing and sterilizing the filtrate in the form of an atomized liquid transported through the air from the separation tower, and a filtrate in the form of deodorized and sterilized in the purification tower to the atmosphere Characterized in that consisting of a sending unit for.

The transfer unit is a funnel-shaped collection tank, a blower for blowing air at a high speed through the lower portion of the collection tank, and a high-speed air blown from the blower and the organic waste flows through the transfer to the separation tower It is characterized by consisting of a tube.

The separation tower has a funnel shape so that the lower portion thereof can collect organic waste, and is provided with a discharge tube therein so that the organic waste can be introduced into the upper side through the air and discharged through the discharge tube. The upper part is dome-shaped so that the solids of the organic wastes hitting the surface do not stick together, and an outlet is formed along the outer circumferential surface of the dome so that the filtrate in the atomized state can be discharged through the air, and the solids are discharged on the outlet. The filter is provided to block the, characterized in that the chamber is formed above the dome to collect the filtrate of the atomized state discharged through the discharge port to be transferred to the purification tower.

The chamber is characterized in that the microorganism carrier is filled to decompose the organic matter when passing through the filtrate in the atomized state.

The purification tower has a funnel shape so that the lower part can collect the filtrate condensate, and a net is filled therein to collide with the filtrate conveyed through the air to atomize, so that the condensate generated therein easily falls. A dome shape is formed along the outer circumferential surface of the bottom of the dome so that an outlet of the atomized state can be discharged through the air, and a filter unit is provided on the outlet to limit the passage size of the atomized particles, and through the outlet. A chamber filled with a deodorant is provided on the upper side of the dome so as to collect the discharged filtrate of the atomized state to deodorize the malodorous substance when passing.

The purification tower has a funnel shape so that the lower portion thereof collects the filtrate condensate, and the microorganism carrier is filled therein so as to be purified by the microorganisms when the filtrate passes through the air, and the condensate generated therein The upper part is dome-shaped so as to easily fall, and an outlet is formed to allow the atomized filtrate to be discharged through the air along the outer circumferential surface of the bottom of the dome, and a filter part is provided on the outlet to limit the passage size of the atomized particles. And a chamber in which a sterilizer for collecting ultraviolet light is collected by collecting the filtrate of the atomized state discharged through the discharge port.

In addition, the discharge unit is characterized in that the jet fan is installed so as to dissipate the atomized filtrate transferred from the purification tower into the atmosphere to extinguish.

According to the present invention, water is separated from organic wastes such as livestock manure or food waste in an atomized state to decompose and deodorize and decontaminate pollutants by microorganisms, and then, by releasing them into the atmosphere, extinguish them to separate them. Can be purified without water treatment can significantly reduce the cost of processing organic waste, there is an effect that is commercially very good regardless of the installation site.

1 is an overall view of an environment-friendly organic waste treatment apparatus according to the present invention,
Figure 2 is a detailed view of the transport unit of the environmentally friendly organic waste treatment apparatus according to the present invention,
3 is a detailed view of the separation tower of the eco-friendly organic waste treatment apparatus according to the present invention,
Figure 4 is a detailed view of the purification tower of the environmentally friendly organic waste treatment apparatus according to the present invention,
5 is another embodiment of the purification tower shown in FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the environmentally friendly organic waste treatment apparatus according to the present invention.

Eco-friendly organic waste treatment apparatus according to the present invention is largely as shown in Figure 1, the transfer unit 100 for transferring the organic waste at high speed through the air, and the organic waste transferred at high speed by the transfer unit 100 A separation tower 200 for separating the solids and the filtrate in the spray state by hitting the ceiling, and a purification tower 300 for deodorizing and sterilizing the filtrate in the atomized state transferred through the air from the separation tower 200; It consists of a sending unit 400 for discharging the filtrate of the atomized state deodorized and sterilized in the purification tower 300 into the atmosphere.

According to the above technical configuration, the organic waste is transported at high speed by the transfer unit 100 via air, and the organic waste introduced into the separation tower 200 is separated into solids and sprayed filtrate by hitting the ceiling of the separation tower. .

The filtrate separated in the atomization state from the separation tower 200 is transferred to the purification tower 300 through the air, and purified by the known deodorization and sterilization treatment technology inside the purification tower 300 and then the sending unit 400 By being released into the atmosphere by), it is possible to purify the filtrate of organic waste without going through a separate water treatment process.

Next, the transfer unit 100 is a funnel-shaped collection tank 10, as shown in Figure 2, the blower 20 for blowing air at high speed through the lower portion of the collection tank 10, and a blower ( It consists of a transfer pipe 30 for receiving the organic waste inflow through the high-speed air blown from 20) to be transferred to the separation tower (200).

In detail, the air blown from the blower 20 at high speed is discharged from the lower part of the collection tank 10, and the transfer pipe 30 is installed to be spaced apart from the lower part of the collection tank 10 by a predetermined interval.

Accordingly, when the livestock manure or food waste is put into the collection tank 10, it accumulates under the funnel-shaped collection tank 10 and flows into the transfer pipe 30 through the air blown at high speed from the blower 20. To be transferred to the separation tower (200). Of course, the inlet 31 of the transfer pipe 30 is manufactured in a reverse funnel shape to facilitate the introduction of organic waste.

Next, the separation tower 200 has a funnel shape so that the lower portion thereof can collect organic wastes, as shown in FIG. 3, and discharge pipes therein so that the organic wastes can be introduced through the air and shot upwards. 210 is provided, the upper portion is dome 220 shape so that the solids of the organic waste that is discharged through the discharge pipe 210 and hit the ceiling does not adhere to the dome 220, the atomized state along the outer peripheral surface of the lower end of the dome 220 A discharge port 230 is formed to allow the filtrate to be discharged through the air, and a filter 240 is provided on the discharge port 230 to block the inflow of solids, and is discharged through the discharge port 230. The chamber 250 is formed above the dome 220 so that the filtrate is collected and transferred to the purification tower 300.

In detail, the organic waste transferred at high speed through the air from the transfer part 100 side is introduced through the separation tower 200 and is discharged through a discharge tube 210 spaced apart from the separation tower 200 by a predetermined interval. The dome 220 is discharged to the ceiling.

The discharged organic waste hits the ceiling of the dome 220, the solids are dropped and the filtrate is separated into an atomized state and introduced into the chamber 250 through the outlet 230 through air.

Here, the separation tower 200 is a meter 270 is installed on the bridge frame 260 for supporting the separation tower 200 to measure the organic waste introduced, the organic waste from the meter 270 a predetermined amount or more When measured as charged, the inflow of organic waste is blocked and only high velocity air flows in.

Referring to FIG. 1, a pneumatic line 40 is provided to send a high speed air stream generated from the blower 20 to the collection tank 10 and the separation tower 200, and collects the air flow in the collection tank 10 or First and second valves 51 and 52 are provided in the pneumatic line 40 so as to be selectively sent to the separation tower 200.

When the first valve 51 is open and the second valve 52 is closed, a high speed air stream generated from the blower 20 is sent to the collection tank 10 to transport organic waste via air. In connection with this, the third valve 53 provided in the transfer pipe 30 between the collection tank 10 and the separation tower 200 maintains an open state, and an air pressure line between the blower 20 and the separation tower 200 ( The fourth valve 54 provided at 40 maintains a closed state.

On the contrary, when the first valve 51 is closed and the second valve 52 is open, the high speed air flow generated from the blower 20 is sent to the separation tower 200 to ceiling the organic waste in the separation tower 200. It will shoot into the filtrate to atomize the filtrate. In conjunction with this, the third valve 53 provided in the transfer pipe 30 maintains a closed state, and the fourth valve 54 provided in the pneumatic line 40 maintains an open state.

In this case, the organic waste accumulated in the funnel-shaped separation tower 200 is introduced into the discharge pipe 210 by the high speed air flow generated by the blower 20 and discharged into the ceiling of the dome 220, and the dome 220 is discharged. The organic waste that hit the ceiling is separated into solids and filtrates in the atomized state, and the solids fall again and accumulate under the funnel-shaped separation tower 200, and the filtrates in the atomized state are discharged through the air outlet 230 through the chamber ( 250).

When the above process is repeated for several ten minutes to several hours, the filtrate is separated from the organic waste, thereby obtaining a solid content of a predetermined moisture content or less.

Solids are collected from the separation tower 200 and recycled as fertilizer. To this end, a conveyor 280 for transporting solids to the outside is installed in the separation tower 200. On the other hand, an openable collection window (not shown) for collecting solids may be provided below the separation tower 200.

Next, the chamber 250 is filled with a microbial carrier 290 to decompose the organic matter when passing through the filtrate in the atomized state.

The microorganism carrier 290 is a microorganism is cultured into a porous body formed with fine pores. The microorganisms cultured on the carrier 290 grow with hydrogen sulfide, amines, ammonia, volatile fatty acids, and the like as nutrients.

Therefore, odors and contaminants are adsorbed to the microbial carrier 290 and decomposed by the microorganisms while the filtrate in the atomized state passes through the chamber 250. In particular, the filtrate is easily adsorbed to the microorganism carrier 290 by passing through the chamber 250 in the atomized state, so that microbial decomposition is more effective.

Next, the purification tower 300 is a funnel shape so that the lower portion to collect the filtrate condensate, as shown in Figure 4, the net mesh 310 therein to collide with the filtrate conveyed through the air to atomize ) Is filled, the upper portion is shaped like a dome 220 so that the condensate generated therein easily falls, and the outlet 230 is formed so that the filtrate in the atomized state can be discharged through the air along the outer circumferential surface of the bottom of the dome 220. And, the filter unit 320 is provided on the discharge port 230, the deodorant 330 is filled in the upper portion of the dome so that the deodorant substances are collected by passing through the filtrate of the atomized state discharged through the discharge port 230 Chamber 250 is provided. Here, the net body 310 is a shape in which thin metals are made of aluminum or stainless steel.

In detail, the filtrate in the atomized state is introduced into the purification tower 300 along the high-speed air flow generated by the blower 20 of the transfer unit 100, and the net body 310 filled in the purification tower 300. ), The water particles become smaller.

The filtrate in the atomized state passing through the outlet 230 through the air is deodorized again by the deodorant 330 (for example, charcoal, etc.) filled in the chamber 250, and discharged into the atmosphere through the discharge unit 400. do.

Here, the filtrate condensed inside the purification tower 300 is collected in the lower portion of the funnel shape, is scattered by the air flowing at a high speed and collides with the mesh 310 to change into an atomized state. In the purification tower 300, these processes are repeated so that the filtrate can be atomized and discharged to the outside.

Next, as another embodiment of the purification tower as shown in Figure 5, the lower portion is a funnel shape to collect the filtrate condensate, and the inside of the filter to be purified by microorganisms when passing through the filtrate transported through the air The microbial carrier 290 is filled, the upper portion of the dome 220 is formed so that the condensate is easily generated therein, and the discharge opening so that the filtrate in the atomized state along the outer peripheral surface of the bottom of the dome 200 through the air The chamber 230 is formed, the filter unit 320 is provided on the discharge port 230, the chamber containing the sterilizer 340 for collecting ultraviolet light sterilization process by collecting the filtrate of the atomized state discharged through the discharge port 230 250 is provided.

According to the above technical configuration, the filtrate in the atomized state flows through the narrow pipeline along the high-speed, high-pressure air flow generated by the blower 20 of the transfer unit 100 is introduced into the purification tower 300 of the low pressure state and expanded As a result, the water particles become smaller and are easily adsorbed by the microorganism carrier 290 to more effectively decompose odors and contaminants by the microorganisms.

Then, the filtrate in the atomized state is introduced into the chamber 250 through the outlet 230 through the air, UV sterilized by the sterilizer 340 and then discharged into the air through the discharge unit 400.

Here, the purification tower 300 is configured to decompose malodors and contaminants and maintain the filtrate of the filtrate, it can be installed continuously according to the size of the facility.

Next, the discharge unit 400 is provided with a jet fan 410 to diffuse and extinguish the filtrate in the atomized state transferred from the purification tower 300 to the atmosphere.

That is, the discharge unit 400 is installed at the exit side of the chamber 250 of the purification tower 300 to suck the air inside the chamber 250 and forcibly discharge it to the atmosphere, so that the filtrate in the atomized state evaporates and disappears in the atmosphere. do. To this end, the discharge unit 400 is provided with a jet fan 410 so as to disperse and disperse the filtrate in the atomized state.

On the other hand, the sending unit 400 exerts a suction force in order to smooth the air flow of the separation tower 200 and the purification tower 300 connected in series by a pipeline, and generates a high-speed air flow to transfer the organic waste Reduces the load of the transfer unit 100 for.

As described above, according to the above technical configuration, the filtrate is atomized and separated from the organic waste, and it is released to the atmosphere after sterilization and decomposition by microorganisms, so that the filtrate generated during the recovery of solids can be purified without separate water treatment. It is possible to drastically reduce the processing cost of the.

10: Collector 20: Blower
30: transfer pipe 31: transfer pipe inlet
40: air pressure line 51-54: 1st-4th valve
100: transfer unit 200: separation tower
210: discharge tube 220: dome
230: outlet 240: filter
250: chamber 260: bridge frame
270: meter 280: conveyor
290: microbial carrier 300: purification tower
310: mesh 320: filter unit
330: deodorant 400: delivery unit
410: jet shock

Claims (7)

A transport unit for transporting organic waste at high speed through air, a separation tower for separating organic waste transported at high speed by the transport unit into a solid and sprayed filtrate, and mediating air in the separation tower. A purifying tower for deodorizing and sterilizing the filtrate in the atomized state, and a discharge unit for discharging the filtrate in the deodorized and sterilized state in the purification tower to the atmosphere,
The separation tower has a funnel shape so that the lower portion thereof can collect organic waste, and a discharge tube is provided therein so that the organic waste can be introduced into the upper side through the air and discharged through the discharge tube. The upper part is dome-shaped so that the solids of the organic waste collided do not stick to each other, and an outlet is formed along the outer circumferential surface of the dome so that the filtrate in an atomized state can be discharged through air, and discharge of solids on the outlet is performed. A filter for blocking is provided, wherein the organic waste treatment apparatus characterized in that the chamber is formed on the upper side of the dome to collect the filtrate of the atomized state discharged through the discharge port to the purification tower. The method of claim 1,
The transfer unit and the funnel-shaped organic waste collection tank,
A blower for blowing air at a high speed through a lower portion of the organic waste collection tank,
Eco-friendly organic waste treatment apparatus, characterized in that consisting of a transfer pipe for receiving the organic waste inflow through the high-speed air blown from the blower to transfer to the separation tower. delete The method of claim 1,
The chamber is an environmentally friendly organic waste treatment apparatus, characterized in that the microbial carrier is filled to decompose the organic matter when passing through the filtrate in the atomized state. The method of claim 1,
The purification tower has a funnel shape so that the lower part thereof collects filtrate condensate, and a mesh is filled therein to collide with the filtrate transported through the air to atomize, and the dome so that the condensate generated therein easily falls. It has a shape, the discharge port is formed so that the filtrate in the atomized state along the outer peripheral surface of the bottom of the dome through the air, and provided with a filter for limiting the passage size of the atomized particles on the discharge port, discharged through the discharge port Eco-friendly organic waste treatment apparatus characterized in that the chamber is filled with a deodorant on the upper side of the dome so that the deodorant is collected by passing the collected filtrate of the atomized state. The method of claim 1,
The purification tower has a funnel shape so that the lower portion thereof collects the filtrate condensate, and a microbial carrier is filled therein so as to be purified by the microorganisms when the filtrate passes through the air, and the condensate generated therein is easily The upper part is dome-shaped so as to fall, and an outlet is formed so that the filtrate in the atomized state can be discharged through the air along the outer circumferential surface of the bottom of the dome, and a filter part is provided on the outlet to limit the passage size of the atomized particles. Eco-friendly organic waste treatment apparatus, characterized in that the chamber is equipped with a sterilizer for collecting ultraviolet light sterilized by collecting the filtrate discharged through the outlet. The method of claim 1,
The discharge unit is an eco-friendly organic waste treatment apparatus, characterized in that the jet fan is installed so as to dissipate the atomized filtrate transferred from the purification tower into the atmosphere to extinguish.

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