JP2009202144A - Garbage-treating apparatus and method for controlling garbage-treating apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve disadvantages or the like in a conventional garbage treating apparatus using a deodorization plate or the like for removing malodor. <P>SOLUTION: A moisture sensor is installed in a treatment tank, and charged matter is controlled by a controller and is kept in an appropriate state so that the charged matter is controlled in the optimum state. Thus, malodor is basically prevented from being produced, and the garbage is effectively decomposed. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a garbage disposal apparatus for treating garbage generated from home.

  In recent years, garbage processing equipment stores particulate matter such as garbage processing materials containing microorganisms in a garbage processing tank, throws the garbage into it, and decomposes the garbage with microorganisms. There is little residue left.

  However, if the garbage and the microorganisms are in sufficient contact with each other, the temperature, moisture, oxygen amount, etc. are properly maintained and the microorganisms are not managed to grow, it may cause malodor.

To that end, a proposal as shown in FIG. 5 and Japanese Patent Application Laid-Open No. 2005-193213 has been made. According to the application, there is proposed a garbage disposal apparatus in which a deodorizing plate 90 is mounted in the treatment tank 10 so as not to generate a bad odor.
However, the cause of bad odor is that microorganisms cannot decompose garbage, and it is impossible to remove all bad odors with the deodorizing plate 90.
JP-A-2005-193213

  In the present invention, by promoting the growth of microorganisms, the generation of malodor is prevented and the garbage is efficiently decomposed.

  Microorganisms that decompose garbage are originally selected so that they do not generate bad odor. If the treatment tank in the garbage treatment apparatus is saturated with microorganisms, no bad odor is generated.

  However, since the microorganisms generate heat in the process of decomposing the garbage, if the garbage is not input for several days or if the input amount of the garbage is small, the inside of the treatment tank is dried due to heat generation, and the microorganism Will die. When microorganisms are killed, the residue may cause a bad odor.

  In addition, when garbage containing a lot of water is introduced, the microorganisms cannot completely decompose the garbage, the inside of the treatment tank becomes sticky, and the garbage may be spoiled by various bacteria other than the microorganisms to generate a bad odor.

  In order to avoid such a state, it is important to agitate the microorganisms and garbage in the treatment tank so that they are in sufficient contact with each other and to manage the temperature, moisture, oxygen amount, etc. in an appropriate state at all times. It is.

Therefore, there is a garbage processing apparatus for decomposing and treating raw garbage and microorganisms for decomposing the garbage into a treatment tank, wherein the moisture content detecting means detects and outputs the water content in the treatment tank, and the treatment tank. Water supply means for replenishing moisture therein, intake / exhaust means for intake and exhaust in the treatment tank, agitation means for agitating the garbage and microorganisms in the treatment tank, and output from the moisture amount detection means And a control unit that controls the water supply means, the intake / exhaust means, and the stirring means based on the water content so that the atmosphere in the treatment tank is in an appropriate state for the microorganism. And provide a garbage disposal device
A garbage disposal apparatus for decomposing and treating garbage and microorganisms that decompose the garbage into a treatment tank, wherein the moisture content detecting means detects and outputs the water content in the treatment tank, and the inside of the treatment tank Water supply means for supplementing moisture, intake / exhaust means for intake and exhaust in the treatment tank, agitation means for agitating the garbage and microorganisms in the treatment tank, and output from the moisture amount detection means And a controller for controlling the water supply means, the intake / exhaust means, and the agitation means based on the water content so that the atmosphere in the treatment tank is in an appropriate state for the microorganism. In the garbage processing apparatus, when the control unit determines that the atmosphere in the processing tank is dried from an appropriate state by the moisture amount detecting means, the intermittent operation of the intake / exhaust means is operated from the appropriate state. Make it short Both the drying suppression means for controlling to reduce the intake and exhaust amount by increasing the stop time, and the intermittent operation of the agitation means to shorten the operation time from the proper state and to increase the stop time The atmosphere in the treatment tank is brought into an appropriate state for the microorganisms by the growth inhibiting means for controlling so as to suppress the growth of microorganisms and the humidifying means for controlling the water supply means to spray water in the treatment tank for a certain period of time. The control method of the garbage processing apparatus controlled in this way is provided.

Further, a garbage processing apparatus for introducing a garbage and a microorganism for decomposing the garbage into a treatment tank and decomposing it, a moisture amount detecting means for detecting and outputting a water content in the treatment tank, and the treatment Water supply means for supplementing moisture in the tank, intake / exhaust means for intake and exhaust in the treatment tank, stirring means for stirring the garbage and the microorganisms in the treatment tank, and temperature in the treatment tank Temperature detecting means for measuring the temperature, temperature raising means for increasing the temperature in the treatment tank, water content detecting means, and water content and temperature output from the temperature detecting means based on the water content and temperature. While providing a garbage processing apparatus comprising a control unit for controlling the exhaust means, the stirring means, and the temperature raising means so that the atmosphere in the treatment tank is in an appropriate state for the microorganism,
A garbage disposal device for introducing a garbage and microorganisms for decomposing the garbage into a treatment tank and decomposing the garbage,
Moisture content detection means for detecting and outputting the water content in the treatment tank, water supply means for filling the treatment tank with moisture, intake / exhaust means for intake and exhaust in the treatment tank, and in the treatment tank Stirring means for stirring the garbage and the microorganisms, temperature detection means for measuring the temperature in the treatment tank, and temperature raising means for increasing the temperature in the treatment tank,
Based on the water content and temperature output from the water content detection means and the temperature detection means, the water supply means, the intake / exhaust means, the agitation means, and the temperature increase means, and the atmosphere in the treatment tank is the microorganism. In the garbage processing apparatus, which is provided with a control unit that controls to be in an appropriate state for the atmosphere, when the atmosphere in the processing tank is moistened from the appropriate state by the moisture amount detection means, When the judgment is made, the intermittent operation of the intake / exhaust means is made to have a longer operation time and a shorter stop time than in an appropriate state, or the intake / exhaust means is continuously operated to increase the intake / exhaust amount. The drying accelerating means to be controlled and the intermittent operation of the agitating means are controlled so that the operation time is longer than that in the proper state and the stop time is shortened to promote the reproduction of the microorganisms. A garbage processing apparatus in which the atmosphere in the treatment tank is controlled to be in an appropriate state for the microorganisms by a promotion means and a heating means for raising the temperature in the treatment tank to a constant temperature by the temperature raising means. A control method is provided.

  With the proposed apparatus as described above, the environment in the processing tank 10 can be maintained in an optimum atmosphere for microorganisms. By passing an electric current between a plurality of installed moisture sensors 11, 12, the resistance value can be measured to measure the amount of moisture.

If there is much moisture in the treatment tank 10, the electrical connection is improved. Therefore, the resistance value of the current between the moisture sensors 11 and 12 decreases, and conversely, if there is little moisture in the treatment tank 10, the conduction becomes worse. The resistance value in between increases. In this way, by using the resistance values detected by the moisture sensors 11 and 12, the intake / exhaust means, the agitation means, and the water supply means are controlled, so that the moisture content in an appropriate state for the microorganisms in the treatment tank 10 is maintained. Is.
Furthermore, the temperature sensor 13 is attached in the vicinity of the processing tank 10 and the temperature in the processing tank 10 is kept constant by controlling the temperature raising means (heater 17) of the processing tank 10, so that the optimum state for microorganisms is achieved. Was able to keep the water content and temperature.

  In this apparatus, the moisture sensors 11 and 12 and the temperature sensor 13 always manage the moisture content and temperature in the treatment tank 10. In this apparatus, the resistance value and temperature of the moisture sensors 11 and 12, the operation of the exhaust fan 15, and the operation of the stirring blade 16 are determined in advance so that the inside of the treatment tank 10 becomes an optimum environment for microorganisms.

When the amount of water is small, a fixed amount of water is supplied from the watering nozzle 14, and the amount of oxygen supplied to the microorganisms is reduced by reducing the amount of exhaust from the exhaust fan 15 and slowing the stirring operation. By slowing the rotation of 16, the contact between the microorganism and the garbage is suppressed, and the growth of the microorganism is suppressed.
Furthermore, since the microorganism may stop its activity when the temperature is lower than a certain temperature, when the temperature sensor 13 detects that the temperature is lower than the certain temperature, the heater 17 generates heat to raise the temperature in the processing tank 10 and thereby the microorganism. Is intended to protect the activity from stopping.

  Similarly, if the amount of water is large, the amount of exhaust from the exhaust fan 16 is increased, the stirring operation by the stirring blades 16 is increased, the oxygen supply amount is increased, and the contact between the microorganisms and the garbage is promoted. In addition to the rapid growth and decomposition of the garbage, the inside of the treatment tank 10 is heated by the heater 17 and dried quickly.

  FIG. 1 is a view in which the lid of the embodiment of the present invention is opened so that the treatment tank can be seen through. FIG. 2 is a rear view of the embodiment of the present invention with the lid closed. FIG. 3 is a table showing each operation when the inside of the treatment tank of the present invention is dried. FIG. 4 is a table showing each operation when the inside of the treatment tank of the present invention is in an appropriate state and in a wet state. FIG. 5 shows a conventional garbage disposal apparatus.

  An embodiment of the present invention will be described with reference to FIGS. A processing tank 10 is provided inside the main body 1, and the lid 19 is opened to input the input 30. A shaft 20 protrudes inside the processing tank 10 and is configured to rotate by a driving source such as a motor (not shown). A stirring blade 16 is fixed to the shaft 20 to stir the input 30. To do.

Moisture sensors 11 and 12 are attached to the lower part of the stirring tank 10 at two locations. In addition, a heater 17 is attached to the lower part of the stirring tank 10 to generate heat and raise the temperature of the processing tank 10. The agitation tank 10 has two intake ports 18 and 181, and fresh air is drawn from the intake ports 18 and 181 by exhausting the air in the processing tank 10 by an exhaust fan 15 attached to the exhaust port. Is configured to incorporate.
A water supply tank 24 is attached to the back surface of the main body 1, and water is supplied by a water supply pump 23 and sprinkled from the water nozzle 14 into the treatment tank 10. A display unit 22 that displays the internal state of the processing tank 10 is attached to the upper part of the main body 1.

The input 30 will be described. When using the garbage processing apparatus of the present invention, first, a certain amount of the initial biomaterial is charged. In the biomaterial, microorganisms that decompose garbage are mixed with nutrients that promote the propagation of the microorganisms.
The main body 1 is controlled by the control unit 2 so that the inside of the processing tank 10 becomes an ideal environment. First, after a certain amount of biomaterial for initial use has been put in for a day, about 400 grams of garbage is put in a day, and it is mixed in the biomaterial over a period of about two weeks so that microorganisms can stably propagate. Grow microorganisms.

Thereafter, about 800 grams of raw garbage is added per day, the microorganisms are propagated under the control of the control unit 2 of the garbage processing apparatus, the raw garbage is decomposed, and the input 30 is always in the same component state as the biomaterial. Managed to be.
When the bio material increases and increases from a certain line of the treatment tank 10, the bio material (the input 30 decomposed by microorganisms) is taken out from the treatment tank 10 and used as a gardening fertilizer.
In addition, if the amount of raw garbage input is small or if the day when raw food is not input continues, biomaterials decrease. When the input 30 is reduced from a certain line in the treatment tank 10, the microorganisms in the input 30 are replenished and propagated by introducing the auxiliary biomaterial.

  The moisture amount detection means will be described. A voltage is applied between the moisture sensor 11 and the moisture sensor 12 so that a current flows with one being a positive electrode and the other being a negative electrode. The treatment tank 10 itself is made of a material that is not energized. Therefore, it is difficult to energize when the biomaterial and raw material input 30 into the treatment tank 10 are dry, and it is easy to energize when wet.

  For example, if the inside of the treatment tank 10 is in an appropriate state, the resistance values of the moisture sensors 11 and 12 are 70 kΩ or less and 1.2 kΩ or more. When the input 30 becomes dry, the resistance value between the moisture sensors 11 and 12 increases to 70 kΩ or more, and when the input 30 becomes wet, the resistance value between the moisture sensors 11 and 12 decreases to 1.2 kΩ or less. The resistance value detecting operation between the moisture sensors 11 and 12 is controlled by the control unit 2 so as to be measured about once every 30 minutes. As described above, the moisture amount detecting means detects the moisture amount in the processing tank 10 using the moisture sensors 11 and 12.

  The stirring means will be described. The biomaterial introduced into the processing tank 20 is rotated by rotating the shaft 20 by a driving means such as a motor (not shown) installed outside the processing tank 10 and rotating the stirring blade 16 fixed to the shaft 20. Stir the garbage, bring the microorganisms and garbage into full contact so that the microorganisms can be easily decomposed, and decompose the garbage by mixing oxygen and water in the biomaterial and the input 30 with the garbage. It is a means to promote processing.

  A water supply means is demonstrated. When the detection resistance value between the moisture sensors 11 and 12 is high, the conductivity is poor, so that the control unit 2 determines that the input 30 in the treatment tank 10 is dry, and the water supply pump 23 is driven to supply water. Water is supplied from the water tank 24 and sprinkled from the watering nozzle 14 to wet the input 30.

  This operation is controlled by the control unit 2 so as to be widely mixed in the input material 30 by sprinkling water from the water spray nozzle 14 when the stirring blade 16 is rotating and stirring.

  The intake / exhaust means will be described. An exhaust fan 15 is attached to the rear surface of the upper portion of the processing tank 10 and discharges air in the processing tank 10 by intermittent motion or continuous motion. As a result, fresh air is sucked from the intake ports 18 and 181. In this way, the intake / exhaust means is performed by the fan operation performed by the exhaust fan 15.

In addition, a filter is attached to the front of the exhaust fan 15, and an exhaust cover 21 is attached to the rear. A dust collection bag is attached to the inside of the exhaust cover 21, and fine dust generated inside the treatment tank 10 is removed. It does not discharge to the outside. A filter is attached to each of the air supply ports 18 and 181 so that external dust is not sucked into the processing tank 10.
With such a configuration, when the lid 19 is closed, fresh air is sucked from the intake ports 18 and 181, passes through the processing tank 10, and is discharged to the outside by the exhaust fan 15.

  The temperature raising means will be described. The temperature of the processing tank 10 is measured at any time by a temperature sensor 13 attached in the vicinity of the processing tank 10. When the treatment tank 10 becomes a certain temperature (21 degrees) or less, the heater 17 generates heat continuously and the temperature is increased so that the microorganisms are activated.

  Further, when the inside of the processing tank 10 is in a wet state, the control unit 2 performs control so that the heater 17 generates heat intermittently at regular intervals and the input 30 is dried quickly. Furthermore, when the inside of the processing tank 10 is in a wet state and the temperature detected by the temperature sensor 13 is lower than a certain value (46.5 degrees), the heater 17 is controlled to continuously generate heat, and the processing tank 10 When the temperature reaches a certain level, heat generation stops.

  The display unit 22 will be described. The details of the display unit 22 are displayed in a state as described in the display column of FIG. 4, and three types of lamps, a sticky (wet state) lamp, a drying lamp, and a power / operation lamp, are turned on. Yes. When the inside of the treatment tank 10 is wet, the sticky lamp is turned on, and when it is dry, the drying lamp is turned on. When the lid 19 is open, the power / running lamp is lit in red, and the control unit 2 controls the rotation of the stirring blade 16 to stop for safety.

  In addition, when a foreign matter is entangled with the stirring blade 16 or the shaft 20 and a load greater than that during normal stirring is generated in the stirring portion, the power / operation lamp blinks in red. Further, when the power plug is inserted into the outlet, the power is turned on, and the power / running lamp is lit in green.

The process which processes garbage using the garbage processing apparatus comprised as mentioned above is demonstrated. The lid 19 of the garbage disposal apparatus body 1 is opened, a specified amount of biomaterial mixed with microorganisms is charged, the lid 19 is closed, and the garbage is left for more than a day.
In the meantime, the control device 2 in the main body 1 manages the state in the treatment tank 10 so as to be in an appropriate state, and the microorganisms mixed in the biomaterial are activated.

  Garbage is input from the second day onward, and the amount of garbage input is reduced for about two weeks after the start of use, and the environment is adjusted so that biomaterials gradually get used to the decomposition process of garbage. The normal amount of garbage input is about 800 g per day, but it is about 400 g for about 2 weeks after starting to use.

  If the biomaterial and garbage thrown into the treatment tank 10 are in an appropriate state, as shown in the appropriate state column in the table of FIG. 4, the water supply operation is stopped and the stirring blade is once every 30 minutes for about 8 minutes. 16, the stirring operation of the charge 30 is performed. The resistance value detected by the moisture sensors 11 and 12 at this time is between 1.2 kΩ and 70 kΩ.

The operation of the exhaust fan 15 is intermittently operated for 15 milliseconds between 22.6 milliseconds. Alternatively, the control unit 2 controls the intake / exhaust means that performs an intermittent operation of about 13 milliseconds in 20.6 milliseconds and maintains an appropriate normal state.
When the temperature detected by the temperature sensor 13 is 21 degrees or less, the heater 17 continuously generates heat, and the temperature inside the treatment tank 10 is raised to promote the growth of microorganisms.
The above is the control by the control unit 2 when it is determined that the inside of the processing tank 10 is in an appropriate state, and each operation when the state in the processing tank in the table shown in FIG. At this time, the power supply / running lamp of the display unit 22 is lit in green.

  When the detection resistance values of the moisture sensors 11 and 12 are 1.2 kΩ or less, the control unit 2 determines that the inside of the treatment tank 10 is wet because the conductivity is good. The water supply operation is stopped, and the fan operation by the exhaust fan 15 is continuously operated to send in a large amount of air, thereby maximizing the drying and the growth of microorganisms.

The stirring blade 16 stirs for about 10 minutes in 30 minutes, stirs the input 30 more than in an appropriate state, and promotes the growth of microorganisms and the drying of the input 30 by increasing the contact between garbage and microorganisms. .
Further, the heater 17 generates heat at intervals of 14 seconds to 15 seconds to raise the temperature in the treatment tank 10 and promote the growth of microorganisms and the drying of the input material 30.
The above is the control by the control unit 2 when it is determined that the inside of the processing tank 10 is in a wet state, and each operation when the inside of the processing tank in the table shown in FIG. 4 is in a wet state. At this time, the display unit 22 lights the sticky indicator lamp in red and the power / operation lamp lights in green.

When the detected resistance values of the moisture sensors 11 and 12 become 70 kΩ to 310 kΩ, the control unit 2 determines that the inside of the processing tank 10 is dry because the conductivity is poor.
The stirring operation by the stirring blade 16 is an intermittent operation of about 5 minutes in 30 minutes to suppress the drying of the input 30 and the growth of microorganisms, and water is supplied from the water tank 24 by the water supply pump 23 during the stirring operation. Then, the control unit 2 performs control so that the input material 30 is sprinkled and the input material 30 is immediately wetted.

Further, at that time, the fan operation by the exhaust fan 15 is operated every 9.2 milliseconds to 9.5 milliseconds every 18.6 milliseconds to 20.3 milliseconds, so that the fan operation becomes more moderate than the proper state. 30 prevents drying. Further, the heater 17 is controlled so as not to generate heat unless the temperature falls below a certain temperature (21 degrees), thereby preventing drying and suppression of microorganisms.
The above is the control by the control unit 2 when it is determined that the inside of the processing tank 10 is in a dry state, and each operation when the in-process state in the table shown in FIG. 4 is in a dry state. At this time, the display unit 22 turns on the dry indicator lamp in red and turns on the power / operation lamp in green.

  When the detection resistance value of the moisture sensors 11 and 12 is 310 kΩ or more, the control unit 2 determines that the inside of the processing tank 10 is extremely dry because the conductivity is extremely poor. In general, it is considered that garbage cannot be supplied for a long period of time, microorganisms are rapidly growing, or water in the water supply tank 24 is depleted and cannot be supplied.

  In such a case, the stirring operation by the stirring blade 16 is set to an intermittent operation of about 4 minutes every 30 minutes to suppress the drying of the input 30 and the growth of microorganisms, and the water supply pump 23 supplies water from the water tank 24 during the stirring operation. Then, the watering nozzle 14 sprays water.

  However, when there is no water in the water supply tank 24, the control unit 2 controls to stop the water supply pump 23 and issue an alarm. Further, at this time, the fan operation by the exhaust fan 15 is operated every 22.6 milliseconds to 24.3 milliseconds for 5.6 milliseconds, so that the fan operation is intermittently performed more slowly than in the proper state, and drying is performed. Suppress.

However, when the inside of the processing tank 10 falls below a certain temperature (21 degrees), the control unit 2 performs control so that the heater 17 generates heat to keep the microorganisms warm and protected.
The above is the control performed by the control unit 2 when it is determined that the inside of the processing tank 10 is extremely dry, and each operation when the inside of the processing tank shown in FIG. 4 is extremely dry. At this time, the display unit 22 turns on the dry indicator lamp in red and turns on the power / operation lamp in green.

  Further, when the lid 19 is not opened and closed for 3 to 10 days or more, the stirring operation and the heat generation of the heater 17 are all stopped, and the controller 2 controls the absence-response operation in the energy saving state. However, the controller 2 is controlled to return to normal operation by opening and closing the lid 19.

The main body 1 can be transported by a handle 28 and is configured such that internal maintenance can be performed by opening and closing the side cover 27.
If it is the above garbage processing apparatus, the microorganisms contained in biomaterial can always be grown in an appropriate state, and garbage can be decomposed | disassembled efficiently. Furthermore, since the inside of the treatment tank 10 can always be kept in an appropriate state for microorganisms, the generation of malodor can be prevented.

  The present invention can be applied not only as a garbage disposal apparatus but also to a soil treatment apparatus, a microorganism growth apparatus, and the like.

It is the figure which opened the cover of the Example of this invention, and made it see through a processing tank. It is the figure which closed the cover of the Example of this invention, and was seen from back. Each operation | movement when the inside of the processing tank of this invention dries is tabulated. Each operation | movement when the inside of the processing tank of this invention is an appropriate state, and a wet state is tabulated. It represents a conventional garbage disposal device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Main body 2 Control part 10 Processing tank 11 Moisture sensor 12 Moisture sensor 13 Temperature sensor 14 Sprinkling nozzle 15 Exhaust fan 16 Stirring blade 17 Heater 18 Intake port 181 Intake port 19 Lid 20 Shaft 21 Exhaust cover 22 Display part 23 Water supply pump 24 Water supply tank 27 Side cover 28 Handle 29 Power plug 30 Input 90 Deodorizing plate

Claims (4)

A garbage disposal device for introducing a garbage and microorganisms for decomposing the garbage into a treatment tank and decomposing the garbage,
Water content detection means for detecting and outputting the water content in the treatment tank;
Water supply means for filling the treatment tank with water;
Intake and exhaust means for exhausting and exhausting air in the treatment tank;
Stirring means for stirring the garbage and the microorganisms in the treatment tank;
A control unit that controls the water supply unit, the intake / exhaust unit, and the agitation unit based on the moisture content output from the moisture amount detection unit so that the atmosphere in the treatment tank is in an appropriate state for the microorganism. A garbage disposal apparatus characterized by comprising: A garbage disposal device for introducing a garbage and microorganisms for decomposing the garbage into a treatment tank and decomposing the garbage,
Water content detection means for detecting and outputting the water content in the treatment tank;
Water supply means for filling the treatment tank with water;
Intake and exhaust means for exhausting and exhausting air in the treatment tank;
Stirring means for stirring the garbage and the microorganisms in the treatment tank;
A control unit that controls the water supply means, the intake / exhaust means, and the agitation means based on the water content output from the moisture amount detection means so that the atmosphere in the treatment tank is in an appropriate state for the microorganism. In the garbage processing apparatus characterized by comprising:
When the control unit determines that the atmosphere in the processing tank is dried from an appropriate state by the moisture amount detection means,
Drying suppression means for controlling the intermittent operation of the intake / exhaust means to reduce the intake / exhaust amount by shortening the operation time and reducing the operation time from the appropriate state, and
Propagation suppression means for controlling the intermittent operation of the stirring means to shorten the operation time from the appropriate state and to suppress the propagation of the microorganisms with a long stop time;
By humidifying means for controlling the water supply means to spray water in the treatment tank for a certain period of time,
A method for controlling a garbage disposal apparatus, wherein the atmosphere in the treatment tank is controlled to be in an appropriate state for the microorganism. A garbage disposal device for introducing a garbage and microorganisms for decomposing the garbage into a treatment tank and decomposing the garbage,
Water content detection means for detecting and outputting the water content in the treatment tank;
Water supply means for filling the treatment tank with water;
Intake and exhaust means for exhausting and exhausting air in the treatment tank;
Stirring means for stirring the garbage and the microorganisms in the treatment tank;
Temperature detecting means for measuring the temperature in the treatment tank;
A temperature raising means for raising the temperature in the treatment tank;
Based on the water content and temperature output from the water content detection means and the temperature detection means, the water supply means, the intake / exhaust means, the agitation means, and the temperature increase means, and the atmosphere in the treatment tank is the microorganism. A garbage disposal apparatus comprising a control unit that controls the vehicle to be in an appropriate state. A garbage disposal device for introducing a garbage and microorganisms for decomposing the garbage into a treatment tank and decomposing the garbage,
Water content detection means for detecting and outputting the water content in the treatment tank;
Water supply means for filling the treatment tank with water;
Intake and exhaust means for exhausting and exhausting air in the treatment tank;
Stirring means for stirring the garbage and the microorganisms in the treatment tank;
Temperature detecting means for measuring the temperature in the treatment tank;
A temperature raising means for raising the temperature in the treatment tank;
Based on the water content and temperature output from the water content detection means and the temperature detection means, the water supply means, the intake / exhaust means, the agitation means, and the temperature increase means, and the atmosphere in the treatment tank is the microorganism. In the garbage processing device characterized by having a control unit that controls to be in an appropriate state for
When the control unit determines that the atmosphere in the processing tank is wet from an appropriate state by the moisture amount detection means,
Drying promotion in which the intermittent operation of the intake / exhaust means is controlled to increase the intake / exhaust amount by making the operation time longer and the stop time shorter than when in an appropriate state, or by continuously operating the intake / exhaust means. Means,
Propagation promoting means for controlling the intermittent operation of the agitation means to make the operation time longer than in an appropriate state and to make the stop time short and promote the propagation of the microorganisms;
By heating means for raising the temperature of the treatment tank to a constant temperature by the temperature raising means,
A method for controlling a garbage disposal apparatus, wherein the atmosphere in the treatment tank is controlled to be in an appropriate state for the microorganism.

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