JPH07236876A - Garbage treatment apparatus - Google Patents

Abstract

PURPOSE:To subject a large amt. of garbage to continuous fermentation treatment and to achieve the labor saving at an installation place by feeding the garbage in a feed bucket upwardly by a rotary lifter to charge the same in a garbage charging part and arranging the treatment tanks under a cushion hopper in a multistage fashion. CONSTITUTION:In order to rapidly and continuously treat a large amt. of garbage in a narrow space, this garbage treatment apparatus 1 is almost constituted of a plurality of feed buckets 2, 2, a bucket feed-in conveyor 3, a bucket feed conveyor 4, a rotary lifter 5, various treatment devices 10 consisting of cushion hopper 6/coarse grinding screw feeder 7/re-grinding tank 8/fermentation tank 9 arranged in a multistage fashion and a cover wall 11 covering all of these constitutional elements. Therefore, the treatment tanks under the cushion hopper 6 can be arranged in a multistage fashion and a large amt. of garbage can be subjected to continuous fermentation treatment and, therefore, the laber saving at an installation place can be achieved and the automation of the process from the charging of garbage to fermentation treatment is accelerated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a processing device for high-speed fermentation treatment of food waste, which is particularly used in a large-sized multi-layer system.
A large amount of raw garbage is continuously fed into the hopper's raw garbage feeding section by a rotary lifting device, and the raw garbage is crushed and crushed below the hopper. As a result, the present invention relates to a raw garbage processing apparatus that can reduce the floor space used and can continuously process a large amount of raw garbage that is continuously input.

[0002]

2. Description of the Related Art Conventionally, as a garbage disposal device for treating a large amount of garbage in a public facility such as a municipality, a large amount of garbage once stored in a large storage tank is grabbed by a grab provided at the tip of a crane. A type that is put into a hopper of a refuse processing device such as an incinerator is used. When this garbage incinerator is used, raw garbage is simply burned in the incinerator. In addition, when using the food waste fermentation treatment device, a relatively small food waste treatment device that is generally provided in a home or a kitchen of a dining room has been used. In this food waste processing apparatus, a fermenting material that ferments at a low temperature in a fermenter is generally used to ferment food garbage while mechanically stirring and crushing the raw garbage or mechanically stirring.

[0003]

Therefore, when using the conventional garbage processing apparatus, a large crane, a plurality of large processing tanks, a complicated operation mechanism, and a vast space are required. In addition, as mentioned above, in order to ferment the garbage in the kitchen for home use or in the cafeteria, etc., in order to promote the garbage treatment by stirring while heating in the fermenter or mixing the fermenting agent. Since the used garbage treatment equipment uses a fermenting material that ferments at low temperature, bacteria are likely to grow and there is a problem in hygiene.Because of the complicated mechanism, it can be used in public facilities. It was not until the development of large machines. Moreover, although efforts have been made for continuous fermentation treatment, it has not been possible to achieve a sufficient effect.

The present invention has been made in order to solve the above-mentioned problems, and its object is to enable a large amount of organic waste such as organic waste to be rapidly and continuously added and to be capable of performing no continuous fermentation treatment. Moreover, the three-dimensionally multi-layered treatment tank can save installation space,
Further, the present invention provides an apparatus for treating food waste which is capable of preventing bacterial growth and improving hygiene.

[0005]

In order to achieve the above object, in the invention described in "Claim 1", a bucket carry-in conveyor for carrying a carrying bucket in which raw garbage is stored and for carrying raw garbage. Garbage disposal provided with a rotary elevating device for gripping a grip portion provided on a bucket and vertically transporting the bucket, and a bucket unloading conveyor for unloading an empty transport bucket The apparatus has an opening for receiving raw dust discharged from the transporting bucket carried to the upper position by the lifting device, and a deodorizing air vent hole is separately provided, which serves as a raw dust input unit. A cushion hopper with a cushion member attached to the dust input path, and a cushion hopper disposed below the cushion hopper and discharged from the cushion hopper. A coarse crushing screw feeder that crushes coarse raw garbage, and a fermenting agent input port that accelerates fermentation at high temperatures and a deodorizing air vent hole are provided below the coarse crushing screw feeder. In addition, a stirrer for stirring raw garbage inside and a hot water bracket for warming the inside at the outer periphery are arranged, and a fermentation tank with a discharge port for discharging fermented raw garbage at the lower side And an intermittent rotation means that is connected to the rotary lifting device and that allows the rotary lifting device to rotate intermittently.

[0006]

According to the apparatus of the present invention having the above structure, the opening formed in the cushion hopper from the carrying bucket lifted by the rotary lifting device while intermittently rotating by the intermittent rotating means. The raw garbage thrown in is crushed into coarse pieces such as fish, birds, pigs, cow bones, etc. by a coarse crushing screw feeder arranged below the cushion hopper, and is placed in the fermentation tank below along with other raw garbage. The raw garbage inside is heated by a hot water bracket arranged on the outer periphery of the fermentation tank while being stirred by a stirrer inside the fermentation tank, and the fermented material is charged and stirred at a high temperature. Moreover, the transport device and the fermentation device itself, which are arranged in the process of processing garbage, are covered with the covering wall. The garbage introduced intermittently into the opening of the cushion hopper from the transport bucket transported by the rotary lifting device that rotates while rotating intermittently as described above is roughly crushed by the coarse crushing screw feeder. Is put into the fermenter. Since the rotary lifting device rotates intermittently in this way, the raw dust that is thrown into the opening of the cushion hopper is also intermittently thrown into the coarse crushing screw feeder that coarsely crushes the raw dust. Since there is no continuous load and no overload, the durability of the coarse crushing screw feeder is increased. The garbage thrown into the fermenter is heated to high temperature by the hot water of the hot water bracket covering the fermentor, stirred and crushed by the agitator inside the fermenter and fermented at high temperature, which prevents bacterial growth and keeps it hygienic. In addition to improving the surface, the amount of raw garbage is drastically reduced to about 1/10 or less at the end of the fermentation process compared to when it is put into the cushion hopper, enabling continuous feeding of raw garbage. . At this time, the bad odor is deodorized and processed through the deodorizing air vent holes formed in the upper part of the cushion hopper and the upper part of the fermentation tank, and the raw garbage fermented as described above is provided at the lower end of the fermentation tank. The fermented raw garbage that is discharged as fertilizer from the discharged outlet can be used as organic fertilizer. As described above, the garbage contained in the transport bucket is conveyed upward by the rotary type lifting device and is then thrown into the garbage throwing section, so that it is possible to install multiple treatment tanks below the cushion hopper. Therefore, since a large amount of raw garbage can be continuously fermented, labor saving of the installation place can be achieved. Further, it is possible to promote automation of the steps from the step of introducing the garbage into the opening of the cushion hopper to the fermentation processing.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the garbage processing apparatus according to the present invention will be described below with reference to the drawings. FIG. 1 is a vertical cross-sectional view showing the outline of the internal structure of the raw garbage processing apparatus of the present invention, FIG. 2 is a perspective view of a carrying bucket which is a storage container used in the raw garbage processing apparatus of the present invention, and FIG. The arrangement positions of the bucket carry-in conveyor and the bucket carry-out conveyor used for the invention garbage disposal device, and the installation position of the state where the installation positions of the first detection means and the second detection means face each other are set. FIG. 4 is a plan view of a main part showing the arrangement positions of the bucket carry-in conveyor and the bucket carry-out conveyor used in the garbage processing apparatus of the present invention, and the installation positions of the first detection means and the second detection means in parallel. FIG. 5 is a plan view of a main part showing the disposition position of the state provided in FIG. 5, FIG. 5 is a cross-sectional view of a gripping part used in the raw garbage processing apparatus of the present invention, and FIG. Enlarged vertical section showing the outline of the cushion hopper ,
FIG. 7 is an enlarged plan view showing a cushion member of the internal structure of the present invention garbage disposal device, and FIG. 8 is an internal structure of the inventive garbage disposal device from a three-dimensionally cushioned hopper to a fermentation tank. FIG. 9 is a vertical cross-sectional view showing the outline of FIG. 9, and FIG. 9 is a perspective view showing a usage state of the coarse crushing screw feeder.

As shown in FIG. 1, the apparatus 1 for treating garbage according to the present invention roughly comprises a plurality of transport buckets 2, 2 so that a large amount of garbage can be treated quickly and continuously in a narrow space. Bucket carry-in conveyor 3, bucket carry-out conveyor 4, rotary lifting device 5, multi-layered cushion hopper 6, coarse crushing screw feeder 7, (re-crushing tank 8), fermentation tank 9 Device 1
0, and a covering wall 11 that covers them.
In this food waste processing apparatus 1, a lid 2b is attached to the upper edge of the storage container body 2a as shown in FIG. 2 so as to be openable and closable, and handle portions 2c and 2c are provided on both sides of the upper side of the storage container body 2a. It also has a plurality of transport buckets 2 and 2. As shown in FIGS. 3 and 4, the bucket loading conveyor 3
Fall prevention members 3a, 3a on the carry-in and carry-out parts of the bucket and on the carry-in and carry-out parts of the bucket carry-out conveyor 4.
b, 4a, and 4b are formed. The bucket carrying-in conveyor 3 rotates when the carrying bucket 2 is placed on the placing part 3c so as to position the carrying bucket 2 arranged on the conveyor, and the carrying bucket 2 is carried to the carrying-out side. It is configured as an intermittent rotation type conveyor that is configured to stop when it comes into contact with the fall prevention member 3a and is connected to an intermittent rotation means (stepping motor or the like) not shown. A first detection unit 12 for detecting that the transport bucket 2 is transported to a predetermined position on the unloading side on the bucket transport conveyor 3 is formed. The first detecting means 1
2 is composed of a light emitting element 12a and a light receiving element 12b, and the light emitting element 12a and the light receiving element 12b may be opposed to both side portions on the carry-out side of the bucket loading conveyor 3 as shown in FIG. As shown in FIG. 4, it may be arranged in parallel with the one end side portion on the carry-out side or an integrated type may be used. As shown in FIG. 5, the first detection unit 12 is linked to the solenoid unit 13 via the first control unit 12c, and the solenoid unit 13 operates according to the detected signal. The solenoid portion 13 is composed of a solenoid 13a and a permanent magnet 13b, and transmits the signal detected by the first detection means 12 to the first control means 12c so that it operates under the control of the first control means 12c. It is formed at a predetermined position of the grip portion 14. The grip portion 14 is an arm 1 in which the mounting portion is rotatably mounted at predetermined intervals on the above-described rotary lifting device 5.
It is formed at the tip portions of 6 and 16. The rotary elevating device 5 intermittently rotates according to the mounting interval of the arms 16 and 16, and the bucket carry-in conveyor 3 and the bucket carry-out conveyor 4 also intermittently rotate in association with each other. The rotary lifting device 5, the bucket carry-in conveyor 3 and the bucket carry-out conveyor 4 are linked so as to interlock with each other, and as described above, the intermittent rotary rotary type linked with the stepping motor. Lifting device 5
Is. As shown in FIG. 1, the discharge locking member 17 is
At the upper end of the rotary lifting device 5, the rotary lifting device 5
Of the plurality of arms 1 arranged to face each other in the transport direction of
When it comes into contact with the carrying bucket 2 that has been suspended and carried by 6, 6, the carrying bucket 2 is inverted and the carrying bucket 2
It is provided to discharge the garbage inside. The second detecting means 18 is composed of the light emitting element 18a and the light receiving element 18b, like the first detecting means 12 described above, and the light emitting element 18a and the light receiving element 18b are also the second light detecting element 18a as shown in FIG.
It may be opposed to both sides of the tip of the bucket transporting conveyor 4, or may be juxtaposed on one end side as shown in FIG. The second detecting means 18 is connected to the solenoid section 13, and when detecting that the empty carrying bucket 2 has been carried onto the carry-in section of the bucket carrying conveyor 4, the solenoid section 13 operates and 2 is transmitted to the control means 18c, and the handle portions 2c of the transport buckets 2 and 2 are transmitted.
Open up.

The raw dust discharged from the transporting bucket 2 which has been inverted as shown in FIG. 6 is thrown into the opening 6a formed on the upper end side of the cushion hopper 6. A cushion member 6c is attached to the raw dust input path 6 which serves as the raw dust input portion 6b of the cushion hopper 6, and a deodorizing air vent hole 6d is formed in an upper portion of the cushion hopper 6. (See an enlarged plan view of the main part of the cushion member 6c in FIG. 7) A coarse crushing screw feeder 7 is disposed below the cushion hopper 6, and the raw trash discharged from the cushion hopper 6, such as the bones of birds and animal fish, is removed. Coarse raw garbage is roughly crushed to reduce the amount. FIG. 9 shows a state in which coarse garbage such as bones of birds and beast fish is roughly crushed by the coarse crushing screw feeder 7. A re-crushing tank 8 having a re-crushing crusher 8a built therein is disposed below the coarse crushing screw feeder 7, and the raw garbage is crushed and crushed again, and then discharged to the fermentation layer 9 described above, and further the raw garbage is further discharged. Promote weight loss. When the fermenting agent input port 8b is formed in the upper part of the re-crushing tank 8 and the fermenting agent is input from the fermenting agent input port 8b,
When the garbage is crushed and crushed again, it mixes with the garbage and promotes fermentation. In FIG. 1, the crusher 8a for re-crushing
Is shown in a shape in which a plurality of blades are provided so as to project from the shaft in the radial direction, and in FIGS. 8 and 9, the crusher 8 for re-crushing is shown.
a is indicated by a screw feeder, and the re-crushing crusher 8a is not limited to those two examples. A fermentation tank 9 is arranged below the re-crushing tank 8, an agitator 9a is formed inside the fermentation tank 9, and a hot water bracket 9b is formed on the outer circumference of the fermentation tank 9. In the fermenter 9, while the raw garbage inside is heated by the warm water of the hot water bracket 9b covering the fermenter 9, the raw garbage is stirred by the stirrer 9a together with the fermenting agent charged from the fermenting agent charging port 8b, and rapidly at high temperature. Fermented to. Furthermore, deodorizing air vent hole 9c
Is pierced in the upper part of the fermenter 9 to discharge the dirty odor. The above-mentioned fermenting agent inlet 8b may be formed above the fermenter 9. On the lower side of the fermentation tank 9, an openable / closable discharge port 9d for discharging the fermented food is formed. Next, a bucket unloading conveyor 4 for transporting the plurality of transport buckets 2, 2 as shown in FIG. 1 to the lower portion of the rotary lifting device 5 is arranged. The carrying bucket 2 carried by the rotary lifting device 5 on the bucket carrying conveyor 4
Is placed and is rotated in connection with the bucket loading conveyor 3, and is stopped when the transporting bucket 2 is transported to the unloading side and comes into contact with the fall prevention member 4b. It is formed as an intermittent rotation type conveyor 3 connected to a means (stepping motor, etc.). The bucket carry-in conveyor 3, the bucket carry-out conveyor 4, and the rotary lifting device 5 are connected to the intermittent rotation means controlled by the CPU, and intermittently rotate under the control of the CPU. As shown in FIG. 3, the carry-in part of the bucket carry-out conveyor 4 is arranged adjacent to the carry-out side of the bucket carry-in conveyor 3, and the bucket carry-out conveyor 4 sets the empty carry buckets 2 and 2 in a predetermined manner. It is arranged to be transported to a position. The bucket unloading conveyor 4 also rotates when the transporting bucket 2 is transported by the rotary lifting device 5 and placed on the loading side of the bucket unloading conveyor 4, as will be described later. Is an intermittent rotation type conveyor linked to a stepping motor configured to be stopped when it is conveyed to the unloading side of the bucket unloading conveyor 4 and comes into contact with the fall prevention member 4b. The garbage processing device having the above-described configuration is covered with a cover wall 11.

The operation of the food waste processing apparatus 1 of the present invention having such a configuration will be described. First, raw garbage is stored in a plurality of transfer buckets 2, 2 and is placed on a positioning table on the bucket carry-in conveyor 3 and carried in order to the carry-out side. The sheet 6 is conveyed to an upper portion of the opening 6a formed on the upper end side of the sheet 6. The transporting buckets 2 sequentially transported in this way are turned over and the garbage inside is thrown into the opening 6a of the cushion hopper 6. The raw dust thrown into the opening 6a from the transport bucket 2 is stored inside the cushion member 6c.
It hits and is stored in the cushion hopper 6. Since the cushion member 6c is provided, it is possible to prevent the introduced garbage from directly hitting the coarse crushing screw feeder 7 which will be described later and breaking the coarse crushing screw feeder 7. The malodor emitted at this time is deodorized by the deodorizing air vent hole 6d formed in the upper portion of the cushion hopper 6. The raw garbage stored in the cushion hopper 6 is sequentially sent to a coarse crushing screw feeder 7 disposed below the cushion hopper 6, and coarse raw garbage such as bones of birds and animals is roughly crushed among the raw garbage. The volume of garbage is reduced. As described above, the bucket carry-in conveyor 3, the bucket carry-out conveyor 4, and the rotary lifting device 5 are connected to the intermittent rotation means controlled by the CPU, and are intermittently operated in cooperation with each other under the control of the CPU. Since it is rotating, garbage is also thrown in intermittently. Therefore, the coarse crushing screw feeder 7 does not become overloaded because it is not continuously input because it is intermittently input even if hard and large raw garbage such as bones of birds and animals are thrown in, and it is safe and has a long service life. It also reduced running costs for a long time. The coarsely crushed raw garbage is further crushed by a crusher 8 for re-crushing in a re-crushing tank 8 disposed below the screw feeder 7 for coarse crushing.
It is crushed and crushed again by a to further reduce the volume of raw garbage, and then discharged to the fermentation layer 9. A fermenting agent input port 8b is formed in the upper part of the re-crushing tank 8, and when the fermenting agent is input from the fermenting agent input port 8b, when the garbage is crushed and crushed again, it is mixed with the garbage and promotes fermentation. This will further promote the reduction of garbage. The raw waste thus discharged from the re-crushing tank 8 is fermented in the fermentation tank 9 arranged below the re-crushing tank 8. At this time, the stirrer 9a is provided inside the fermenter 9, and the hot water bracket 9 is provided at the outer periphery of the fermenter 9.
b is formed and is heated by the hot water of the hot water bracket 9b which covers the fermenter 9 while being stirred by the stirrer 9a, and the fermenting agent promotes the fermentation of the garbage at a high temperature. The raw garbage is stirred in the fermenter 9 to further reduce its volume, and is appropriately dried by heat sterilization with a hot water bracket 9b to 60 ° C or higher (most bacteria die at 60 ° C). Initially, the volume is reduced to about 1/10 or less of that at the time of charging the opening 6a of the cushion hopper 6. Further, a deodorizing air vent hole 9c is provided in the upper part of the fermentation tank 9 to discharge the dirty odor. The above-mentioned fermenting agent inlet 8b may be formed above the fermenter 9. The fermented raw garbage, which has been fermented as described above, is discharged from the openable / closable discharge port 9d formed in the lower portion of the fermentation tank 9. On the other hand, the transporting bucket 2 that has been emptied by discharging the garbage is transported by the rotary lifting device 5 and is transported to the unloading side on the bucket unloading conveyor 4. Since the garbage disposal device 1 has the above-described configuration, the transport bucket 2 in which the garbage is stored is conveyed upward by the rotary lifting device 5 that rotates intermittently, and the opening 6a of the cushion hopper 6 is conveyed. Even if it is charged into the, the screw feeder 7 for coarse crushing is not overloaded. In addition, a cushion hopper 6 or less coarse crushing screw feeder 7, a re-crushing tank 8, and a fermentation layer (a plurality of fermentation layers may be laminated, multi-layered or in parallel) 9 are arranged three-dimensionally or in multiple layers. Since it was installed, a garbage processing device that can continuously ferment a large amount of garbage even in a narrow space was obtained.

[0011]

According to the garbage disposal of the present invention having the above-mentioned structure, the transport bucket raised by the rotary lifting device while intermittently rotating by the intermittent rotating means. Raw garbage thrown into the opening formed in the cushion hopper is fed to the fish feeder, bird, pork, etc. by the coarse crushing screw feeder installed below the cushion hopper.
Coarse materials such as beef bones are crushed and put into a fermenter placed below along with other raw garbage, and while stirring with a stirrer inside the fermenter, raw garbage inside with a hot water bracket placed on the outer periphery of the fermenter Is fermented at a high temperature with a fermented material that is added while being heated and stirred. Moreover, the transport device and the fermentation device itself, which are arranged in the process of processing garbage, are covered with the covering wall. The garbage introduced intermittently into the opening of the cushion hopper from the transport bucket transported by the rotary lifting device that rotates while rotating intermittently as described above is roughly crushed by the coarse crushing screw feeder. Is put into the fermenter. Since the rotary lifting device rotates intermittently in this way, the raw dust that is thrown into the opening of the cushion hopper is also intermittently thrown into the coarse crushing screw feeder that coarsely crushes the raw dust. Since there is no continuous load and no overload, the durability of the coarse crushing screw feeder is increased. The garbage put in the fermenter is heated to a high temperature by the hot water of the hot water bracket covering the fermentor, stirred and crushed by the stirrer inside the fermenter and fermented at a high temperature, which prevents the growth of bacteria and is hygienic. The amount of raw garbage is about 1 at the end of the fermentation process compared to when it is put into the cushion hopper because the surface is improved and it is repeatedly stirred and crushed.
It has been drastically reduced to / 10 or less, making it possible to continuously feed garbage.
At this time, the bad odor is deodorized and processed through the deodorizing air vent holes formed in the upper part of the cushion hopper and the upper part of the fermentation tank, and the raw garbage fermented as described above is
The fermented raw garbage, which is discharged as fertilizer from the discharge port provided at the lower end of the fermenter, can be used as organic fertilizer. As described above, the garbage contained in the transport bucket is conveyed upward by the rotary type lifting device and is then thrown into the garbage throwing section, so that it is possible to install multiple treatment tanks below the cushion hopper. Therefore, since a large amount of raw garbage can be continuously fermented, labor saving of the installation place can be achieved. Therefore, automation of the steps from the step of introducing the garbage into the opening of the cushion hopper up to the fermentation process is promoted.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view showing the outline of the internal structure of the garbage disposal of the present invention,

FIG. 2 is a perspective view of a carrying bucket which is a storage container used in the garbage disposal of the present invention;

FIG. 3 is a view showing the arrangement positions of the bucket carry-in conveyor and the bucket carry-out conveyor used in the garbage processing apparatus of the present invention, and the installation positions of the first detection means and the second detection means, which are provided to face each other. A plan view of the main parts showing the arrangement position in the closed state,

FIG. 4 is a view showing the arrangement positions of the bucket loading conveyor and the bucket unloading conveyor used in the garbage processing apparatus of the present invention, and the installation positions of the first detection means and the second detection means arranged in parallel. A plan view of the main parts showing the arrangement position in the closed state,

FIG. 5 is a cross-sectional view of a grip portion used in the garbage processing device of the present invention,

FIG. 6 is an enlarged longitudinal sectional view of an essential part showing an outline of a cushion hopper having an internal structure of the garbage disposal of the present invention;

FIG. 7 is an enlarged plan view showing a cushion member of the internal structure of the garbage disposal of the present invention,

FIG. 8 is a vertical cross-sectional view showing the outline of the internal structure from the cushion hopper, which is three-dimensionally made into multiple tanks, to the fermentation tank of the garbage disposal device of the present invention,

FIG. 9 is a perspective view showing a usage state of the coarse crushing screw feeder.

[Explanation of symbols]

1 ... Garbage Disposal Device, 2 ... Transport Bucket, 2a .... Storage Container Main Body, 2b .... Openable / Closable Lid, 2c ... Both Sides of Upper Side Handle part of 3 ... Conveyor for carrying in bucket, 3a. ... Fall prevention member, 3b ... Fall prevention member, 4 ... Bucket unloading conveyor, 4a ... Fall prevention member, 4b ... Fall prevention member, 5 ...・ Rotary lifting device, 6 ・ ・ ・ Cushion hopper, 6a ・ ・ ・ ・ Opening part, 6b ・ ・ ・ ・ Raw garbage input part, 6c ・ ・ ・ ・ ・ ・ Cushion member, 6d ・ ・ ・ ・ Deodorizing air Venting hole 7 ... Coarse crushing screw feeder, 8 ... Re-crushing tank, 8a ...- Re-crushing crusher and re-crushing screw feeder 8b ... Fermenting agent input port, 9 ... Fermenter, 9a ... Stirrer, 9b ... Hot water bracket, 9c ... Deodorization air vent hole 9d ... Fermentation-processed raw garbage discharge port 10 ... .Various processing devices, 12c ... first control means,

Claims (1)

[Claims] 1. A bucket carry-in conveyor for carrying a carrying bucket containing raw garbage and a gripping portion provided on the carrying bucket for carrying the raw garbage to enable the bucket to be carried in the vertical direction. In a raw garbage processing device provided with a rotary lifting device for carrying out and a bucket carrying-out conveyor for carrying out an empty carrying bucket, the garbage is discharged from the carrying bucket carried to the upper position by the lifting device. A cushion hopper that has an opening for receiving raw garbage, a deodorizing air vent hole is separately provided, and a cushion member is attached to the raw garbage input path that serves as the raw garbage input section, and below the cushion hopper. A screw feeder for coarse crushing, in which coarse garbage is crushed among the garbage discharged from the cushion hopper. , Which is provided below the screw feeder for coarse crushing, has an inlet for fermenting material that promotes fermentation at high temperature and an air vent for deodorization, and has a stirrer for stirring garbage inside and an inside for outer circumference A hot water bracket for warming the fermenter is provided, and a fermentation tank with a discharge port for discharging fermented raw garbage is formed on the lower side, and the rotary lifting device linked to the rotary lifting device. An apparatus for disposing food waste, comprising: