JP3975286B2 - Stirring blade and garbage processing equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a stirring blade, a garbage processing apparatus and a garbage processing method using the stirring blade.
[0002]
[Prior art]
Garbage processing equipment that composts and processes garbage such as leftover food and side meal residues has attracted attention, and since it is easy to reduce the size, a garbage processing apparatus that has a stirring mechanism in the device and promotes fermentation and decomposition Has been developed.
For example, in a vertical fermenter having a porous floor plate, an arm of a stirring blade is attached to the stirring shaft so that a gap between the porous floor plate and the porous floor plate becomes large, and the pores of the porous floor plate are blocked by deposits. A household garbage composting apparatus (No. 7-31835) for composting deposits in the fermenter while preventing sedimentation, and a rotating shaft is provided horizontally at the bottom of the storage container. A garbage processing apparatus (Japanese Patent Laid-Open No. 8-47680) that includes a stirring blade that is imparted with a twist and extends in the radial direction, and that sequentially rotates the stirring blade in the forward and reverse directions to compost garbage. It has been known.
[0003]
[Problems to be solved by the invention]
However, conventional garbage processing devices require fermentation-promoting materials for fermentation, or require separate crushing devices to promote fermentation, and can be fermented and decomposed in a short time. Cannot be promoted, and sufficient miniaturization cannot be achieved. If it cannot be fermented / decomposed in a short time, it will not be possible to dispose of the garbage generated during the day's business at small-scale restaurants, restaurants, restaurants, etc., and the recycling of garbage will be efficient. Cannot be done.
Furthermore, most of the conventional garbage processing apparatuses require an external heating device in order to maintain the fermentation / decomposition conditions, and there is a problem that energy saving cannot be achieved.
[0004]
The present invention has been made to cope with such a problem, and is a stirring blade capable of processing garbage in a short time, and an energy-saving garbage that does not require an external heating device using the stirring blade. It aims at providing a processing device and a garbage disposal method.
[0005]
[Means for Solving the Problems]
The invention according to claim 1 is a stirring blade that is attached to a rotating shaft disposed inside the object to be stirred to process the object to be stirred, and the stirring blade is continuous from the front part of the blade to the rear part of the blade. Semicircular One blade, the front part of the blade has a flat plate shape, the peripheral edge of the flat blade surface is formed by a curve that increases the radius of curvature from the rotating shaft mounting part, and the curved plate shape has a curved rear part of the blade. The edge of the blade surface of , A curve having a concave shape with respect to the rear part of the blade from an arc of a predetermined length having the same radius as the maximum curvature radius in the front part of the blade It is formed by the line segment which passes through to a rotating shaft attachment part, It is characterized by the above-mentioned. Here, the blade front portion of the stirring blade refers to a portion that first contacts the object to be stirred by the rotation of the rotation shaft.
[0006]
By making the shape of the stirring blade a single semicircular blade having the above shape, for example, an object to be stirred such as garbage can be crushed at the front portion of the blade while being pumped in a predetermined direction at the rear portion of the blade. In particular, by making the blade front part into a flat plate shape, the attachment angle of the blade front part can be easily attached substantially perpendicular to the rotation axis direction and perpendicular to the rotation axis. As a result, the crushing force acts efficiently in the crushing direction of raw garbage and the like and can be easily crushed in a short time. Moreover, by making the blade rear part into a curved plate shape curved from the blade front part, the crushed object to be stirred can be pumped in a predetermined direction while stirring. Furthermore, by forming the peripheral edge of the blade surface at the front end of the blade front with a curve that increases the radius of curvature from the rotating shaft mounting portion, it is possible to prevent the fibrous material in the garbage from adhering to the blade edge and the blade surface. For this reason, it can fully stir and can pump easily.
[0007]
According to a second aspect of the present invention, there is provided a garbage processing apparatus in which a processing container and a rotating shaft having a plurality of stirring blades attached to the inside of the processing container are disposed. A plurality of stirring blades, each of which is a stirring blade, and is attached at a predetermined interval from one end to the other end of the rotating shaft, with a plurality of stirring blades attached at a right angle to the rotating shaft direction. And at the other end, at least one of the stirring blades is opposite to the plurality of stirring blades on the rotating shaft. Furthermore, by providing a curved flap that is attached and rises from the other end, the moving direction of the processed material is changed by the agitating blade and the flap in the opposite direction and circulated. It is characterized by that. By using the stirring blade of the present invention, the garbage can be crushed, pumped, and stirred at the same time, and at least one stirring blade is attached to the end of the rotating shaft in the opposite direction to be pumped in one direction. Since the garbage etc. is reversed by the action of the stirring blade attached in the opposite direction at the end, mixing and stirring of the garbage etc. is automatically performed only by the rotation of the stirring blade. Furthermore, due to the pressure-feeding action of the garbage, the garbage is likely to be compressed and fermented, and heat is easily generated.
[0008]
the above The garbage processing apparatus is characterized in that a rotating shaft to which a stirring blade is attached is disposed at the bottom of the processing container, and is a parallel twin shaft capable of pressure-feeding garbage and its processed material in the same direction. By arranging two rotating shafts in parallel at the bottom of the processing vessel, mixing, stirring, and pressure feeding of garbage etc. is made easier. In particular, mixing and stirring of garbage and the like becomes more efficient by setting the rotation directions of the respective rotary shafts in parallel two axes to be different directions.
[0009]
the above The garbage processing apparatus further includes a gas-liquid separation device that has a vent hole in the upper portion of the processing container and communicates with the vent hole. A gas containing a large amount of water vapor generated by fermentation of raw garbage can be exhausted from the vent hole, and moisture can be separated by a gas-liquid separator. In addition, by providing two vent holes, one of which is an exhaust hole and the other is a dry gas supply hole, it is possible to circulate the dry gas through the gas-liquid separator into the processing vessel, and to adjust the temperature and humidity. And an energy-saving type garbage disposal apparatus can be obtained.
[0010]
About garbage disposal method Is a heating process for heating the garbage and its processed product by crushing the garbage in a predetermined direction while crushing the garbage in the processing container, and a stirring process for circulating and stirring the heated garbage and its processed product. A garbage disposal method comprising a gas-liquid separation step of cooling and separating the generated vaporized material, wherein the heating step and the stirring step are performed by the stirring blade attached to the rotating shaft in the processing container. It is characterized by that. By using the stirring blades of the present invention, the raw garbage is crushed and fermented while being mixed and stirred. As a result, composting of garbage can be easily performed in a short time.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
A stirring blade according to the present invention will be described with reference to FIG. Fig.1 (a) is a front view of the stirring blade fixed to the rotating shaft, and FIG.1 (b) is a top view. A semicircular stirring blade 1 is fixed to the rotary shaft 2 as viewed from the front. The stirring blade 1 continuously changes from the blade front portion 1a to the blade rear portion 1b. Semicircular The blade is a single blade, and the material to be stirred is crushed by the blade front portion 1a and pumped while being mixed by the blade rear portion 1b. The blade front portion 1a has a flat plate shape, and the peripheral edge 1c of the blade surface is formed by a curve that gradually increases the radius of curvature from the rotating shaft mounting portion 1d, that is, a curve that increases the distance from the center of the rotating shaft 2. By making the blade front part 1a into a flat plate shape, the stirring blade can be attached perpendicularly to the axial direction of the rotation shaft, and preferably perpendicular to the rotation shaft. By making the blade front part 1a into this shape, it is possible to prevent the fibrous material from being wound around the rotating shaft 2 or adhering to the stirring blade 1 when the garbage is crushed. Moreover, it is preferable to form the front-end | tip 1e of the blade | wing front part 1a in a cross-sectional acute angle. By setting the cross section to an acute angle, raw garbage can be more easily crushed. In the present invention, the fact that the blade front part 1a has a flat plate shape means that at least the vicinity of the peripheral edge 1c of the blade surface is formed in a flat plate shape.
[0012]
The blade rear part 1b has a curved curved plate shape, and is formed by a line segment in which the peripheral edge 1f of the blade surface extends from the peripheral edge 1c of the blade front part 1a through a predetermined arc length to the rotating shaft attaching part. The peripheral edge 1f is formed by an arc 1g having a predetermined length and a curved line 1h having a concave shape with respect to the blade rear portion 1b. The arc 1g is preferably formed with a radial length at the end of the peripheral edge 1c of the blade surface. In addition, by forming the entire blade rear portion 1b in a wedge shape, mixing and stirring of garbage and the like can be facilitated, and adhesion of garbage and the like to the blade rear portion 1b can be prevented.
[0013]
The curved shape of the blade rear portion 1b may be any shape that can be pumped while mixing and stirring the garbage and its processed product in a predetermined direction. Examples of the curved shape include the following aspects. A) The blade front portion 1a attached perpendicularly to the axial direction of the rotating shaft and preferably perpendicular to the rotating shaft is curved while maintaining its fixation. The bending direction is a direction that moves forward with respect to the direction in which the garbage and the processed product are pumped. B) A shape similar to one blade of a propeller-type stirring blade, which is twisted and curved from the blade front portion 1a. The bending direction is the same as (a). C) In FIG. 1 (a), a line segment extending from the substantially axial center of the rotating shaft 2 to the front part on the peripheral edge 1c side of the arc 1g is curved in a cylindrical shape. By this method, the vicinity of the peripheral edge 1c of the blade front part is formed in a flat plate shape. Further, similar to the curved shape, d) the blade rear portion 1b can be formed linearly with a predetermined advance angle and / or twist angle with respect to the blade front portion 1a.
In the present invention, as shown in FIG. 1, it is effective to form the blade rear part 1b in a shape that is twisted and curved to effectively feed the garbage and its processed material while mixing and stirring, and a preferable curve. Shape.
[0014]
The stirring blade of the present invention is suitable for a garbage disposal apparatus because it can efficiently perform mixing and stirring and pumping while crushing the material to be stirred. Moreover, it can be used for mixing and stirring powder materials and high-viscosity products, and mixing and stirring involving chemical reactions.
[0015]
A dust disposal apparatus using the stirring blade will be described with reference to FIG. FIG. 2 shows an example of a dust disposal apparatus having two rotating shafts and a gas-liquid separation device. FIG. 2A is a sectional view of the rotating shaft viewed from the axial direction, and FIG. It is sectional drawing.
The processing vessel 3 includes a rectangular outer casing 7, a reaction tank 4 provided with a plurality of stirring shafts 1, 2 with a plurality of stirring blades 1 attached inside the outer casing 7, and a reaction tank 4. An attached gas-liquid separator 5 and a driving device such as a stirring motor 6 for rotating the rotating shaft 2 are provided.
At the upper part of the external housing 7, a garbage input lid 10 a that is rotatably attached is provided so as to seal the upper part of the garbage input port 10. Moreover, it is preferable to cover the periphery of the external housing 7 with a heat insulating material.
The reaction tank 4 is composed of a stirring unit 4a for mixing, stirring, and pressure-feeding raw garbage and its processed product to the bottom and a circulation unit 4b formed on the top thereof.
[0016]
The stirring unit 4a is formed at the bottom of the reaction vessel 4 in a semi-cylindrical shape so that the stirring blade 1 can rotate, and the two semi-cylindrical shapes are connected in the direction of the cylindrical axis. Two rotating shafts 2 and 2 are arranged in each part. A plurality of stirring blades 1 are attached to the rotating shaft 2 at predetermined intervals. The stirring blade 1 is attached and fixed with the attachment angle of the blade front portion 1 a perpendicular to the axial direction of the rotary shaft 2. The right angle includes an allowable angle range as long as the object to be stirred such as garbage can be crushed. Further, it is preferable that the blade front part 1 a is attached and fixed so that the surface of the blade front part 1 a is perpendicular to the rotating shaft 2. By attaching the blade front part 1a at a right angle to the axial direction and perpendicularly, a force is applied at a right angle to the crushing direction, so that the garbage can be crushed most efficiently.
The plurality of agitation blades 1 are positions at which the semicircular single blades are axially symmetric with respect to one rotation axis, and are fixed at substantially the same interval in the axial direction. The relative attachment positions of the stirring blades 1 on the two rotating shafts are attached so that the stirring blades attached to one rotating shaft are between the stirring blades attached to the other rotating shaft.
[0017]
For example, as shown in FIG. 2B, the stirring blade 1 can feed the garbage and its processed material from one end 2a of the rotating shaft 2 toward the other end 2b (B direction in FIG. 2B). Are attached to the rotary shaft 2 so that at least one stirring blade 1i can be pumped in the opposite direction, that is, the garbage and its processed product in the opposite direction at the other end 2b of the rotary shaft. ing. The number of the stirring blades 1i is preferably one for one rotating shaft. With one stirring blade attached in the opposite direction, the object to be stirred pumped in the direction B in FIG. 2B can be reversed.
[0018]
In order to pressure-feed garbage etc. in a predetermined direction, it is necessary to set the mounting state of the stirring blade 1 and the rotation direction of the rotary shaft 2.
In the present invention, the rotating shaft is rotated in a direction in which raw garbage can be crushed by the blade front part 1a. Moreover, the curved surface of the blade | wing rear part 1b is set in the direction which advances with respect to the direction (B direction shown in FIG.2 (b)) which pumps the shredded garbage etc. by the rotation. As a most preferable example, in the case of a garbage disposal apparatus having two parallel rotation axes, as shown in FIG. 2A, the rotation directions of the rotation axes 2 and 2 are respectively outward (see FIG. The stirring blade 1 is attached and fixed so as to be in the D and D directions shown in 2 (a). Accordingly, the plurality of stirring blades 1 that are respectively attached to the parallel biaxial rotating shafts 2 and 2 have blade front portions 1a attached in opposite directions. In addition, when rotating the parallel biaxial rotating shafts 2 and 2 in the same direction, the blade | wing front part 1a is attached to the mutually same direction. In the present invention, the rotation axis disposed in the stirring unit 4a is preferably a parallel biaxial axis, but can be uniaxial or triaxial or more.
[0019]
One stirring blade 1i is attached in the opposite direction at the other end 2b of the rotating shaft to which the plurality of stirring blades are attached. The stirring blade 1i changes the moving direction of garbage etc. sent to the other end 2b of the rotating shaft upward, so that the garbage etc. is automatically circulated in the reaction tank (FIG. 2B). C direction). This circulation becomes more efficient with the provision of the flaps 9.
[0020]
The circulation part 4b has a substantially cubic space in which the garbage and the processed product can be sufficiently circulated, and the side wall surface 4c is inclined inward by a predetermined angle θ from the vertical surface. This angle θ increases the compression heat at the time of rising in the stirring and circulation of the garbage and its processed product, and prevents the agglomeration around the stirring blade 1 in the stirring portion 4a by preventing agglomeration at the time of lowering. By setting the angle θ to 3 to 5 °, the stirring and circulation of the garbage and the processed product are smoothly performed. Further, in order to assist the circulation of garbage etc., a flap 9 rising from one end of the rotating shaft and curved is provided in the circulation part 4b. Further, the corner portion of the substantially cube in the reaction tank 4 is formed with a curve with a predetermined radius of curvature, so that the stirring and circulation of the garbage and the processed product can be performed more smoothly.
[0021]
A ventilation hole 8 including an exhaust hole 8 a and a dry air supply hole 8 b is provided in the upper part of the circulation part 4 b and communicates with the gas-liquid separator 5. As the gas-liquid separator 5, any gas-liquid separator having a function of separating condensed water by cooling a gas containing saturated steam at a high temperature can be used. For example, a vehicle radiator can be used.
The garbage thrown into the reaction tank 4 is crushed, mixed and pumped by the stirring unit 4a, and circulates again to the stirring unit 4a through the circulation unit 4b. In this process, the garbage undergoes a fermentation reaction and composting proceeds. Due to the exothermic effect of this fermentation reaction, moisture contained in the garbage is gasified. Moreover, carbon dioxide gas etc. are also produced by the fermentation reaction.
[0022]
These generated substances such as moisture are guided to the gas-liquid separator 5 from the exhaust hole 8a to perform gas-liquid separation. Introduction of air containing saturated water vapor into the gas-liquid separator 5 and resupply of low-temperature dry air to the reaction tank 4 are performed by a dehumidifying motor 5a. Circulation of the cooling liquid in the gas-liquid separator 5 is performed by operating the cooling motor 5b. The separated water is stored in a predetermined container 5c, and the cooled gas is returned to the reaction tank 4 again from the dry air supply hole 8b. The high-temperature gas containing saturated water vapor introduced to the gas-liquid separator 5 is cooled below its dew point, so that the moisture is separated and the dried low-temperature dry air and the air immediately after being exhausted from the exhaust hole 8a. Become. For this reason, by adjusting the operation of the dehumidifying motor 5a and the gas-liquid separator 5, the moisture content and temperature of the garbage and its processed products, and the humidity in the reaction tank can be adjusted, and the garbage fermentation reaction. Can be optimized.
[0023]
The garbage processing apparatus of the present invention is mainly based on the on / off control of the stirring blade of the stirring unit 4a provided at the lower part in the reaction tank 4, the dehumidifying motor 5a, and the cooling motor 5b for controlling the temperature of the gas-liquid separator 5. The raw garbage thrown into the reaction tank can be treated. Since a heating device for promoting fermentation, which is provided in a conventional garbage fermenter or the like, is not required, energy saving can be achieved. In particular, by using the stirring blade of the present invention, crushing, mixing, and stirring can be performed efficiently, so that a fermentation reaction of garbage occurs in a short time. Further, since no external heating device is used, further energy saving can be achieved.
[0024]
The processing operation of the garbage processing apparatus of the present invention will be described with reference to FIG. FIG. 3 is a block diagram of the garbage processing apparatus.
The garbage processing apparatus includes a stirring motor 6 for crushing, mixing, pumping, and mixing garbage to maintain a fermentation reaction and a decomposition reaction, and a dehumidification motor 5a and a cooling motor 5b for operating the gas-liquid separation device 5. And. Here, the dehumidifying motor 5a is a motor for operating an intake / exhaust pump that adjusts the amount of air flowing in and out of the vent hole 8, and the cooling motor 5b is operating a pump that adjusts the amount of cooling water supplied to the gas-liquid separator 5 It is a motor for making it.
The agitation motor 6 is operated by the current supplied from the power supply 11 through the electromagnetic switch 12 to which the protection circuit 12a, malfunction, heating prevention and overcurrent prevention circuit 12b are connected. The operation of the stirring motor 6 is controlled by connecting the temperature sensor 15 and the operation time setting timer 14 to the electromagnetic switch 12 via the relay 16. This control is started and stopped by the start switch 13.
The dehumidifying motor 5a is controlled in substantially the same manner as the stirring motor 6. The cooling motor 5 b is directly controlled by the operation of the temperature sensor 15.
By using such a block diagram, for example, about 20 kg of garbage with a water content of about 80% by weight can be composted in about 6 hours using a three-phase 200V, about 2.2 KW stirring motor 6. .
[0025]
The garbage disposal method using the garbage disposal apparatus of this invention is demonstrated. Note that the garbage processing apparatus has a reaction tank volume of about 200 liters, and has two parallel rotating shafts rotating outward at the bottom, and five stirring blades are spaced apart from each other. 4 of them are attached in the same direction and one of the shaft ends is attached in the opposite direction. The maximum radius of the stirring blade is about 100mm.
[0026]
About 20kg of garbage generated at small restaurants is introduced from the garbage input 10. A predetermined amount of a processing residue containing a large amount of microorganisms that has been composted on the previous day with raw garbage is simultaneously added. In place of the treatment residue, useful microorganisms such as bacteria, actinomycetes and filamentous fungi may be added. The agitation motor 6 starts operating by closing the garbage input 10 and turning on the start switch 13 to turn on the power. The thrown-in garbage is mixed and pumped in the direction B in FIG. 2B by the curved portion at the rear of the blade while being crushed at the front portion of the stirring blade. The garbage sent to the other end is pushed upward by the action of the stirring blade 1i attached in the opposite direction, rises along the flap 9, and circulates in the reaction tank in the direction C in FIG. 2 (b).・ Stir.
[0027]
Composting of garbage uses the fermentation action by microorganisms or the action of enzymes secreted by these microorganisms. The fermentation reaction is efficient with respect to temperature, moisture, humidity, oxygen amount, etc., which are indicators of the amount of heat generated in the reaction tank. It needs to be adjusted to go well.
In the present invention, the input garbage is mixed and pumped while being crushed at the bottom of the reaction tank, so that the garbage and the microorganism are sufficiently mixed. Furthermore, since the circulation is repeated while oxygen is supplied in contact with air at the upper part of the reaction tank having sufficient space, the fermentation reaction easily occurs. As a result, the fermentation reaction of garbage can be performed by stirring with the stirring blade of the present invention.
[0028]
FIG. 4 shows the relationship between the operating conditions of the agitation motor 6, the dehumidification motor 5a and the cooling motor 5c, the temperature of the object to be agitated such as garbage, and the amount of water collected in the gas-liquid separator 5 in the above processing method. FIG. 4 is an example of composting by operating the garbage processing apparatus of the present invention, where the horizontal axis represents the reaction time and the vertical axis represents each parameter. In addition, the operating status of each motor is indicated as ON (ON) and OFF (OFF).
[0029]
The agitating motor 6 is operated to mix and circulate the agitated material such as garbage in the reaction tank. Temperature rise Begin. The motor power consumption measured by the current value of the stirring motor 6 shows a high value at the start of the reaction, which is mainly the crushing of the object to be stirred, but gradually decreases from about 1 hour and becomes almost constant thereafter. In about 2 hours, the material to be stirred reaches about 75 ° C., and the smell of raw garbage disappears. For this reason, if auxiliary materials such as rice husk and sawdust are used in combination, or if the intended use is considered, it can be used as compost in this state, and composting can be completed in an extremely short time.
[0030]
Even without using a secondary material, the fermentation reaction can be further advanced so as not to cause harmful effects such as poor germination and poor growth on plants. The fermentation reaction is performed by maintaining the temperature at which the fermentation can be maintained and the microorganisms are not killed, for example, about 75 ° C. by turning on and off the stirring motor 6 and the dehumidifying motor 5a. The operation of the dehumidifying motor 5a can be automatically performed by the temperature sensor 15, the operation time setting timer 14, and the like. Moreover, you may operate manually. Cooling motor 5c is automatically or manually turned on or off simultaneously with the operation of dehumidifying motor 5a or before the operation, and cooling water is supplied.
By the operation of the dehumidifying motor 5a, the gas in the reaction tank containing saturated steam at a temperature close to the fermentation reaction temperature is dehydrated through the gas-liquid separator 5 and circulated in the reaction tank as cooled dry air. By turning on / off the operation of the agitation motor 6 and / or the dehumidification motor 5a, the fermentation reaction temperature is maintained at 60 to 90 ° C., preferably 70 to 80 ° C., and the humidity of the reaction product is maintained at about RH 60%. By maintaining the fermentation conditions in this range, composting of garbage can be promoted without killing microorganisms. The temperature and humidity can be measured by each sensor. Alternatively, the humidity can be measured from the moisture content of the input garbage and the moisture content separated by the gas-liquid separator 5.
[0031]
When the fermentation reaction proceeds and composting is completed, the smell of garbage is completely eliminated, and the input garbage becomes granular or powdered compost. According to the raw garbage processing method of the present invention, it is possible to a) reduce the volume of compost produced by further advancing fermentation and decomposition reactions.
B) When taking out raw garbage as compost, stop the dehumidification motor 5a and the cooling motor 5b and operate the stirring motor 6 intermittently, for example, once every 15 minutes for 30 seconds or less to bring the compost temperature to room temperature. To lower. Thereafter, the contents are taken out and the garbage processing is completed, and compost is obtained.
B) When further reducing the volume of the compost produced by further reaction, the agitation motor 6 is intermittently operated so that the compost temperature can be maintained at 50 to 60 ° C., and the secondary fermentation reaction of the compost is advanced. . As fermentation progresses, the amount of contents decreases and disappears.
[0032]
Since the garbage processing method using the garbage processing apparatus of the present invention can be composted by the action of a stirring motor, a cooling motor, etc., it is small and can save energy. For this reason, the garbage which generate | occur | produces by the business of one day in a small and medium-sized dining room, a restaurant, a restaurant, etc. can be processed within the day. Moreover, since stirring becomes efficient by using the stirring blade of this invention, a reaction tank can also be enlarged.
[0033]
【The invention's effect】
The stirring blade of the present invention is a semicircular single blade that continues from the front part of the blade to the rear part of the blade, the front part of the blade is flat, and the flat peripheral edge is a curve that increases the radius of curvature from the rotating shaft mounting part. It is formed with a curved plate shape with a curved blade rear part, and its curved peripheral edge is formed by a line segment that reaches a rotating shaft attachment part through a predetermined arc length, so that it is pumped while crushing garbage etc. In addition, since the fibrous material in the garbage can be prevented from adhering to the blade edge and the blade surface, the object to be stirred can be sufficiently stirred.
[0034]
In the garbage processing apparatus of the present invention, the plurality of stirring blades are attached in the same direction at a predetermined interval from one end of the rotating shaft to the other end, and at least one stirring blade is opposite in the other end of the rotating shaft. Since it is attached to the rotating shaft, the garbage can be crushed, pumped and stirred simultaneously by the action of the stirring blades.
Further, by arranging two rotation shafts in parallel at the bottom of the processing container, mixing and stirring of garbage and the like can be performed more easily.
Furthermore, since it has a ventilation hole in the upper part of a processing container and has a gas-liquid separation apparatus connected to this ventilation hole, adjustment of temperature and humidity can be performed easily and an energy-saving type garbage disposal apparatus is obtained.
[0035]
In the garbage processing method of the present invention, since the heating step and the stirring step are performed by the stirring blade attached to the rotating shaft in the processing container, the garbage is crushed and fermented while being mixed and stirred. As a result, composting of garbage can be easily performed in a short time.
[Brief description of the drawings]
FIG. 1 is a front view and a plan view of a stirring blade fixed to a rotating shaft.
FIG. 2 is a diagram illustrating an example of a dust disposal apparatus.
FIG. 3 is a block diagram of a garbage disposal apparatus.
FIG. 4 is a diagram illustrating an operating state of the garbage processing apparatus.
[Explanation of symbols]
1 Stirring blade
2 Rotating shaft
3 processing containers
4 reaction tank
5 Gas-liquid separator
6 Stirring motor
7 External housing
8 Vent
9 flaps
10 Garbage input
11 Power supply
12 Electromagnetic switch
13 Start switch
14 Operation time setting timer
15 Temperature sensor
16 Relay

Claims (2)

A stirring blade attached to a rotating shaft arranged inside the object to be stirred to treat the object to be stirred, wherein the stirring blade is a semicircular single blade continuous from the front part of the blade to the rear part of the blade, The front part of the blade is flat, the peripheral edge of the flat plate is formed by a curve that increases the radius of curvature from the rotating shaft mounting part, and the rear part of the blade is a curved plate, and the peripheral edge of the curved plate is the blade Stirring characterized in that it is formed by a line segment extending from an arc having a predetermined length having the same radius as the maximum curvature radius at the front part to a rotating shaft attaching part through a curve that is recessed with respect to the rear part of the blade. Feathers.   A garbage disposal apparatus comprising a processing container and a rotating shaft having a plurality of stirring blades attached to the inside of the processing container, wherein the stirring blade is the stirring blade according to claim 1, A plurality of stirring blades attached at right angles to the rotation axis direction are attached at a predetermined interval from one end of the rotation shaft to the other end, and at least at the other end One stirring blade is attached to the rotary shaft in the opposite direction to the plurality of stirring blades, and further, a curved flap rising from the other end is provided, whereby the workpiece is processed by the opposite stirring blade and the flap. A garbage disposal apparatus characterized by changing the direction of movement of the food and circulating it.

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