KR100722788B1 - kitchen refuse treating apparatus - Google Patents

Abstract

In the present invention, a plurality of inclined transfer means (104, 108, 112) and a plurality of horizontal transfer means (106, 110, 114) are alternately arranged on one side of the processing chamber, a plurality of inclined transfer means (118) on the opposite side , 122, 126 and a plurality of horizontal transfer means 120, 124, 128 are alternately arranged to form a group of transfer tanks, respectively, one of the transfer tanks (plural inclined transfer means 104, 108 , 112) and a plurality of horizontal transfer means (106, 110, 114) to transfer food waste from one end of the processing chamber to the other end while inclined, horizontal, inclined and horizontal, and the other transfer tank (multiple inclined transfer means). (118, 122, 126) and the plurality of horizontal transfer means (120, 124, 128) to move the food waste from the end of the processing chamber to the end in the opposite direction, each of the horizontal transfer means (116) ) And the horizontal conveying means 130 changes the conveying direction of the food waste at right angles. The food waste is repeatedly circulated and conveyed, and the plurality of horizontal conveying means formed at the intermediate height of the inclined conveying means efficiently utilizes the middle height space, but forms the maximum number of drops to maximize the given space. The present invention relates to a food waste treating apparatus which can be used as a treatment apparatus of the same size to ensure maximum processing efficiency.

 Food waste, disposal, crushing

Description

Food refuse treating apparatus {kitchen refuse treating apparatus}

1 is a perspective schematic view of one embodiment of the present invention.

2 is an internal perspective schematic diagram of an embodiment of the present invention.

3 is a side view for explaining a food waste transport path of an embodiment of the present invention.

4 is a side view seen from the opposite side to Figure 3 for explaining a food waste transport path of an embodiment of the present invention.

5 is a partial detailed view for explaining the disintegrating screw of the present invention.

<Description of Major Symbols in Drawing>

100: housing 102: inlet opening, 106: housing bottom

104: first inclined transfer means 106: first horizontal transfer means

108: second inclined conveying means 110: second horizontal conveying means

112: third inclined conveying means 114: third horizontal conveying means

116: fourth horizontal transfer means 118: fourth inclined transfer means

120: fifth horizontal transfer means 122: fifth tilt transfer means

124: sixth horizontal transfer means 126: sixth horizontal transfer means

128: seventh horizontal transfer means 130: eighth horizontal transfer means

154: drive motor 156: drive pulley

158: linkage pulley 160: chain

204: first inclined feed shaft 206: first horizontal feed shaft

208: second inclined feed shaft 210: second horizontal feed shaft

212: third inclined feed shaft 214: third horizontal feed shaft

216: fourth horizontal feed shaft 218: fourth inclined feed shaft

220: fifth horizontal feed shaft 222: fifth inclined feed shaft

224: sixth horizontal feed shaft 226: sixth horizontal feed shaft

228: 7th horizontal feed shaft 230: 8th horizontal feed shaft

205 transfer screw 250 disintegration screw

 The present invention relates to a food waste treatment apparatus. More particularly, the present invention relates to a food waste processing apparatus in which food waste is stirred, pulverized and dried while continuously moving through a plurality of inclined feed shafts and a plurality of horizontal feed shafts having screw formation.

Conventionally, the food waste treatment method uses a dehydration method, a drying method, a fermentation method, and the like.

 Dehydration can be used in households where small amounts of food waste are discharged by compressing, crushing, or rotating at high speed, but they are less used in restaurants or catering establishments that emit relatively large quantities. In addition, there is a problem of odor and disposal of the dehydrated waste liquid, and most of them are discharged to the sewer without permission act as another source of pollution.

In the drying method, the food waste is dehydrated to remove water and then dried by heating to reduce the volume of the food waste by 80 to 90%. Pretreatment, dehydration (crushing, compression, high speed rotation), drying, deodorization, dust removal are necessary here. Prior to mechanical treatment such as grinding, compression and high speed rotation, it is necessary to remove foreign substances, and a device capable of controlling odor and dust generated during dehydration and drying is needed. To crush food waste is to homogenize to increase the specific surface area to increase heat transfer. The drying method is applied to existing drying techniques such as direct fire, steam and heat exchanger. In the drying method, using a hot air or a heater in the drying tank to heat the internal temperature of the drying tank to a temperature of about 70 ℃ or more to evaporate only the moisture contained in the food waste, rotation of the food waste in the drying tank after rotation While supplying steam to the outside of the drying tank and drying and crushing food waste by indirect heat at a temperature above 100 ℃, the fermentation tank is equipped with hot air or a heater to set a temperature above 60 ℃ higher than the fermentation temperature. Fermentation and drying, which is the way to make it happen at the same time.

On the other hand, fermentation, extinction, etc. are used to produce the final by-product that can be used as a compost by biologically decomposing and stabilizing the organic material by various microorganisms. The basic principle of the fermentation method consists of producing a final by-product that can be used for composting by decomposing and stabilizing organic substances by various microorganisms. Food waste is converted into humus where organic matter is stabilized by microbial fermenter put into the fermenter, and pathogens are killed by continuous fermentation heat (60-70 ℃) and finally produce dark brown earthy compost. do. Food waste composting device includes fermentation tank, air supply and organic (air volume) control device and temperature measuring device, and is composed of a heating device for smoothing the initial temperature rise and a stirring device for sufficient homogeneous mixing. The extinction method is basically a principle in which organic substances are decomposed in an aerobic state by a microbial fermenter, as in the fermentation method. However, it is characterized by the introduction of an extinction concept that increases the weight loss by more than 90% by fermentation for a long time. Extinction is the basic principle that food waste is decomposed without a volume increase by adding a certain amount of food waste and aeration control agent and microbial fermentation agent to control moisture in a regular composting facility.

On the other hand, composting technology by microbial fermentation is as follows. The main processes of food waste composting facilities consist of sorting facilities, mixing and fermentation facilities, impurity removal facilities, ripening facilities and odor removal facilities. At the compost fermentation plant, the air blowing and the temperature are maintained at 55 to 60 ° C. while staying for 28 to 30 days, and the agitation transfer loader is stirred about 20 times a day. In compost maturation, composting with aeration and stirring produces less than 45% water content. In order to remove the odor generated during operation of the composting facility, the odorous substances generated in the mixing, conveying, screening, and aging processes are collected and transferred to the main composting facility, and the odorous materials transferred to the main composting facility are passed through the composting layer by extrusion. After removal, it is removed by passing through a biofilter (microbial deodorizing phase), which is an odor removal facility.

Composting by drying consists of the process of dehydration and drying of food waste, followed by ripening fermentation process to add water sprinkling and microbial fermenter for fermentation. The drying process primarily dehydrates food waste (75%) by mechanical compression, transfers it to a hot-air drying chamber, blows hot air at 180-250 ℃, and dries more than 80% of moisture. After transferring to the grinder and finely crushed, the water spray and fermentation agent necessary for ripening in the stirrer is added to the storage place and used as a compost. Odor generated in the drying process is sucked into the odor processor through a closed structure to remove.

 Food waste may also be wet pulverized to feed. Livestock farming (duck, pig) as a technology that selectively removes foreign substances from food waste and then crushes them in the presence of water and sterilize them by heating them, or adds organic acids, kills decaying bacteria, and directly mixes them with existing feed. It is a technique that is practically applied directly at). Wet feed manufacturing method has the advantage that the production cost is very cheap compared to the dry method, but the selection of foreign substances and the prohibition of the input of spoiled food must be preceded.

Drying feed technology consists of the process of sorting, drying, and crushing uncorrupted food waste, and economically inexpensive drying technology is required. The pulverized mixture is instantaneously dried by stirring with hot air of about 390 ℃ by the fluidized bed drying method in the drying tower, and is packaged after the 2nd crushing process using a hammer mill and the final sorting (vibrating body) process. Is supplied. This method is instantaneous high temperature direct drying method of 390 ℃, almost no nutrient destruction without burning, hygienic sterilization by high temperature sterilization and long-term storage with low moisture content.

 Feeding technology by cooking (cooking) is a process to cook food waste at a high temperature (cooking) and then drying, pulverizing and sorting it to prepare a single feed, and the same technology as the method to feed the existing slaughter by-products. This technology is primarily washed and dehydrated, and then cooked for 30 minutes at a temperature of 90 ~ 110 ℃ in the stock raising facility to minimize nutrient breakdown due to processing, and secondly, it is dried for 1 hour at 90 ℃ for 10 minutes. After lowering below%, cool by rotary method and adjust water content to about 6%. Finally, it is pulverized using a hammer mill and the foreign substance is removed with a vibrating sieve to be used as a raw material for blended feed or supplied to a livestock farm and mixed with an existing blended feed.

 The food waste treatment apparatus is enlarged according to the throughput. Households can be small, taking up the volume of a small trash can, but they can reach the size of a single plant to handle large amounts of food waste collected from multiple places. In this case, the optimization of space usage, which makes it possible to dispose of food waste by using the designated space most efficiently, becomes a very important factor in equipment design. Conventionally, a device for transporting food waste has not been developed so as to effectively use a given space, and thus the use of space is not optimized, and thus the volume of equipment becomes larger than the actual throughput, thereby limiting the design of the equipment.

On the other hand, in the conventional apparatus for processing while transporting food waste, there is a phenomenon that the food waste is aggregated and hardened while being transported, there is a problem that the food waste, which is hardened by this aggregation, reduces the processing efficiency.

The present invention is a food waste processing apparatus that processes food waste in a chamber while constantly transporting food waste, wherein a plurality of inclined feed shafts and horizontal transfer shafts disposed between them are optimized to maximize the amount of food by maximizing a given space. It is an object of the present invention to provide an efficient food waste disposal apparatus that allows waste to be disposed of.

On the other hand, the present invention during the mixing, decomposition, drying, fermentation of the food waste is transported, the water content is reduced with the passage of a constant temperature and time, and the reduced to dry matter (food waste) are aggregated from each other from this time Because it takes a long time to process, the dismantling screw is installed on the horizontal feed shaft that can prevent this phenomenon, so the processing time is short and the quality condition of the dry matter (food waste) is excellent. Its purpose is to provide.

The present invention provides a food waste treatment apparatus for processing food waste introduced into a processing chamber surrounded by the housing 100 by circulating and transporting the food waste in the processing chamber through a plurality of inclined transfer means and a plurality of horizontal transfer means. A processing chamber surrounded by 100, a food waste inlet 102 for injecting food waste into the processing chamber, and a first inclined conveying means for obliquely transporting the food waste which is placed directly below the inlet; 104), and one side end is located directly below the end of the first inclined transfer means and the food waste falling down from the end of the first inclined transfer means and the horizontal component in the conveying direction of the first inclined transfer means; The first horizontal transfer means 106 and the other end of the first horizontal transfer means for horizontal transfer in the same direction. A second inclined conveying means 108 for conveying food waste falling from an end of the first horizontal conveying means in an inclined upward direction and having a lower end located directly below, and a lower end of an upper end of the second inclined conveying means; A second horizontal transfer means (110) for horizontally transporting the food waste falling at an upper end of the second inclined transfer means in a same direction as the horizontal component of the transfer direction of the second inclined transfer means; A third inclined conveying means 112 for lowering the food waste falling downward from an end of the second horizontal conveying means and being disposed directly below the other end of the second horizontal conveying means; One end is located directly below the upper end of the third inclined transfer means, food waste falling from the upper end of the third inclined transfer means The third horizontal transfer means 114 for horizontally conveying in the same direction as the horizontal component of the transfer direction of the third inclined transfer means, and one end is located directly below the other end of the third horizontal transfer means, 3 the fourth horizontal conveying means 116 for horizontally conveying the food waste at right angles to the conveying direction of the horizontal conveying means, and the lower end is located directly below the other end of the fourth horizontal conveying means 116 4 food waste falling downward from the end of the horizontal conveying means is conveyed obliquely upwards, wherein the horizontal component in the conveying direction is the fourth inclined conveying opposite to the conveying direction of the first to third horizontal conveying means 114 One end is located directly below the upper end of the means 118 and the upper end of the fourth inclined transfer means 118 and the food waste falling from the upper end of the fourth inclined transfer means is arranged in the fourth mirror. The fifth horizontal transfer means 120 for horizontal transfer in the same direction as the horizontal component of the transfer means of the transfer means, and the lower end is located directly below the other end of the fifth horizontal transfer means 120 and the fifth One end is located directly below the fifth inclined transfer means 122 for transferring the food waste falling downward from the end of the horizontal transfer means upwardly, and the upper end of the fifth inclined transfer means 122. Sixth horizontal conveying means 124 for horizontally conveying the food waste falling from the upper end of the fifth inclined conveying means in the same direction as the horizontal component of the conveying direction of the fifth inclined conveying means, and the sixth horizontal conveying The lower end is located directly below the other end of the means 124, and the agent for transporting the food waste falling downward from the end of the sixth horizontal transfer means inclined upwardly Sixth inclined transfer means 126 and one end is located directly below the upper end of the sixth inclined transfer means 126 and the food waste dropped from the upper end of the sixth inclined transfer means to the sixth inclined transfer means. A seventh horizontal conveying means 128 for horizontally conveying in the same direction as the horizontal component of the conveying direction of the means, and one end is located directly below the other end of the seventh horizontal conveying means 128 and the first inclined conveying The other end is located directly above the lower end of the means 104, and includes an eighth horizontal conveying means 130 for horizontally transporting the food waste at right angles to the conveying direction of the seventh horizontal conveying means, The first inclined conveying means to the sixth inclined conveying means and the first horizontal conveying means and the eighth horizontal conveying means are formed with a feed shaft having a conveying screw formed on an outer circumferential surface thereof, The bottom of the housing is formed so that the food waste is transported by the transport screw while the food waste is supported by the bottom of the transport screw, the upper end of the feed shaft of the inclined transport means or the horizontal transport At the end of the conveying direction, there is a portion where no screw is formed so that the food waste falls down from this portion, and the food waste introduced into the inlet 102 is the first inclined conveying means, the first horizontal. Conveying means, second inclined conveying means, second horizontal conveying means, third inclined conveying means, third horizontal conveying means, fourth horizontal conveying means, fourth inclined conveying means, fifth horizontal conveying means, fifth inclined conveying means , The sixth horizontal conveying means, the sixth diagonal conveying means, the seventh horizontal conveying means, and the eighth horizontal conveying means are circulated in order and are repeatedly mixed Relates to a food waste treatment apparatus which is processed in contact with said air.

Here, it is preferable that at least a part of the first horizontal transfer means to the eighth horizontal transfer means is provided with a disintegrating screw on a portion of the feed shaft.

On the other hand, the present invention, in the food waste treatment apparatus for processing the food waste introduced into the processing chamber surrounded by the housing 100 by circulating the inside of the processing chamber through a plurality of inclined transfer means and a plurality of horizontal transfer means, A plurality of inclined transfer means (104, 108, 112) and a plurality of horizontal transfer means (106, 110, 114) are alternately arranged on one side of the processing chamber, horizontal transfer directly below the upper end of each inclined transfer means One end of the means is formed to be disposed, food waste falling from the upper end of the inclined transfer means is formed by the horizontal transfer means to be horizontally transferred in the same direction as the horizontal component of the transfer direction of each inclined transfer means, the processing On the other side of the chamber, a series of transfers consisting of the plurality of inclined transfer means (104, 108, 112) and the plurality of horizontal transfer means (106, 110, 114) A plurality of inclined transfer means (118, 122, 126) and a plurality of horizontal transfer means (120, 124, 128) are alternately arranged so as to transfer food waste in the opposite direction, and directly below the upper end of each inclined transfer means One side end of the horizontal transfer means is formed on the side, food waste falling from the upper end of the inclined transfer means is formed to be horizontally transferred in the same direction as the horizontal component of the transfer direction of each inclined transfer means by the horizontal transfer means Horizontal transfer means 116 and horizontal transfer means 130 are formed at both ends of the processing chamber so as to change the conveying direction of the food waste at right angles, respectively, and the housing is brought closer to the lower side of the transfer screw. The food waste is formed by the transport screw in a state in which the food waste is supported by the housing under the transport screw. It is formed so that, the upper end of the feed shaft of the inclined conveying means or the direction side end of the conveying direction of the horizontal conveying means there is a portion that is not formed screw food waste is formed to fall from this portion to the lower side, At least a portion of the horizontal conveying means (106, 110, 114, 116, 120, 124, 128, 130) relates to a food waste treating apparatus, characterized in that a disintegrating screw is formed on a portion of the feed shaft.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the food waste is introduced into the inlet 102 formed at one side of the chamber. The input food waste is fermented, dried and processed while being circulated and transported in the chamber. To this end, a structure is formed in the chamber for repeatedly transporting food waste along a predetermined path. First, as shown in FIG. 2, eight horizontal conveying means and six inclined conveying means are formed so that food waste can be conveyed by the conveying means.

The eighth horizontal conveying means 130 and the first inclined conveying means 104 are formed directly under the inlet 102 so that the food waste to be injected is first conveyed by the first inclined conveying means 104. The first inclined conveying means is a conveying screw is formed on the outer circumferential surface of the conveying shaft to drive food by rotating the conveying shaft by an external drive motor to convey the food waste by the screw. That is, the food introduced through the inlet is dropped to the lower end of the first inclined transfer means 104, the lower portion of the feed shaft constituting the first inclined transfer means is surrounded by the housing bottom 105 is installed as shown close As a result, food waste does not leak to the outside, but accumulates around the transport shaft. When the feed shaft 204 is rotated by an external motor, the feed screw 205 is rotated so that the food waste is transferred in one direction. The end portion of the feed shaft 204 is not supported by the housing in close proximity. Food waste falls down.

As shown in FIG. 1, the drive pulley 156 axially coupled to the motor shaft of the drive motor 154 for driving the first inclined transfer means and the interlocking pulley 158 axially coupled to the feed shaft 204 are chains. By being connected by the 160, the feed shaft is to be rotated by receiving power from the drive motor 154.

One end of the first horizontal transfer means is located directly below the upper end of the first inclined transfer means 104, and thus falls from the upper end of the first inclined transfer means 104. Food waste is dropped to one end of the first horizontal transfer means 106. The first horizontal conveying means receives the food waste conveyed from the first inclined conveying means and horizontally conveys the food waste in the same direction as the horizontal component of the conveying direction of the first inclined conveying means. In the first horizontal conveying means, a conveying screw is formed on an outer circumferential surface of the conveying shaft, and the conveying shaft is driven and rotated by an external drive motor to convey food waste by screws.

It is preferable that there is a portion in which the screw is not formed at the opposite end of the first horizontal conveying means, and the food waste conveyed to this portion falls down because the housing is not installed near the lower portion of the first horizontal conveying means. That is, the lower end of the second inclined transfer means 108 is located directly below the opposite end of the first horizontal transfer means, and the food waste is inclinedly transferred upward by the second inclined transfer means.

One end of the second horizontal transfer means 110 is located directly below the upper end of the second inclined transfer means 108, and the food waste falling from the upper end of the second inclined transfer means is transferred in the second inclined transfer means. Horizontal transfer in the same direction as the horizontal component of.

The lower end of the third inclined transfer means 112 is located directly below the other end of the second horizontal transfer means, and the food waste falling downward from the end of the second horizontal transfer means 110 is inclined upwardly.

One end of the third horizontal transfer means 114 is located directly below the upper end of the third inclined transfer means 112, and the food waste dropped from the upper end of the third inclined transfer means is transferred to the third inclined transfer means. It is horizontally conveyed in the same direction as the horizontal component of the direction.

One end of the fourth horizontal conveying means is located directly below the other end of the third horizontal conveying means and horizontally conveys the food waste in a direction perpendicular to the conveying direction of the third horizontal conveying means.

The lower end of the fourth inclined transfer means is located directly below the other end of the fourth horizontal transfer means 116, and the food waste falling downward from the end of the fourth horizontal transfer means is inclined upwardly. As shown in FIG. 2, the horizontal component of the fourth inclined transfer means is opposite to the transfer direction of the first horizontal transfer means 106 to the third horizontal transfer means 114. That is, while passing through the first inclined transfer means, the first horizontal transfer means, the second inclined transfer means, the second horizontal transfer means, the third inclined transfer means, the third horizontal transfer means from one end of the housing to the other end side, The food waste is transported, and the transported food waste is transferred to the fourth inclined conveying means by the fourth horizontal conveying means, and the fourth inclined conveying means is conveyed to the opposite side again.

One end of the fifth horizontal conveying means 120 is positioned directly below the upper end of the fourth inclined conveying means 118, and the food waste falling from the upper end of the fourth inclined conveying means is transferred in the fourth inclined conveying means. Horizontal transfer in the same direction as the horizontal component of.

The lower end of the fifth inclined transfer means 122 is located directly below the other end of the fifth horizontal transfer means 120, and the food waste falling downward from the end of the fifth horizontal transfer means is inclined upwardly.

One end of the sixth horizontal transfer means 124 is positioned directly below the upper end of the fifth inclined transfer means 122, and the food waste dropped from the upper end of the fifth inclined transfer means is transferred to the fifth inclined transfer means. It moves horizontally in the same direction as the horizontal component in the direction.

The lower end of the sixth inclined transfer means 126 is located directly below the other end of the sixth horizontal transfer means 124, and the food waste falling downward from the end of the sixth horizontal transfer means is transferred obliquely upward.

One end of the seventh horizontal conveying means 128 is positioned directly below the upper end of the sixth inclined conveying means 126, and the food waste dropped from the upper end of the sixth inclined conveying means of the sixth inclined conveying means. Horizontal feeding in the same direction as the horizontal component in the feeding direction.

One end of the eighth horizontal transfer means 130 is located directly below the other end of the seventh horizontal transfer means 128. The other end of the eighth horizontal conveying means is located directly above the lower end of the first inclined conveying means 104. The eighth horizontal conveying means delivers the food waste dropped from the seventh horizontal conveying means to the lower end of the first inclined conveying means.

As described above, the food waste introduced through the inlet 102 is the first inclined transfer means, the first horizontal transfer means, the second inclined transfer means, the second horizontal transfer means, the third inclined transfer means, and the third horizontal transfer. Means, fourth horizontal conveying means, fourth diagonal conveying means, fifth horizontal conveying means, fifth tilt conveying means, sixth horizontal conveying means, sixth inclined conveying means, seventh horizontal conveying means, and eighth horizontal conveying means It is transported in order and iteratively cycles. Therefore, food waste is processed in a short time while stirring and mixing food waste by passing fourteen drops in one cycle while constantly transporting food waste in a minimum space.

Preferably, each of the conveying means of the present invention is composed of a conveying shaft formed with a conveying screw on the outer periphery, and each conveying shaft is driven by the drive motor to rotate to convey the food waste in one direction by the conveying screw. Regarding the driving mechanism for rotating the respective feed shafts, the method of driving the first inclined feed means by the drive motor 154 has already been described above, and the driving method in the case of other feed means is also the same, and thus, further description thereof will be omitted.

Since the lower part of the transport shaft constituting each transport means is surrounded by the housing bottom 105 installed in close proximity as shown in FIG. 2, the food waste does not leak to the outside and is piled around the transport shaft, and the transport shaft is connected to an external motor. When rotated by the feed screw is formed on the outer peripheral surface of each feed shaft is rotated, food waste is conveyed in one direction, there is a portion that the housing does not support close to the discharge side of the feed shaft, that is, the transport direction side end Garbage falls down. On the other hand, the discharge side end of each of the conveying means is preferably a portion that is not formed with a conveying screw is formed so that food waste easily falls without the phenomenon of being caught in the conveying screw.

Furthermore, each of the inclined conveying means or the horizontal conveying means may be composed of one feed shaft, but may be composed of two or three feed shafts arranged side by side, and the present invention does not exclude such a configuration. In the example of FIG. 2, the fourth horizontal conveying means or the eighth horizontal conveying means is formed as a pair of parallel feed shafts.

3 and 4 are supplementary drawings for explaining the path that the food waste is moved in the apparatus of the present invention. As shown in FIG. 3, food is introduced into the inlet 102 (s0), and the injected food waste is inclined by the first inclined transfer means 104 (s1), and then at the end of the first inclined transfer means. Dropped (s2), horizontally conveyed by the first horizontal conveying means 106 (s3), dropped at the end of the first horizontal conveying means (s4), and inclined conveyed by the second inclined conveying means 108 After (s5), it is dropped at the upper end of the second inclined transfer means (s6), horizontally transferred by the second horizontal transfer means (110) (s7), and dropped at the end of the second horizontal transfer means (s8) After being inclined by the third inclined conveying means 112 (s9), it is dropped at the upper end of the third inclined conveying means (s10) and horizontally conveyed by the third horizontal conveying means 114 (s11). And, it is dropped at the end of the third horizontal transfer means (s12), by the fourth horizontal transfer means 116 is bent at a right angle to the horizontal transfer (s13, Fig. (Not shown), is dropped at the end of the fourth horizontal transfer means (s14), as shown in Figure 4, is transferred upward by the fourth inclined transfer means 118 (s15), Dropped at the upper end (s16), horizontally transferred by the fifth horizontal transfer means 120 (s17), dropped at the end of the fifth horizontal transfer means (s18), by the fifth inclined transfer means 122 After the inclined transfer (s19), the dropping is dropped at the upper end of the fifth inclined transfer means (s20), horizontally transferred by the sixth horizontal transfer means (124) (s21), and dropped at the end of the sixth horizontal transfer means (s22), after the inclined transfer by the sixth inclined transfer means 126 (s23), it is dropped at the upper end of the sixth inclined transfer means (s24), and is horizontally transferred by the seventh horizontal transfer means 128 (s25), and fall from the end of the seventh horizontal transfer means (s26), the direction is bent at a right angle by the eighth horizontal transfer means 116, the horizontal displacement And (s27, not shown), and the eighth will be at the falling edge of the horizontal transporting means is repeated (s28), it is returned again to the process s1 transfer cycle.

That is, in the present invention, a plurality of inclined transfer means (104, 108, 112) and a plurality of horizontal transfer means (106, 110, 114) are alternately arranged on one side of the processing chamber, a plurality of inclined transfer means (on the opposite side) 118, 122, 126 and a plurality of horizontal transfer means 120, 124, 128 are alternately arranged to form a group of transfer tanks, respectively, one of the transfer tanks (plural inclined transfer means 104, 108, 112 and a plurality of horizontal transfer means (106, 110, 114), food waste is transferred from one end of the processing chamber to the other end while inclined, horizontal, inclined, and horizontal, and the other feed tank (multiple inclined feeds). The means (118, 122, 126) and the plurality of horizontal transfer means (120, 124, 128) to move the food waste from the end of the processing chamber to the end in the opposite direction, each horizontal transfer means ( 116 and the horizontal conveying means 130 at right angles to the transport direction of food waste The food waste is repeatedly circulated and transported, so that a plurality of horizontal conveying means formed at the intermediate height of the inclined conveying means efficiently utilizes the middle height space but forms the maximum number of drops to maximize the given space. By making it possible to use efficiently, the processing apparatus of the same size ensures maximum processing efficiency.

On the other hand, as shown in Figures 2 and 5, a part of the conveying shaft of the plurality of horizontal conveying means is formed of a disintegrating screw 250 rather than a general conveying screw, so as to disintegrate food waste tightly during the conveyance. . Dismantling screw may be formed on all of the feed shaft (206, 210, 214, 216, 220, 224, 228, 230) constituting a plurality of horizontal transfer means, but is sufficient by being formed in some of them, the present invention is horizontal The case where the disintegration screw is formed in only part of the feed shaft is not excluded.

The present invention is a food waste processing apparatus that processes food waste in a chamber while constantly transporting food waste, wherein a plurality of inclined feed shafts and horizontal transfer shafts disposed between them are optimized to maximize the amount of food by maximizing a given space. Allows waste to be transported and disposed of, allowing for the most efficient food waste disposal compared to devices of a given size.

On the other hand, the present invention during the mixing, decomposition, drying, fermentation of the food waste is transported, the water content is reduced with the passage of a constant temperature and time, and the reduced to dry matter (food waste) are aggregated from each other from this time Because it takes a long time to process, a disintegration screw is installed on the horizontal feed shaft that can prevent this phenomenon, preventing food waste from being hardened by aggregating the food. The processing time is short and the quality condition of the dry matter (food waste) is also reduced. It has the effect of being excellent.

Claims (3)

delete delete In the food waste treatment apparatus for processing the food waste introduced into the processing chamber surrounded by the housing 100 by circulating the food waste in the processing chamber through a plurality of inclined transfer means and a plurality of horizontal transfer means, A plurality of inclined transfer means (104, 108, 112) and a plurality of horizontal transfer means (106, 110, 114) are alternately arranged on one side of the processing chamber, horizontal transfer directly below the upper end of each inclined transfer means One end of the means is formed to be disposed, food waste falling from the upper end of the inclined transfer means is formed to be horizontally transferred in the same direction as the horizontal component of the transfer direction of each inclined transfer means by the horizontal transfer means, On the other side of the processing chamber a plurality of inclined to transport food waste in a direction opposite to a series of transfer tank consisting of the plurality of inclined transfer means (104, 108, 112) and a plurality of horizontal transfer means (106, 110, 114) The transfer means 118, 122, 126 and the plurality of horizontal transfer means 120, 124, 128 are alternately arranged, and one end of the horizontal transfer means is disposed directly below the upper end of each inclined transfer means. The food waste falling from the upper end of the inclined conveying means is formed to be horizontally conveyed by the horizontal conveying means in the same direction as the horizontal component of the conveying direction of each inclined conveying means. Horizontal transfer means 116 and horizontal transfer means 130 are formed at both ends of the processing chamber to change the transport direction of food waste at right angles, respectively. The bottom of the transport screw is formed so that the housing bottom is in close proximity to the food waste is transported by the transport screw while the food waste is supported by the housing bottom of the transport screw, The screw is not formed at the upper end of the feed shaft of the inclined conveying means or the direction side of the conveying direction of the horizontal conveying means is formed so that food waste falls from this portion to the lower side, A portion of the conveyance shaft of the plurality of horizontal conveying means (106, 110, 114, 116, 120, 124, 128, 130) is formed with a conveying screw and a disintegrating screw is formed at a portion of the distal end side of the conveying direction. Characterized in that the food waste, which is agglomerated with each other while being conveyed by a screw, is formed to fall downward from the portion where the disintegrating screw is formed while being disintegrated and divided by the disintegrating screw. Food waste disposal device.

Images