KR102178017B1 - Food garbage disposer. - Google Patents

Abstract

The present invention provides a food waste disposal apparatus comprising: a cylindrical collection container having a storage space in which food waste can be stored; a support wall surrounding the front, rear, left, and right sides of the collection container to support and fix the collection container; stirring screws provided on the front and rear sides of the support wall to penetrate the inside of the storage space in the collection container; and a motor connected to one end of the stirring screws to provide driving energy. Therefore, compared to a conventional pulverizing and drying food waste disposal apparatus in which about 70 hours are required to dispose of 20 tons of food waste, the food waste disposal apparatus of the present invention takes about 8 hours to dispose of 20 tons of food waste and thus can save about 1/9 of the time, and can reduce fuel costs by consuming about 1/10 of energy due to excellent thermal efficiency compared to steam boilers, LPG, and general heaters which are usually provided in the pulverizing and drying food waste disposal apparatus.

Description

Food garbage disposer.}

The present invention relates to an apparatus capable of processing a large amount of food waste, and agitation, pulverization, and high pressure high heat are applied to the food waste put in a collection bin to evaporate moisture in the food to reduce the volume and apply to the high pressure high heat. It relates to a food waste disposal apparatus capable of increasing energy efficiency.

The amount of food waste generated per day in Korea was 11,398 tons as of 2003, about 1,400 8-ton trucks, about 15 trillion won in terms of money for food waste disposed of in a year, and 23% of household wastes account for food waste. do.

Accordingly, in accordance with the enforcement of the direct landfill ban of food waste in 2005, the government established standards for food waste reduction and recycling policy, and stipulates that food waste dischargers (family) dispose of them through separate collection so that they can be recycled at resource facilities.

According to the above regulations, the food waste discharger bears the cost, and each place has to deal with it. Accordingly, it is necessary to develop technology for resource-use facilities that facilitate separate collection and discharge at homes and restaurants, maintain a sanitary environment, and enable economical and practical secondary resources.

Since food waste contains more than 80% of moisture and easily decaying organic substances, it is organicized with nitrogen during landfill and odors caused by water (ammonia as the main component, trimethyl adine, methyl sulfide, methyl disulfide, acetic aldehyde, etc.) are generated. . Such decay of food waste causes the occurrence of pests such as flies and mosquitoes, and dirty leachate from which the waste is rotten contaminates groundwater or subsides the ground. Accordingly, there is a food waste disposal apparatus capable of solving the above problems.

According to the treatment method, the food waste disposal system includes a drying type, a liquid extinguishing type, a crushing drying type, a liquid manure extinguishing type, and a vaporization extinguishing type. The liquid extinguishing type is currently sold mainly for home use, and is mainly sold for interior sinks. Most of them do not have a separate odor removal device or leachate purification device, so the leachate from the food waste is discharged to the sewer as it is to the sewer. It is difficult to install in existing houses, and it is mainly installed in new buildings, but it is not a fundamental solution such as odor backflow and leachate generation.

Drying is a method of drying food waste using a high temperature of 90 degrees or higher. The proportion of moisture in the ingredients of food waste is about 70% or more, but a simple drying can reduce 20% of the total food waste. Drying methods include a hot air drying method, a cooling drying method, and an electromagnetic wave drying method using the principle of a microwave oven. However, dry food cannot be separated and collected as general waste after collection, and when moisture comes in contact with it again, it rots again and cannot be the original treatment method.

The crushing drying type is a technology that is one step more advanced than the above drying type, and is equipped with a crushing machine or a pulverizer to have a greater reduction effect than the reduction due to simple drying. However, when a hard substance is put into food, there is a high probability of side effects and device failure due to the installation of a crusher and a crusher, such as failure or breakage of the crushing blade.

The crushing drying type device is usually equipped with a discharge bin at the lower end, but if it is not discharged frequently, it will rot again or leachate will generate, resulting in a bad smell.

As a technology related to this, a food waste disposal device has been disclosed in Korean Patent Publication No. 10-2010-0081170 and Korean Patent Publication No. 10-2014-0100823, but the prior document discloses the internal cylindrical shape of the present invention. There is a collection bin with a storage space in which food waste can be stored; A support wall surrounding the front, rear, left and right sides of the collecting container and supporting and fixing the collecting container; Stirring screw portions are installed on the front and rear sides of the support wall to penetrate into the storage space of the collection container; The configuration consisting of a motor that is connected to one end of the stirring screw to provide driving energy and the effect of reducing the energy efficiency and treatment time of food treatment are not disclosed, showing a difference.

Korean Patent Laid-Open Publication No. 10-2010-0081170 discloses a food waste treatment device having a double screw structure and a food waste treatment method using the same as a food waste treatment device including a food waste treatment unit and a power unit that transmits rotational power to the screw, The food waste processing unit includes: an input port through which food waste is put; A primary screw housing for transferring the input food waste to the partition wall by a primary rotating screw, pulverizing, compressing, and dewatering, and discharging moisture through a water discharge hole at the lower end; A secondary screw housing that is separated from the primary screw housing by the partition wall and is pulverized, compressed, and dehydrated while transporting the food waste introduced through the food inlet of the partition wall toward the discharge surface by a secondary rotating screw. Disclosed is a food waste treatment apparatus having a double screw structure and a food waste treatment method using the same. In Korean Patent Publication No. 10-2014-0100823, the moisture contained in the food waste is stirred, pulverized, agitated, and discharged using a minimum motor, so that the moisture contained in the food waste is dried by a low-efficiency heater, etc. Disclosed is a screw stirring type food waste disposal apparatus capable of minimizing power consumption by removing as much as possible without a device. In Korean Patent No. 10-1346593, a rotation shaft arranged in a certain direction and a helical shape on the outer circumference of the rotation shaft are provided on a transfer blade and a rotation shaft that move the object to be transferred according to the rotation of the transfer shaft. Concerning a feed screw module and a food waste processor including the same, characterized in that it includes a cutter unit provided adjacently and rotatably according to the rotation of the rotating shaft, and provided to crush the object to be transported by the feed blade It is starting. Domestic Registration Patent No. 10-1675756 has a food entrance with open upper and lower portions; A crushing module disposed in a crushing housing connected to a lower portion of the food inlet; A transfer case coupled to a lower portion of the crushing housing; A transfer screw module disposed in a rotatable state inside the transfer case and spaced apart from a lower portion of the crushing module; And a sewage discharge pipe disposed close to the transfer screw module, wherein the transfer screw module includes: a rotation shaft rotatably disposed inside the transfer case; And a transfer blade disposed in a spiral shape along an outer circumferential surface of the rotation shaft, wherein the transfer blade includes a transfer screw having blades in different directions formed in different directions along a longitudinal direction of the rotation shaft. It is starting.

In order to solve the problem of large electricity consumption in a dry food waste disposal apparatus, the present invention has a cylindrical shape in which a storage space in which food waste can be stored is formed, and a stirring screw part is installed to penetrate the collection container. Thus, it is intended to provide a food waste disposal apparatus capable of reducing energy efficiency and working time by stirring and pulverizing food waste up, down, left and right at the same time as high temperature and high pressure energy is applied inside the collection container.

A food waste disposal apparatus according to an embodiment of the present invention includes a collection container having a cylindrical shape and a storage space in which food waste can be stored; A support wall surrounding the front, rear, left and right sides of the collecting container and supporting and fixing the collecting container; Stirring screw portions are installed on the front and rear sides of the support wall to penetrate into the storage space of the collection container; It may be made of a motor that is connected to any one end of the stirring screw to provide driving energy.

The collection bin is formed of a material having excellent heat resistance and heat conduction, and a through hole is formed in the upper and lower portions to allow food waste to be input and discharged and open and close, and the stirring screw part is a screw that rotates around the installation direction. It provides a food waste disposal apparatus comprising a screw blade portion in which a plurality of propeller-shaped fan frames are installed in a helical direction along a screw rotation shaft on a side of the rotation shaft and the rotation shaft.

At least one agitating screw unit is installed in both directions, and bearings and gears for rotating the screw rotation shaft are installed at one end of the screw rotation shaft, and the screw rotation shaft is rotated by converting the power supplied from the motor into rotation energy, and the neighboring The gear of the stirring screw unit is installed so that the gear teeth are engaged, and the fan frame rotates symmetrically in the direction of converging or diverging according to the rotational motion of the screw rotation shaft.

In the present invention, compared to the conventional pulverized and dry food processing apparatus, which takes about 70 hours to treat 20 tons of food waste, it takes 8 hours to process 20 tons, thereby saving about 1/9 time. And, compared to steam boilers, LPGs, and general heaters, which are typically installed in crushing and drying food waste treatment devices, heat efficiency is excellent, and energy is consumed by about 1/10, thereby reducing fuel costs.

1 shows a perspective view of a food waste disposal apparatus of the present invention.
2 shows a side photograph of the food waste disposal apparatus.
3 shows a photograph of the front and rear surfaces of the food waste disposal apparatus.
Figure 4 shows a picture inside the collection container of the present invention.
5 shows a photograph of one end of the screw shaft.
6 shows a picture of the inside of the supporting wall of the present invention.
7 shows the side of the fireproof block of the present invention.
8 shows a control box for controlling the heat transfer device of the present invention.

Hereinafter, the accompanying drawings related to the food waste disposal apparatus of the present invention will be described in detail.

1 is a rear perspective view of the food waste treatment apparatus of the present invention, FIG. 2 is a side photograph of the food waste treatment apparatus, and FIG. 3 is a front and rear photograph of the food waste treatment apparatus. The food waste disposal apparatus of the present invention comprises a collection container 10 formed in a cylindrical shape made of a metal material such as iron and having a storage space in which food waste can be stored; A support wall 20 is formed before and after the collecting container, surrounding left and right sides, and supporting and fixing the collecting container; Stirring screw units 30 are installed on the front and rear sides of the supporting wall to penetrate into the storage space of the collection container; A motor 40 that is connected to one end of the stirring screw and provides driving energy may be installed.

A motor for transmitting power to the first stirring screw and the second stirring screw is formed on the left side of the front of the food waste disposal device, and a screw mounting part bearing is formed in the upper right side of the rear to install a third stirring screw. .

Figure 4 shows the inside of the collection container of the present invention. The collection bin 10 of the present invention may be formed of a material having excellent heat resistance and thermal conductivity, and a through hole 11 may be formed in the upper and lower portions to allow input and discharge of food waste.

It is appropriate that the through hole is formed to be open and closed so that the upper through hole is opened so that the water vapor generated while the food waste is dried by the heat applied to the collection bin is discharged while driving the food waste disposal apparatus according to the present invention. In addition, it is possible to input and dispose of food waste to be treated through the through hole.

The lower through hole is formed to be openable and closed on the lower bottom surface of the first stirring screw portion or the second stirring screw portion. The lower hole is connected to a feed pipe connected to an extrusion molding device so that feed raw materials can be directly produced after the food waste is processed, and can be discharged as feed having a certain size through the screw extruder of the extrusion device. Do.

The extrusion molding apparatus connected to the lower through hole of the present invention is installed with a feed supply pipe so that the mixed feed produced by mixing at least one feed material can be fed into the apparatus to enable the production of pellet-type feed, and the The food waste raw material introduced through the feed supply pipe is a barrel-type extruder with a built-in extrusion screw that can be transported, stirred, and compressed and pulverized to be discharged, and the pulverized feed discharged through the extruder is cut into a predetermined size to be pelletized It can be made by installing a cutting part.

The extruder includes a conventional elongated barrel and an extruding screw that is positioned inside one or more and is helically rotatable in the axial direction in the barrel, and an extruded plate opened at the outlet of the extruder barrel may be formed. The food waste passes through the extruder and may be molded into a pellet-type feed.

An agitation screw part is installed on the lower side of the inside of the collection container across the front and rear directions. The stirring screw part 30 of the present invention comprises a first stirring screw part and a second stirring screw part, and the stirring screw part is installed horizontally. The stirring screw unit is formed of a screw rotation shaft 32 that rotates about the installation direction of the stirring screw unit and a screw blade unit 31 is formed on the outer surface of the rotation shaft.

The screw wing portion 31 is formed by installing a plurality of propeller-shaped single fixed fan frames in a helical direction along the outside of the rotating shaft. It is appropriate that the pitch of the fan frame is formed so as not to collide with each other when the screw rotation shafts of the adjacent first and second stirring screws rotate. In addition, it can be installed at an angle of 30 to 50 degrees by being installed along the spiral direction.

The screw rotation shaft is installed through the inside of the collection container from the outside. 5 shows the front end of the screw shaft. The end of the front end of the screw shaft is installed outside the collecting container. At the end of the front end of the screw shaft, a bearing is installed to rotate the screw shaft while fixing the shaft and supporting the load applied to the shaft, and the first gear and the second gear are installed on the bearing to convert the power supplied from the motor into rotational energy. I can make it.

The first gear 32a and the second gear 32b have a disk shape, and a center portion may be fitted to the bearing, and a side surface thereof may be formed to surround the gear protrusions at regular intervals. In an embodiment according to the present invention, the first gear is installed on the first stirring screw portion and the second gear is installed on the second stirring screw portion, but this is for identification purposes and the gear configuration portion has the same structure.

However, the facing side portions of the first gear and the second gear are installed so that the teeth of the gears rotate to mesh with each other, so that the stirring screw units installed at both ends are operated with a single motor, so that the first and second gears rotate while being engaged with each other. Thus, rotational motion is possible without slipping or energy loss.

Accordingly, the fans of the first and second screws inside rotate simultaneously in the converging or diverging direction. Accordingly, the conventional pulverized and dried food processing apparatus stops serving to transport the food waste disposal device in a linear direction by a screw method, while the first and second stirring screw units according to the present invention are a symmetrical method such as converging or dispersing food waste. The food waste introduced into the stirring collection container can be stirred up and down by stirring and pulverized at the same time.

Accordingly, the food waste introduced into the interior undergoes pulverization, compression, and dehydration processes, thereby maximizing drying efficiency by doubling the processing capacity of a large amount of food with low power and high efficiency, while significantly reducing drying time.

Therefore, the present invention takes about 1/9 time savings as it takes 8 hours to process 20 tons compared to a conventional pulverized and dry food processing device that takes about 70 hours to treat 20 tons of food waste. There is.

6 shows the inside of the support wall formed on the outer side of the present invention. The support wall 20 surrounds the side of the collection container and maintains a distance from the ground floor and is fixed, and a fireproof block 22 is installed in the lower part of the collection container, and surrounds the support. And the supporting outer wall 23 is formed.

7 shows an enlarged view of the fireproof block of the present invention. On the side of the fire-resistant block, at least one carbon rod (22a) penetrates the inside of the fire-brick and is connected to the opposite side to be installed. The carbon rod is formed of a silicon carbide (SIC) material, and one end is connected to a heat transfer device and the other end is connected to a lower bottom surface of a collection container to transfer heat generated from the heat transfer device to the collection container.

The term silicon carbide referred to in the present invention has high strength after diamond and boron carbide (B4C), has excellent abrasion resistance, and heat resistance has a small coefficient of thermal expansion, high thermal conductivity, and is stable up to 1600°C. Accordingly, even when high heat is generated in the heat transfer device, heat energy with little loss can be transferred to the collection container without changing the device. Electric capacity according to the implementation of the present invention was operated at 300kW.

In addition, a fireproof block is installed in the lower part of the collection container to keep warm and protect the carbon rods to which high-temperature energy is applied so that heat transferred to the collection container is not lost. According to an embodiment of the present invention, the refractory block may be maintained at 800° C. and the inside of the collection container at 120° C. by the heat energy generated by the heat transfer device.

In the present invention, compared to the conventional pulverized and dry food processing apparatus, which takes about 70 hours to treat 20 tons of food waste, it takes 8 hours to process 20 tons, thereby saving about 1/9 time. And, compared to steam boilers, LPGs, and general heaters, which are typically installed in crushing and drying food waste treatment devices, heat efficiency is excellent, and energy is consumed by about 1/10, thereby reducing fuel costs.

8 shows a control box for controlling the heat transfer device of the present invention. The heating apparatus (not shown) according to the present invention is controlled by a control box, and the control can be installed in an automatic control method. Therefore, it is possible to maintain and control the set temperature by installing a temperature sensor in the collection container.

As environmental pollution intensifies, regulations on the discharge of garbage are being strengthened. Accordingly, the present invention provides a treatment device capable of increasing work efficiency while consuming less energy for food waste, thereby preventing further environmental pollution and reducing the burden on related workers, thus providing industrial applicability.

10: collection bin 11: through hole
20: support wall 21: support
22: refractory block 22a: carbon rod
23: supporting outer wall 30: stirring screw portion
31: screw wing 32: screw rotating shaft
32a: first gear 32b: second gear
40: motor

Claims (3)

The collection bin, which has a cylindrical shape and has a storage space in which food waste can be stored, is formed of metal material with excellent heat resistance and heat conduction, and food waste is input and discharged in the top and bottom of the collection bin and can be opened and closed. A through hole is formed, a support outer wall surrounding the front, rear, left and right sides of the collecting container and supporting and fixing the collecting container, and a plurality of stirring screw parts are installed in front and rear of the supporting outer wall to penetrate into the collection container storage space. ;
The stirring screw unit has a gear connected to a motor providing driving energy at one end of the screw rotation shaft, and the plurality of screw rotation shaft gears are installed so that the teeth of the gears engage with each other, so that the screw blades converge or diverge according to the rotational motion of the screw rotation shaft. A plurality of screw blades are installed while a single fixed fan frame having a propeller shape is spaced apart from each other in a spiral direction along the screw rotation axis;
Both sides of the collection container include a support that surrounds the side of the collection container and maintains a distance from the ground floor and is fixed, and a fire-resistant block installed to support and install the collection container under the collection container; On the side of the refractory block, at least one carbon rod (22a) penetrates the inside of the refractory brick and is connected to the opposite side of the collection container, and the carbon rod is formed of a silicon carbide (SIC) material and is connected to the heat transfer device to generate heat energy. Food waste disposal device, characterized in that formed to be transferred to the bottom of the collection bin delete delete

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