KR20110117289A - Food waste recycling method - Google Patents

Abstract

The present invention relates to a method for recycling food waste, and more particularly, to a method of recycling food waste after being collected in a refrigerated or frozen storage state according to a food waste recycling management plan of a food waste recycling system. According to the present invention, a food waste recycling method in which a food waste recycling system manages a food waste recycling plan in real time, comprising: a data collection step of collecting, by the food waste recycling system, emission data for each discharge location of food waste; A collection plan establishment step of establishing a food waste collection plan using the collected data by the food waste recycling system; A food waste treatment device installed at each food waste discharge place to wash, depress and dehydrate and crush the food waste; A storage step of refrigerated or frozen storage of the food waste; A collection command transmission step of transmitting, by the food waste recycling system, a collection command of the food waste stored in the refrigerator or frozen according to a food waste collection plan; A collection step of collecting, by the food waste collection device, the food waste stored in the refrigerator or frozen according to the collection instruction; And a food waste processing apparatus is provided is a food waste recycling method comprising a processing step of processing the collected food waste.

Description

Food waste recycling method

The present invention relates to a method for recycling food waste, and more particularly, to a method of recycling food waste after being collected in a refrigerated or frozen storage state according to a food waste recycling management plan of a food waste recycling system.

Generally, food waste from homes and restaurants is collected separately and landfilled or incinerated. However, when food waste is reclaimed, food waste decays and odors are generated, and leachate is generated to pollute the soil. In addition, food waste occupies a large volume at the time of landfill, thereby reducing the number of years of landfill use. Moreover, residents living near landfills must always suffer from odors from food waste.

In addition, incineration of food waste is excessively expensive, and the dioxin generated at this time causes a fatal harm to the human body.

Therefore, a recycling facility has been constructed in various regions for refining food waste into feed, compost, bio raw materials and the like.

However, it takes a long time for food waste to be discharged from homes or restaurants, collected, and then moved back to a resource facility. In addition, the degree of corruption is also large, the variation in the quality of products produced by processing food waste is large. In addition, the food waste can not be used as a feed without a separate complex procedure, and because it is already decayed, there was a problem that the effect as a manure is reduced even if composting. In addition, there is a problem that it is difficult to produce biofuels by extracting the oil component from the food waste because the oil component in the food waste is oxidized during the decay process.

The present invention is to solve the above problems, by storing and moving the food waste in a refrigerated or frozen state, to provide a food waste recycling method that can be used as a raw material for producing a good quality feed, compost, bio raw materials For the purpose of

According to the present invention, a food waste recycling method in which a food waste recycling system manages a food waste recycling plan in real time, comprising: a data collection step of collecting, by the food waste recycling system, emission data for each discharge location of food waste; A collection plan establishment step of establishing a food waste collection plan using the collected data by the food waste recycling system; A food waste treatment device installed at each food waste discharge place to wash, depress and dehydrate and crush the food waste; A storage step of refrigerated or frozen storage of the food waste; A collection command transmission step of transmitting, by the food waste recycling system, a collection command of the food waste stored in the refrigerator or frozen according to a food waste collection plan; A collection step of collecting, by the food waste collection device, the food waste stored in the refrigerator or frozen according to the collection instruction; And a food waste processing apparatus is provided is a food waste recycling method comprising a processing step of processing the collected food waste.

Food waste recycling method according to the present invention is maintained in a refrigerated or frozen state from the step of generating food waste to the step of moving to a recycling facility, food waste does not decay. Therefore, it is possible to produce a good quality feed, compost, bio raw materials through a relatively simple processing method compared to the conventional method. Since it is not decayed, food waste can be immediately packaged and used as animal feed, and since the oxidation of oil does not occur due to decay, it is easy to extract oil from food waste and use it as biofuel. In addition, oil-derived food waste can be mixed with other raw materials and processed into compost.

1 is a flow chart showing a food waste recycling method according to an embodiment of the present invention.
Figure 2 shows an example of the food waste treatment apparatus used in the food waste recycling method according to an embodiment of the present invention.
Figure 3 shows another example of a food waste processing apparatus used in the food waste recycling method according to an embodiment of the present invention.
4 is a cross-sectional view of the food waste treatment apparatus shown in FIG. 3.
5 is a cross-sectional view of the bone and lung angle mill shown in FIG.
Figure 6 is a perspective view of a mobile food waste processing apparatus used in the food waste recycling method according to an embodiment of the present invention.
7 is a cross-sectional view taken along the AA of the mobile food waste treatment apparatus shown in FIG.
8 is a cross-sectional view taken along the BB of the mobile food waste treatment apparatus shown in FIG.
9 is a perspective view of a mobile food storage device used in the food waste recycling method according to an embodiment of the present invention.
10 is a perspective view of a mobile food waste storage device and a food waste collection box used in a food waste recycling method according to an embodiment of the present invention.
11 is a cross-sectional view showing an example of a milking machine used in the food waste recycling method according to an embodiment of the present invention.
12 to 14 is a view showing the pellet-type compost produced by the food waste recycling method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a food waste recycling method according to an embodiment of the present invention.

1 is a flow chart showing a food waste recycling method according to an embodiment of the present invention. Referring to Figure 1, the food waste recycling method according to an embodiment of the present invention includes a data collection step, collection planning step, processing step, storage step, collection command transmission step, collection step and processing step. The processing step and the storage step can be performed simultaneously in one device. In addition, after the processing step and storage step in one device may be subjected to another storage step of collecting and storing food waste stored in each device. In addition, the processing steps and the storage step may be reversed, and if necessary, may be processed after the collection step.

Hereinafter, each step will be described. Food waste recycling method according to an embodiment of the present invention begins with a data collection step (S1) in which the food waste recycling system collects emission data for each discharge location of the food waste. In the data collection step, the amount of food waste discharged from each food waste discharge site is measured for a certain period of time, and a prediction curve of food waste emission is obtained. Depending on the type of discharge location, a measurement period of five weeks is appropriate. Accumulate it by dividing it into week, weekend and holiday. Since there may be a fluctuation according to the increase or decrease of the number of users using the food waste recycling method according to the present invention, the discharge amount is estimated in consideration of the accumulated data and the increase or decrease of the number of users.

The next step is the collection plan establishment step (S2) in which the food waste recycling system uses the collected data to establish a food waste collection plan. At this stage, the food waste recycling system uses the collected data to establish a collection plan by calculating the capacity of the food waste storage device to be disposed at each discharge site or the collection cycle of food waste during storage in the food waste storage device.

Next, the food waste treatment apparatus installed at each food waste discharge place washes the food waste, compresses it, and dehydrates and crushes the storage step (S3) and the storage step of refrigeration or freezing of the dehydrated and crushed food waste (S4). It demonstrates. As described above, the processing step and the storage step may occur at the same time in one device, and thus will be described together. Food waste discharge places include vacation places such as homes, restaurants, and beaches. Describe the treatment and storage steps that can be applied at each location.

First, with reference to Figure 2 will be described a food waste treatment method used at home. Figure 2 shows an example of the food waste treatment apparatus used in the food waste recycling method according to an embodiment of the present invention. The process proceeds from washing food waste to refrigerated or frozen storage through the food waste treatment apparatus 1000.

First, the food waste is supplied to the dehydration container 1012 through the inlet 1011. When a command is input to operate the valve 1014 and the motor 1015 connected to the cold / hot water supply pipe 1013 by operating a switch of an operation panel (not shown), the cold water or hot water is supplied to rotate the cutter while washing the food waste ( 1016). When the supply of cold water or hot water is stopped, the water is dehydrated by the rotation of the dehydration container 1012. The food waste, which is crushed to a predetermined size or less while being dehydrated, is discharged through the through hole 1017 of the dehydration container 1012 and is supplied to the pressing unit through the discharge port 1018. When the shaft 1019 of the crimp portion rotates, the food waste crushed by the screw 1020 fixed to the shaft is conveyed forward while being compressed. Sewage coming out during the pressurization is discharged to the purifying means 1023 installed in the lower portion of the pressurized cylinder 1022 through the sewage discharge port 1021, and only the food waste penetrates the discharge disk 1024 installed in front of the pressurized cylinder 1022. Ejected into the hole. The discharged food waste is stored in the discharge drawer (1025). During storage, since the inside of the discharge drawer 1025 is kept refrigerated by a cooling means (not shown), it is possible to prevent food waste from decaying for a certain period of time, thereby preventing the occurrence of odor and propagation of bacteria.

The food waste stored in each food waste processing device is collected in a large amount of food waste storage device and stored for a certain period of time. When the discharge drawer 25 is full, the discharge drawer 25 is separated and discarded the food waste in the discharge drawer 25 in the food waste storage box disposed around. Food waste storage device is equipped with a refrigeration device to store food waste in a refrigerated or frozen state. In addition, the food waste inlet of the food waste storage device is preferably locked by the electronic locking device in order to prevent the mixing of the general food waste, not the food waste stored in the refrigerated or frozen state. The electronic locking device is preferably released by an RFID tag, an RF card, an IC card, or the like attached to the identification means, for example, the discharge drawer 25.

Next, with reference to Figures 3 to 5 will be described for the food waste treatment and storage method that can be used in restaurants and rest areas. Figure 3 shows another example of a food waste processing apparatus used in the food waste recycling method according to an embodiment of the present invention. 4 is a cross-sectional view of the food waste treatment apparatus shown in FIG. 3, and FIG. 5 is a cross-sectional view of the bone and waste shell mill shown in FIG.

First, the food waste is supplied through the food waste inlet 11. The supplied food waste is supplied to the housing 31 through the food inlet tube 32. When the screw 35 inside the housing 31 rotates, the food waste is conveyed while being pressed forward. Sewage coming out of the compression is discharged to the drain pipe through the compression drain 34. Food waste is stored in the food storage unit 16 through the food discharge pipe (33). During storage, since the inside of the food storage unit 16 is kept in a refrigerated state by the cooling means 50, it is possible to prevent food waste from decaying for a certain period of time, thereby preventing the occurrence of odor and propagation of bacteria.

The food waste stored in the food storage unit 16 moves along the transport pipe 200 as the blower 210 installed in the transport pipe 200 is operated, and the food waste storage device which is continuously installed in the transport pipe 200. It is stored in the body 410 of the food waste storage device 400 through the through hole formed in the lid 410 of the (400). The body 410 is cooled by a cooling device that is operated by electrical energy generated by the solar cell 422 formed on the lid 410. When the food waste storage device 400 is full, the sensor installed inside the body 410 operates, and the light emitting lamp 412 installed outside the body 410 is turned on to confirm that the food waste storage device 400 is full. have.

The bone or closed angle is introduced through the inlet 310 and then transferred to the first grinding roller 330 through the guide means 320. The bone or closed angle coarsely ground by the teeth 331 of the first milling roller 330 is pulverized by the second milling roller 340, and then moves to the transfer pipe 200 through the discharge pipe 350. When the blower 210 installed in the transfer pipe 200 operates, the blower 210 moves along the transfer pipe 200 and is stored in the food waste storage device 400.

Next, food waste disposal and storage methods that can be used in resorts such as beaches will be described. Two examples are available at resorts. The first method is a method of processing and refrigeration or freezing of food waste using a mobile food waste treatment device installed in a resort.

First, the first method will be described with reference to FIGS. 6 to 8. Figure 6 is a perspective view of a mobile food waste processing apparatus used in the food waste recycling method according to an embodiment of the present invention. FIG. 7 is a cross-sectional view taken along line A-A of the food waste treatment apparatus of FIG. 6, and FIG. 8 is a cross-sectional view taken along line B-B of the food waste treatment apparatus shown in FIG. 6. The mobile food waste processing apparatus shown in FIG. 6 is installed in a beach, etc., washes food waste generated in a beach, etc., compresses it, dehydrates and grinds it, and refrigerates or freezes it.

A mobile food waste treatment device is connected to a vehicle to move to a place where a large amount of food waste occurs, such as a beach, but it is difficult to install a storage device to be treated. When food waste except bone or waste shells is put into the food waste inlet 511 located under the lid 541 on the left side of the drawing, the food waste is fed into the housing 531 through the food inlet tube 532. Supplied. When the screw 535 inside the housing 531 rotates, the food waste is transported while being pressed forward. Sewage coming out from the compression is stored in the sewage storage unit 515 through the drain pipe (534). Food waste is stored in the take-out drawer 517 is inserted into the food storage unit 516 through the food discharge pipe (533). During storage, since the inside of the food storage unit 516 is refrigerated by the cooling means 550, it is possible to prevent food waste from decaying for a certain period of time, thereby preventing the occurrence of odor or propagation of bacteria.

Bone or lung angle is injected through the bone and lung angle inlet 521 installed on the right side of the mobile food waste processing apparatus. The injected bone or lung angle is stored in the bone and lung angle export drawer 524 inserted into the bone and lung angle storage part 523 through the bone and lung angle inlet 521 and the connection passage 522.

The second method that can be used in resorts such as beaches is to dispose of food waste once it has been refrigerated and frozen, and then moved to a home or a separate treatment site for disposal.

Next, referring to Figures 9 and 10, it will be described for the removable food waste storage device used in the second method. Referring to FIG. 9, the mobile food waste storage apparatus 600 used in the food waste recycling method according to an embodiment of the present invention includes a refrigerator 610 and a container 630.

The refrigerator 610 has a storage unit 611 which is an empty space therein and a lid 612 that can be opened and closed at the top. The storage unit 611 should be able to be kept in a refrigerated state, and for this purpose, a refrigeration cycle generally used in a refrigerator may be used. That is, the refrigerator may include a refrigeration cycle including a compressor for compressing the refrigerant, a condenser for condensing the refrigerant, a decompression device for reducing the refrigerant, and an evaporation tube for evaporating the refrigerant and exchanging heat with the surroundings. In addition, it is possible to create a refrigerated state by using a semiconductor cooling element such as a Peltier element.

Power must be supplied to devices that keep the storage unit 611 refrigerated, which can receive electricity from the outside using the outlet 613. In addition, a separate rechargeable battery 614 may be provided. In addition, the solar cell 615 may be attached to the upper portion of the lid 612 in order to receive power when the electricity cannot be smoothly supplied. In addition, it is preferable to further include a socket (not shown) that can be supplied with power from the vehicle instead of the outlet 613 to be supplied with power outdoors. .

In addition, the lower portion of the lid 612 is preferably provided with an ultraviolet ray generator 619. UV generator 619 is to sterilize by irradiating the ultraviolet light to the food waste stored.

In addition, a display unit 620 is positioned on the front side of the refrigerator 610, and the display unit 620 displays various types of information such as the refrigerating temperature inside the storage unit 611 and the amount of electricity remaining in the charging device 614.

The container 630 refers to a container in which food waste is stored in the storage unit 611. In this embodiment, the food waste storage device 600 consisting of two containers 630 is disclosed. If a plurality of container 630 is provided, it is convenient to sort and store various kinds of food waste. For example, since food waste containing animal bones or thorns of fish cannot be collected like ordinary food waste, different container 630 for storing each can prevent their mixing.

In addition, the container 630 is provided with the identification means 631. The identification means 631 is a device identified by the identification means 701 of the large food waste storage box 700, and it is preferable to use a wireless identification device. For example, an RFID tag may be used.

In this way, the food waste stored in the portable food waste storage device can be brought into the home and processed through the food waste processing apparatus shown in FIG. 2. Alternatively, as shown in FIG. 10, the waste may be disposed of at once in a large food waste collector disposed at a resort.

Referring to Figure 10, a method of using a large food waste collection box will be described. Large food waste collection box 700 refers to a device for storing the food waste stored in the plurality of food waste storage device 600 to store food waste for a predetermined period until the food waste is taken out of the collection truck. The large food waste collection box 700 also has a device capable of refrigerated food waste, and a detailed description thereof will be omitted since it is the same as the food waste storage device described above.

In addition, the large food waste bin 700 is provided with an identification means 701. When the identification means 701 identifies the identification means 631 mounted on the container 630 of the food waste storage device 600, the lock state of the cover 702 is released to inject the food waste into the container. do. That is, the lock is normally released only when the container 630 is stored to prevent the input of other garbage, and the food waste stored in the refrigerator is stored, so that the food waste can be discarded. Prevent food waste from mixing with other food waste. Preferably, the identification means 701 and the identification means 731 use a device that can be detected wirelessly. For example, an RFID tag, an identification device using a magnetic force, an identification device using an infrared ray, or the like may be used.

The next step is a collection command transmission step (S5) in which the food waste recycling system transmits a collection command of the food waste stored in the refrigerator or frozen according to the food waste collection plan.

The next step is a collection step (S6) in which the food waste collection device collects the refrigerated or frozen food waste according to the collection instruction of the food waste recycling system. In this step, food waste should be collected in a refrigerated or frozen state using a vehicle that can be refrigerated or frozen. In the case of food waste stored in the mobile food waste processing apparatus, the mobile food waste processing apparatus may be collected by directly connecting with the vehicle.

The last step is a processing step (S7) for processing the food waste collected by the food waste processing apparatus. In the processing step, there is a feed processing step (S8) for producing animal feed by sterilizing and packaging food waste stored in refrigerated or frozen. In the case of the present invention, since food waste does not decay, it is possible to immediately make a feed without going through a complicated process.

In addition, extracting the oil contained in the food waste to produce a bio raw material. 11 is a cross-sectional view showing an example of a milking machine used in the food waste recycling method according to an embodiment of the present invention. A step (S9) of manufacturing a bio raw material will be described with reference to FIG.

The milking machine 800 includes a first housing 810 for accommodating food waste and a piston 820 moving up and down inside the first housing 810 to compress food waste. The piston 820 can rotate as well as move up and down. Since the piston 820 is fixed to the moving frame 860 which is installed to move up and down along the vertical frame 850, the piston 820 may move up and down. In addition, since the motor 861 and the bevel gear 862 installed in the moving frame 860 are connected, rotation is possible. It is easy to find the optimum milking conditions because it can adjust the shankdong and rotation of the piston 820, respectively. In particular, in the case of animal oil, since it is hard to be milked due to compression because it exists in a solid state at room temperature, the heater 830 for heating the first housing 810 is fixed to the outside of the first housing 810. It is installed in the second housing 840 wrapped in a spaced apart state.

When the food waste is heated to liquefy the animal oil, the piston 820 operates to compress the food waste, and the animal and vegetable oils included in the food waste are discharged together with other liquid components included in the food waste. The discharge process is as follows. First, a mixture of oil and other liquid components passes through the through holes 811 formed in the bottom and side surfaces of the first housing 810 by the pressure of the piston 820. The lower part of the milking machine 800 is moved through the space between the first housing 810 and the second housing 840 and then discharged through the outlet 841 formed in the second housing 840.

Next, the oil component is extracted from the liquid containing the oil component. The mixture discharged through the discharge port contains not only oil, but also a liquid component such as water contained in food, and also includes a part of solid content passing through the through hole 811 of the first housing 810 of the milking machine 800. Can be. Therefore, only oil components should be separated from the mixture. As a method of separating oil components, various methods such as separation using a density difference, extraction using a specific solvent, and fractional distillation using a difference in boiling point of a liquid may be used. In this embodiment, liquid components such as oil and water and solids were separated using a centrifuge rotating at high speed. The most dense solids sink first, so they are at the bottom, with water and oil above them.

Food waste left after removing the oil can be composted through the following process (S10).

First, ocher, masato and natural odor are added to the food waste without oil and mixed. If the food waste is too large to mix, the grinder may be finely ground before mixing. Hereinafter, each component is demonstrated. First, the loess is explained. Ocher is a light and dark black soil produced by the decomposition of asbestos roughness, andesite, and granite by hydrothermal and weathering, and is a mineral belonging to Kaolin group clay having the chemical formula Al ₂ O ₃ 2SiO ₂ 2H ₂ O.

Ocher is formed by oxidizing and weathering the surface of Kaolin, which is a primary clay, and has a lot of iron oxide (Fe ₂ O ₃ ) component, which is reddish, and tetrahedron and octahedron are formed 1: 1. Form a layer structure. This structural stability is harmless to the environment because of its low reactivity. The components of ocher can be divided into microbiological and chemical components, and in the former, it removes hydrogen peroxide, which shows toxins to the organism, and makes the soil suitable for the organism. Catalase has the highest activity. There are four kinds of enzymes, and proteases that hydrolyze proteins into amino acids when the nitrogen in the protein is mineralized. Each of these enzymes plays a role in toxin elimination, degradability, fertilizer elements and purification. Chemical components include various mineral particles such as quartz, feldspar, mica and calcite, and the ratio is 35 to 45% SiO ₂ and Al ₂ O ₃ 20-35%, Fe ₂ O ₃ It is known to be about 5 to 15%, MgO 2 to 3%, and Na ₂ O 1 to 2%.

Ocher is called a living organism because it emits a large amount of far-infrared rays necessary for the growth of animals and plants so that it is called a reservoir of solar energy. Due to the efficacy of the loess, far-infrared rays from the loess itself activate the physiology of the cells, restoring the dying contaminated rivers or the seas dying from red tide.

The minerals contained in the loess can adsorb anions and cations because of the charges occurring on their surface, and due to their unique porous structure, the large surface area of the clay minerals contained, heavy metals such as Cu, Pb, Cr, Zn, and suspended solids It can be applied to water purification action such as substance adsorption.

In the present invention, the loess serves as a binder capable of forming food waste into pellets. In addition, it serves to emit far infrared rays and to adsorb heavy metals.

Masato is a soil produced by the weathering of granite, and is widely used in field crops, landscaping plants, wildflowers, bonsai, and pollen because of its good drainage and breathability. In the present invention, masato is mixed with loess and serves to control the decomposition rate of the pellets. Increasing the amount of masato increases the rate of decomposition of the pellets, and conversely, decreasing the amount of masato decreases the rate of decomposition of the pellets. Therefore, by adjusting the amount of masato, it can be adjusted to decompose the pellet when the compost is required.

Natural fragrances protect crops from animals or insects that damage crops. For example, in order to protect crops from wild boar, elk, etc., it is possible to mix substances with the smell of natural enemies feared by wild boar, elk, etc. like tiger droppings. Also, in order to combat cockroaches and ants, the fragrance of ginkgo biloba or mint can be used.

In the case of compost used in home pots, etc., instead of adding a natural fragrance, the fragrance can be mixed to remove the odor of food waste.

Next, a mixture of food waste and loess is dried and compressed to make pellets. The drying method is not particularly limited as long as the content of moisture can be properly adjusted. For example, food waste, ocher, masato, and natural odorant are added to the rotating drum, and then the hot air dryer is used to adjust the moisture content appropriately. Inside the drum, the rotary shaft having a mixing blade on its outer surface rotates in the opposite direction to the drum, thereby increasing drying efficiency. Next, the dried mixture of the moisture content is appropriately controlled is put into a pellet molding machine, compressed and then cut to make pellets. The pellet molding machine includes a case for compressing and conveying the dried mixture, and a cutter for cutting and pelletizing the mixture discharged to the outlet of the case through the conveying screw and the conveying screw.

Next, the surface of the pellet is irradiated with ultraviolet rays. In the method for producing pellet-type compost using food waste according to the present invention, the process after removing the oil from the food waste does not proceed to a frozen or refrigerated state, so the food waste is fermented to some extent. Therefore, microorganisms are present on the surface of the pellets. If the sterilization by irradiation with ultraviolet rays in such a state can delay the fermentation rate of the food waste, it is possible to control the fermentation state of the pellet-type compost.

The surface of the pelleted compost is then coated to complete the pelleted compost as shown in FIG. Inside the pellet-type compost, food waste 1, ocher and masato 3, and natural waste 2 are evenly mixed. By coating the surface, off-flavor can be prevented and the pellet-type compost is easy to handle. In addition, since the compost can delay the time for supplying nutrients to the soil until the coating layer is decomposed, there is an advantage that the pellet-type compost can be sprayed in advance during the season. As the surface coating layer 4, biodegradable starch or ocher is used. When used in home pots, etc., it is preferable to use a material dyed using natural materials as the coating layer. Finally, the completed pelleted compost is vacuum packed.

In the present embodiment, but described as coating the surface of the pellet-type compost, as shown in Figure 13, it is also possible to insert the pellet-type compost in the capsule (5) that is decomposed over time to seal.

In addition, it was explained that the natural fragrance is introduced into the mixture, but as shown in FIG. 14, in order to enhance the effect of the natural fragrance, a hole 6 is formed on the surface of the pellet-type compost, and the natural fragrance is formed in the hole. I can also add the material (2).

The method of using the pellet-type compost described above will be briefly described. Pellet-type compost can be controlled by UV sterilization, masato addition amount, degree of drying, surface coating, etc., to control the time taken to decompose and supply nutrients after spraying on the soil. Therefore, it is possible to spray in advance during the dry season. In addition, the conventional compost had to be sprayed by farmers all around the farmland, the pellet-type compost can be applied to the soil located at a distance using a spraying device using compressed air.

In the above, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above embodiments, and various modifications can be made by those skilled in the art within the technical idea of the present invention. Is obvious.

100, 1000: food waste treatment device 10: case
30: press grinding means 50: cooling means
200: conveying pipe 210: blower
300: bone and waste shredder 400: food waste storage device
500: removable food waste processing device
600: removable food waste storage device
800: milking machine
1: food waste 2: feces of natural enemies
3: ocher and masato 4: surface coating layer
5: capsule

Claims (11)

As a food waste recycling system, the food waste recycling system manages the food waste recycling plan in real time.
A data collection step of collecting, by the food waste recycling system, emission data for each discharge location of the food waste;
A collection plan establishment step of establishing a food waste collection plan using the collected data by the food waste recycling system;
A food waste treatment device installed at each food waste discharge place to wash, depress and dehydrate and crush the food waste;
A storage step of refrigerated or frozen storage of the food waste;
A collection command transmission step of transmitting, by the food waste recycling system, a collection command of the food waste stored in the refrigerator or frozen according to a food waste collection plan;
A collection step of collecting, by the food waste collection device, the food waste stored in the refrigerator or frozen according to the collection instruction; And
Food waste recycling apparatus comprising a processing step of processing the collected food waste. The method of claim 1,
The collection step,
Food waste recycling method characterized in that the step of collecting the food waste in a refrigerated or frozen state. The method of claim 1,
The processing step,
Heating food waste to liquefy oil components contained in the collected food waste;
Compressing the food waste to separate a liquid containing an oil component from a milking material;
Adding ocher to the food waste from which the oil component has been removed and mixing; And
Drying and compressing the mixture of the food waste and loess food waste recycling method comprising the step of making pellets. The method of claim 3,
Food waste recycling method characterized in that it further comprises the step of extracting the oil component from the liquid containing the oil component. The method of claim 3,
To prevent damage to crops by animals or insects, the food waste recycling method characterized in that the addition of the ocher to the food waste mixing step of adding a flavoring substance that the animal or insect hates. The method of claim 3,
In order to increase the decomposition rate of the pellets, food waste recycling method characterized in that by adding a mixture of masato in the step of mixing by adding ocher to the food waste. The method of claim 3,
After the step of drying, compressing the mixture of the food waste and loess to make the pellets, food waste recycling method further comprising the step of coating the pellets. The method of claim 3,
After compressing and drying the mixture of food waste and loess to make pellets, food waste recycling method further comprises the step of putting the pellets in a capsule to seal. The method of claim 3,
Forming a hole in the surface of the pellet after compressing and drying the mixture of food waste and loess to make pellets; And Food waste recycling method further comprises the step of putting a substance that smells like the animal or insect in the hole to prevent damage to the crop by the animal or insect. The method of claim 3,
After compressing and drying the mixture of food waste and loess to make pellets, food waste recycling method further comprises ultraviolet sterilizing and packing the pellets in order to slow down the fermentation rate of the pellets. . The method of claim 3,
The processing step,
Food waste recycling method characterized in that the sterilization of the collected food waste, packaging to make a feed.

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