JPH07251146A - Garbage treating device - Google Patents

Abstract

PURPOSE:To maintain a good decomposition state of garbage, to prolong the life of decomposing media and to miniaturize a treating vessel. CONSTITUTION:This garbage treatment device has the decomposing media 10, a moisture detecting means 11 which detects the moisture in a mixture formed by agitating and mixing the garbage with microorganisms and water- content control means 6, 8, 9 for drying the mixture by operating when the detected moisture value attains a specified value or above.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a garbage disposal device used in homes and the like.

[0002]

2. Description of the Related Art As a kitchen treatment device for treating kitchen waste discharged from ordinary households at home, the processing tank is filled with sawdust, and at the same time when the kitchen is thrown in, aerobic cells of powder are added and stirred to remove the kitchen waste. Some are designed to be disassembled. The basic structure is to store sawdust as a decomposing medium in a processing tank, mix microorganisms present in the soil, etc. into this, and decompose it by intermittently and automatically mixing and agitating after throwing in garbage. . The basic components of kitchen waste consist of about 16% organic matter, 4% inorganic matter and 80% water. Since the inorganic substances cannot be decomposed, they are slightly accumulated in the sawdust. Most of the organic substances are decomposed into carbon dioxide and water by biodegradation. Water is either absorbed by sawdust or evaporated and dissipated. Sawdust, which is the decomposition medium, must be replaced regularly. This depends on the life of the sawdust itself. The following causes are considered to determine this life. Non-decomposable components (inorganic components) accumulate in sawdust, increasing the overall weight and deteriorating the environment in which microorganisms live. The sawdust is pulverized by the friction of stirring, and it becomes difficult for the air necessary for the decomposition of microorganisms to enter.
The moisture in the sawdust becomes high and it becomes clay-like. As a result,
It becomes difficult for air to enter, the decomposition performance deteriorates, and the torque required for stirring rises, resulting in mechanical impossibility.

Of the above causes, it is unavoidable that the amount of inorganic substances accumulated is small. Considering the average amount of garbage in a general household at 1 kg / day, the amount of inorganic substances discharged is 4
It is about 0 g / day, about 7 kg in half a year when the sawdust of a general kitchen waste disposal device is replaced, which is not so much. Therefore, it is not the main cause of determining the life. Although it is unavoidable to a certain extent as long as it is stirred, the life can be extended by lowering the stirring frequency.
Next, the amount of water accumulated in one day is 800 g, and in order to evaporate the water, it is necessary to send about 100 liters of air per minute. However, this is not possible in practice, and the accumulation of water is a major cause of the life of sawdust. That is, when water accumulates, the sawdust becomes clay-like and becomes a dumpling-like by stirring, so that it becomes difficult for air to enter the inside and aerobic decomposition becomes difficult. The dumpling makes it difficult for the kitchen waste to disperse in the sawdust, resulting in poor decomposition efficiency. Since the inside becomes anaerobic, hydrogen sulfide or the like is generated and the odor becomes strong. When the amount of water is large, the torque required for stirring becomes large, and the power becomes unreasonable. Further, when the sawdust is pulverized by stirring or the like, it tends to become clay-like when it contains water.

Contrary to the above, when the garbage input is interrupted or the input amount is decreased, the sawdust may be excessively dried due to stirring or the like. In this case, the microorganisms inhabiting the sawdust have a drawback that the activation is slowed by drying and the decomposition efficiency is lowered, and when the sawdust is pulverized, it is scattered to pollute the surroundings. In addition, when sawdust scatters, bacteria mixed therein and mold spores also scatter, which is not preferable for safety and hygiene. That is, in this case, it means that the stirring was performed more than necessary,
For this reason, the sawdust is pulverized and the life of the sawdust is shortened.

Conventionally, in a method of converting mud-like waste into fertilizer by the action of microorganisms, a heating mechanism and a ventilation device are installed in the treatment tank as well as a stirring mechanism to control the temperature and adjust the air amount. However, there is no one that controls the water content.

Now, the structure of the conventional garbage processing device and its control action will be described. The structure is almost the same as in FIGS. 1 and 2 described later, except for the detecting means and the control means. Figure 15
Shows the control action and the state change in the processing tank.
The stirring rotation speed is 12 rpm and stirring is performed at a frequency of 15 sec / min ((b) of the same figure), and it is not changed according to the amount of garbage and the amount of water. The air flow rate by the pump, which is a ventilation device, is also constant at 50 l / min. With regard to the heater, the temperature inside the tank is controlled to be constant according to the temperature ((c) in the same figure). This garbage processing equipment can process approximately 1 kg a day with 30 l of sawdust. There is. Here, as shown in FIG.
A case in which kitchen waste of A: 2 kg / day and C: 0.5 kg / day is charged will be described. First, in the case of overload like A, the evaporation rate of water cannot catch up and the water content is 60 in one month.
%, The sawdust has become clay-like and has become a dumpling-like, reaching the end of its life in less than two months. In particular, when kitchen waste containing a large amount of water was put in, there was a risk of water leaking out from the bottom of the processing tank. In addition, the dispersibility of the garbage becomes poor and the decomposing ability is lowered. On the other hand, in the case of a low load of C, the water content is reduced and the stirring is performed more than necessary, so that a part of the sawdust is easily pulverized and scattered due to the friction between the sawdust. For this reason, there is a drawback that when the water content increases temporarily, it tends to become clay-like. Further, if scattered, miscellaneous bacteria and mold spores contained in sawdust are likely to fly, which is not preferable for safety and hygiene. Further, when it is dried in this way, the growth of bacteria is suppressed, and the decomposition performance is reduced to the number of 10 ⁵ units (FIG. 7 (d)). This water content and its state are summarized in Table 1. According to this, it can be said that the water content of sawdust is preferably controlled to about 10% to 60%. Further, FIG. 16 shows the relationship between the water content and the stirring torque obtained by the conventional garbage processing device. According to this, it can be seen that the torque sharply increases when the water content increases to some extent.

[0007]

[Table 1] Water content state 0 to 10% If it is too dry and the activity of bacteria is reduced, spore formation and abrasion are advanced, fine powder is scattered. 10 to 20% Slightly dry, and when the abrasion of sawdust progresses, fine powder is generated. 20-40% good, good degradability, little scattering of bacteria and fine powder. 40-60% Feeling wet, good degradability, but increased stirring torque. 60% or more Clay, sawdust becomes a nodule, has poor air permeability and is inferior in decomposability. An anaerobic part is formed and odor is emitted. Water easily leaks from the bottom. The state of water content and the number of bacteria in sawdust is shown in FIG.
This shows the number of bacteria in the state where 200 g of organic substances such as dextrin and peptone and water for maintaining the water content were injected every day in this garbage treatment device. According to this, it can be seen that in a dry state of 10% or less, the number of bacteria is drastically reduced and the spores are increased. Further, it can be seen that aerobic bacteria increase with water, but when the amount exceeds 60%, the inside becomes anaerobic and the number of bacteria decreases, while anaerobic bacteria increase on the contrary. The decomposition performance in such a state is shown in FIG. This shows that it is preferable to maintain the water content at 20 to 60%.

[0008]

SUMMARY OF THE INVENTION In the conventional garbage processing device, since the amount of water contained in sawdust is not controlled,
There was a problem that water from the kitchen waste accumulated and became clay-like, shortening the life and increasing the frequency of sawdust replacement. Further, even when the frequency of use is low, since the stirring operation was repeated in the same manner, there was a problem that the decomposition performance was deteriorated by unnecessary drying and the sawdust was easily pulverized and scattered. Further, stirring more than necessary wasted power consumption.

Therefore, according to the present invention, it is possible to maintain a good decomposition state of the kitchen waste, to extend the life of the decomposition medium and to reduce the frequency of replacement, and further to downsize the processing tank. It is an object of the present invention to provide a garbage disposal device that can be used.

[0010]

In order to solve the above problems, the present invention is, firstly, in a kitchen waste treating apparatus for stirring a decomposition medium, kitchen waste and microorganisms in a processing tank to decompose the kitchen waste as a mixture. And a water content detecting means for detecting water content in the mixture, and a water content controlling means for controlling the water content of the mixture so that the water value detected by the water detecting means is constant. .

Secondly, in the kitchen waste treating apparatus for stirring the decomposition medium, kitchen waste and microorganisms in the processing tank to decompose the kitchen waste as a mixture, a water content detecting means for detecting the water content in the mixture and the water content detecting means. And a water content control means for operating to dry the mixture when the moisture value detected in step 3 is above a certain level.

Thirdly, in a garbage treatment apparatus for decomposing the garbage as a mixture by stirring the decomposing medium, the garbage and the microorganisms in the treatment tank, a moisture detecting means for detecting the moisture in the mixture and the moisture detecting means. It is a gist to have a water content control means for suppressing the drying of the mixture when the moisture value detected in step 3 is below a certain level.

Fourthly, the gist of the water content detecting means is a contact sensor for detecting water content based on a change in a current value flowing through the mixture.

Fifth, the contact sensor is mounted on the inner wall surface of the processing tank.

Sixth, the gist of the present invention is that the contact sensor is configured to read the current value flowing through the mixture in synchronization with the stirring operation and detect the water content from the average value thereof.

Seventhly, the water content detecting means is a stirring torque detecting means for detecting the water content by the change of the agitation torque in the agitation device for agitating the decomposition medium, garbage and microorganisms.

An eighth feature is that the moisture detecting means is a humidity sensor that detects moisture by a change in humidity in the upper space of the processing tank.

Ninth, the gist is that the water content detecting means is a color change detecting means for detecting water content by a color change of the mixture.

The tenth feature is that the moisture detecting means is a weight sensor for detecting moisture by a change in the weight of the mixture.

Eleventh, the gist is that the moisture detecting means is a temperature sensor for detecting moisture by a change in the temperature of the mixture.

The twelfth aspect of the invention is summarized in that the water content control means is a stirring device for drying the mixture by a stirring operation.

Thirteenth, the gist is that the water content control means is a heating device for drying the mixture by heating.

The fourteenth feature is that the heating device heats the mixture so as to maintain the temperature of the mixture at 10 to 50 ° C.

The fifteenth feature is that the water content control means is a ventilation device for drying the mixture by ventilation.

Sixteenth, the gist is that a deodorizing device which operates in synchronization with the operation of the heating device or the ventilation device and deodorizes the odor generated from the mixture is additionally provided.

Seventeenth, a stirring device, a heating device and a ventilation device are applied as the water content control means, and when increasing the dry amount per unit time, the ventilation device, the heating device and the stirring device are operated in this order. When reducing the dry amount per unit time, the gist is to operate the stirring device, the heating device, and the ventilation device in this order.

Eighteenthly, the water content control means is a water tank for adjusting water content by dropping.

The nineteenth feature is that the water content control means is an electronic cooling device for adjusting water content by dropping condensed water.

20th, when the sawdust is used as the decomposition medium, the water content of the mixture controlled by the water content control means is 10 to 60%.

[0030]

In the above construction, firstly, the water content in the mixture of the decomposing medium, the garbage and the microorganisms in the treatment tank is controlled to be constant. As a result, the decomposition medium is prevented from becoming clay due to the accumulation of water which occupies about 80% in the garbage, the dispersibility of the garbage is improved, the good decomposition state is maintained, and the decomposition medium has a long life.

Secondly, when the water content of the mixture detected by the water content detection means is above a certain value, the water content control means is operated to dry the mixture, whereby the water content of the mixture is maintained within an appropriate range. To be done.

Thirdly, when the moisture value of the mixture detected by the moisture detecting means becomes a certain value or less, by suppressing the drying of the mixture, the water content of the mixture is maintained in an appropriate range.

Fourthly and fifthly, the moisture detecting means is a contact sensor attached to the inner wall surface of the processing tank, so that the contact sensor makes good contact with the mixture and changes in the current value flowing through the mixture are read. The moisture value is accurately detected.

Sixth, the contact sensor reads the current value flowing through the mixture in synchronism with the stirring operation and takes the average value thereof to prevent uneven measurement depending on the location and improve the detection accuracy.

Seventh, since the stirring torque in the stirrer changes according to the amount of water in the mixture, the water content detecting means can also be realized by the stirring torque detecting means for detecting the water content by the change in the stirring torque.

Eighth, by previously measuring the correlation between the humidity in the upper space of the processing tank and the moisture value in the mixture,
The moisture detecting means is also realized by a humidity sensor that detects moisture by the change in humidity in the upper space of the processing tank.

Ninth, since the sawdust as a decomposition medium changes from, for example, light brown to dark brown according to the amount of absorbed water, the moisture detecting means detects the color change of the mixture by the light reflectance or the like. It is also realized by the change detecting means.

Tenth, since the weight of the mixture changes according to the amount of water in the mixture, the moisture detecting means, for example, separates the processing tank from the casing and suspends it from the housing, and changes the weight of the processing tank. In other words, it can also be realized by a weight sensor that detects moisture from the change in weight of the mixture.

Eleventh, when the water content of the mixture is appropriate and the decomposition state is good, the temperature of the mixture rises due to the heat of fermentation, and when the decomposition state is poor due to overdrying etc. I can't. Therefore, the moisture detecting means can also be realized by a temperature sensor that detects moisture by changing the temperature of the mixture.

Twelfth, the water content control means is realized by a stirring device for drying the sawdust or the like, which is a porous medium as a decomposition medium, by a stirring operation.

Thirteenth, the water content control means is also realized by a heating device for drying the mixture by heating.

Fourteenth, when the mixture is dried by heating with a heating device, the temperature of the mixture is maintained at 10 to 50 ° C. in order to suppress the decrease in the activity of bacteria.

Fifteenth, the water content control means is also realized by a ventilation device for drying the mixture by ventilation.

Sixteenth, when the mixture is heated or ventilated, an odor is likely to be generated. Therefore, the odor generation can be suppressed by operating the deodorizing device in synchronization with the operation of the heating device or the ventilation device.

Seventeenth, the water content control means can be made to dry efficiently by applying a stirring device, a heating device and a ventilation device at the same time to operate them. At this time, when increasing the drying amount per unit time, the ventilation device, the heating device, and the stirring device are operated in this order, and when decreasing, the stirring device, the heating device,
By operating the ventilation device in this order, it is possible to prevent unnecessary stirring and prevent wear of sawdust, which is a decomposition medium.

Eighteenth, the water content control means for adding water to the mixture is realized by a water tank for adjusting the water content by dropping.

Nineteenth, the water content control means for adding water to the mixture can also be realized by an electronic cooling device for adjusting water content by dropping condensed water.

Twentieth, when sawdust is used as a decomposition medium, the water content of the mixture controlled by the water content control means is specifically set to 10 to 60% to prevent the sawdust from being clay. , The dispersibility of the kitchen waste is improved and a good decomposition state is reliably maintained.

[0049]

Embodiments of the present invention will be described below with reference to FIGS. First, the configuration of the garbage processing device will be described with reference to FIGS. 1 and 2. A processing tank 3 having an internal volume of about 40 l is formed in the housing 1 through a heat insulating layer 2, and a lid 4 is attached to an upper charging port of the processing tank 3 so as to be openable and closable. A stirring device 6 having a blade that is rotated in the lateral direction by a motor 5 is provided at approximately the center of the processing tank 3. Stirrer 6
A ventilation plate 7 is attached to the lower part of the above, and a pump 8 as a ventilation device is provided below the processing tank 3 partitioned by the ventilation plate 7. Further, a heater 9 as a heating device is attached to the lower surface of the ventilation plate 7. 10 is sawdust as a decomposition medium contained in the processing tank 3,
It is adapted to be intermittently stirred by the stirring device 6 together with the thrown garbage and the microorganisms. On the inner wall surface of the processing tank 3,
A contact sensor 11 is attached as a moisture detecting means for detecting moisture in the mixture by changing the value of the current flowing through the mixture of the sawdust 10, the garbage and the microorganisms. As shown in FIG. 4, the contact sensor 11 reads the current value flowing through the mixture in synchronism with the stirring operation of the stirring device 6 and takes the average value thereof to increase the detection accuracy of the moisture value. 12
Is a control circuit. When the water content of the mixture detected by the contact sensor 11 exceeds a certain level, the control circuit 12 operates the stirring device 6, the pump 8 and the heater 9 as the water content control means to operate the mixture. Is dried and the water content of the mixture is controlled within a certain range. Reference numeral 13 denotes a temperature sensor for detecting the temperature of the mixture, which is a thermocouple or thermistor and is installed in the processing tank 3. FIG. 3 shows the cooperation of this control system in blocks.

Next, the operation of the garbage treating apparatus constructed as described above and the state change in the processing tank will be described. First, FIG.
The case where the amount of kitchen waste is high will be explained using. Processing tank 3
This is a case where 30 l of sawdust is put and garbage is put into this in a slightly overloaded state (2 kg / day). For this reason,
Moisture occupies about 80% of the garbage, but moisture is initially accumulated, but this is detected by the contact sensor 11, and the pump 8, the heater 9, and the agitator 6 are operated by the control signal from the control circuit 12. And ventilation volume, heater power value,
By increasing the number of times of stirring (FIGS. 5 (b) and (c)),
The water content of the mixture is maintained at about 40% (Fig. 5).
(A)). At this time, the heater power value is controlled so that the temperature in the tank does not exceed 60 ° C. in order to suppress the activity decrease of the bacteria. As a result, the sawdust 10 has a long life, the number of bacteria is maintained in a good state (FIG. 5 (d)), and a good decomposition state is obtained. Further, since the decomposition efficiency is increased and the sawdust 10 can be decomposed even when the amount thereof is small, it is possible to reduce the internal volume of the processing tank 3 and thus the overall size of the housing 1. The amount of kitchen waste discharged by ordinary households is 1 kg / d
Since it is called ay, it can be said that the amount of sawdust 10 of 10 to 20 l is sufficient, judging from the above processing results.
This is effective for saving space in general households.

Next, the case where the amount of kitchen waste is low will be described with reference to FIG. This is the case where the garbage is put into the sawdust 10 in the processing tank 3 in a slightly low load state (0.5 kg / day). In this case, the stirring time of the stirring device 6 is reduced according to the moisture detection value of the contact sensor 11, the heater power value of the heater 9 is reduced, and the ventilation amount by the pump 8 is reduced (see FIG. ), (C)), the water content of the mixture was 10% or less in the conventional example, while in this example, it was maintained at 20 to 30% to improve the decomposition performance (Fig. 6 (a). )). However, in order to suppress the decrease in the activity of the bacteria, the temperature inside the tank is maintained at 10 ° C. or lower due to the outside air temperature. Moreover, the number of bacteria was hardly reduced, and the condition was maintained in a good state (FIG. 6 (d)). Further, it is possible to suppress the scattering of the sawdust fine powder due to the drying, and to suppress the release of the microorganisms in the tank discharged together with the fine powder, which is preferable for safety and eliminates the risk of polluting the surroundings. Further, since the stirring frequency is low, the abrasion of sawdust is suppressed, and the life of the sawdust can be extended. FIG. 7 collectively shows the control patterns when the above-mentioned kitchen waste has a high input amount and a low input amount.

Next, the case of adding water as a method for controlling the water content in the mixture will be described. In the above-described method, when the amount of water is large, the amount of ventilation, the heater power value, and the number of times of agitation are increased to dry, but when the amount of drying is large, water may be added. Specifically, as shown in FIG. 9, the water tank 15
Is provided, and the valve 16 may be adjusted according to the detected water content to drop the water. 17 is a cap. Further, as shown in FIG. 10, the electronic cooling device 1 is provided on the inner wall of the processing tank 3.
8 may be attached and it may adjust with the moisture condensed here. In this case, the trouble of supplying water to the water tank is eliminated. Here, data on the dispersal of bacteria when the water content in the mixture is low will be described. The measuring method is a result of attaching an impinger to the exhaust port of the garbage disposal device, collecting the discharged bacteria and dust, and culturing in an HIB (heart infusion broth-added physiological saline) medium. The number of bacteria per 1 m ^{3 of} air is According to this, exhaust gas is 10 ² to 10 ³ more than general air.
It can be seen that the number is decreasing due to the large number of bacteria and the high water content. That is, it is not hygienic to dry more than necessary. When water is added as described above, when the sawdust is discarded, the sawdust solidifies and is easily discarded, and the sawdust fine powder does not scatter.

Next, each modified example of the moisture detecting means will be described. First, the water content detection means may be a stirring torque detection means for detecting water content based on a change in the agitation torque in the agitation device 6. The stirring torque may be measured with a torque meter attached to the stirring shaft of the stirring device 6, or may be calculated by measuring the driving force of the stirring motor 5. Although the value of the stirring torque changes depending on the state of the stirring device, it has been found that the garbage treatment device of the present embodiment changes with respect to the water content as shown in FIG.

The moisture detecting means may be a humidity sensor for detecting moisture by a change in humidity in the upper space of the processing tank 3 in which the sawdust 10 is placed. In this case, the moisture content is calculated by previously measuring the correlation between the detection value of the humidity sensor and the moisture content. This characteristic is that the humidity sensor does not come into direct contact with the sawdust, so that the reliability against wear is increased.

The water content detecting means may be a color change detecting means for detecting water content by the color change of the mixture. The sawdust, which is the main component of the mixture, absorbs water and reaches the end of its life. It changes from an initial light brown color to a dark brown color. Therefore, it is possible to detect the color change by measuring the light reflectance.
In this case, since the measurement can be performed in a non-contact manner, the reliability of the sensor is improved as described above.

The moisture detecting means may be a weight sensor for detecting moisture by the change in the weight of the mixture. In this case, the processing tank containing sawdust and the like is separated from the housing and suspended in air, and the weight change of the mixture is detected from the weight change of the processing tank.

The moisture detecting means may be a temperature sensor for detecting moisture by changing the temperature of the mixture. When the kitchen is in a good decomposition state, the temperature of the mixture rises due to the heat of fermentation. In particular, since air enters the inside during stirring, the temperature rises sharply and the temperature changes as shown in FIG. 8, for example. Therefore, the temperature detection is synchronized with the stirring operation, and the moisture content is detected from the temperature rise of the mixture before and after the stirring. If the garbage is too dry and the decomposition state of the kitchen waste is poor, or if the amount of kitchen waste is small, no temperature rise is observed.

Further, the water content detecting means may be an impedance sensor which detects water content based on a change in impedance of the mixture. This will be described with reference to FIGS. A pair of electrodes 19 for detecting the impedance of a mixture
a and 19b are processing tanks 3 near the heater 9.
It projects inside. By disposing the electrodes 19a and 19b in the vicinity of the heater 9 in this manner, it becomes possible to prevent the disturbance of the impedance due to the outside air temperature. In the electrodes 19a and 19b, when sawdust or the like becomes clay-like, it adheres to the surfaces of the electrodes 19a and 19b, causing an error in the detection value. 11 to 13 (a) show a structure in which the deposit is removed to prevent this. In this structure, the electrodes 19a and 19b are inserted into the mixture at the same time as the lid 4 by the foot lever 20 from the portion outside the processing tank 3. Reference numeral 21 is a lever spring, and 22 is a lid opening / closing rod. This operation may be such that the electrodes 19a and 19b are inserted into the processing bath 3 only when the lid 4 is opened, as shown in FIG. 11, and as shown in FIG. May be used so that it is pulled out of the processing tank 3 when the lid is opened. By moving the foot lever 20 downward, the lid opening / closing rod 22 is pushed up to open the lid 4, and at the same time, the electrodes 19a and 19b project into the tank and come into contact with the mixture. And the electrode 1 via the connector 25
A voltage is applied between 9a and 19b, the impedance is measured from the current value at this time, and the moisture value is calculated. When the foot is released and the lid 4 is closed, the electrodes 19a and 19b slide on the sliding portion 24.
The adhered matter is removed and stored by, and the voltage application is released. By removing this deposit, the reliability of the next detected value can be increased. In the above example, the deposits attached to the electrodes 19a and 19b are removed in synchronization with the operation of the lid 4, but a mechanism for scraping the deposits periodically may be provided separately. In addition to the method of scraping off as described above, the method of removing the adhered matter may be such that compressed air is blown to blow off the adhered matter, or the adhered matter may be removed with a cleaning liquid. FIG. 13B is a wiring diagram of the electric system of the electrodes 19a and 19b. The voltage may be direct current or alternating current 26
But it's okay. FIG. 14 shows the relationship between the water content and the impedance change with temperature as a parameter. Impedance is calculated by the following equation in the case of alternating current.

Z = √ [R ² + (Lw− (1 / Cw)) ² ] Further, when the mixture is heated or ventilated, an odor is easily generated. In order to remove this odor, as shown in FIG. 3, a deodorizing device 14 that operates in synchronization with the operation of the heating device 9 and the ventilation device 8 is attached. The deodorization device 14 uses a heating oxidation catalyst system or ozone.

In the present embodiment, sawdust was used as the decomposition medium, but any porous material in which bacteria inhabit can be used, such as zeolite or perlite. In this case, the appropriate water content may be changed depending on the decomposition medium, and may be such that stirring does not result in a dumpling state. Further, the stirring device, the heating device, and the ventilation device were operated at the same time as the water content control means controlled by the water content. However, if these can independently change the water content to an appropriate value, some devices Only one may be operated. On the other hand, when these three devices are used as the water content control means, the operation sequence is such that when the initial amount of water is large and the amount of drying per unit time is increased, a ventilation device, a heating device, a stirring device. When the initial amount of water is small and the amount of dryness per unit time is reduced, the stirrer, the heating device, and the ventilation device are sequentially operated. With such an operating sequence, there is no risk of causing sawdust wear by agitating more than necessary.

[0061]

As described above, according to the present invention,
First, since the water content detecting means for detecting the water content in the mixture and the water content controlling means for controlling the water content of the mixture so as to keep the detected water content constant, the water content of the mixture is appropriate. The decomposition medium can be maintained in a constant range to maintain a good decomposition state, and the decomposition medium can have a long life and its replacement frequency can be reduced. Further, as a result of improving the decomposition efficiency, the amount of the decomposition medium can be reduced, and the size of the processing tank can be reduced.

Secondly, when the water content detected by the water content detecting means exceeds a certain level, the water content controlling means is operated to dry the mixture, so that the water content of the mixture is maintained within an appropriate range. The same effect as above can be obtained.

Thirdly, when the water content value detected by the water content detection means is below a certain level, the water content control means is arranged to suppress the drying of the mixture, so that the water content of the mixture is maintained within an appropriate range. The same effect as can be obtained.

Fourth and fifth, since the moisture detecting means is a contact sensor attached to the inner wall surface of the processing tank, the sensor is in good contact with the mixture and the change in the current value flowing through the mixture is surely read, The moisture value can be accurately detected.

Sixth, the contact sensor reads the current value flowing through the mixture in synchronism with the stirring operation and detects the water content from the average value thereof, so that the measurement unevenness due to the location of the mixture is prevented and the detection accuracy is improved. improves.

Seventh, since the stirring torque in the stirrer changes according to the amount of water in the mixture, the water content detection means uses this stirring device to detect the water content by the change in the stirring torque. It can also be realized by the torque detecting means. In addition, it is possible to suppress unnecessary stirring when the input amount is small, to suppress generation of sawdust powder which is a decomposition medium due to abrasion, and to suppress unsanitary condition due to scattering of bacteria and sawdust powder. Also, scattering can be suppressed by not overdrying.

Eighth, by previously measuring the correlation between the humidity in the upper space of the processing tank and the moisture value in the mixture,
The moisture detecting means can also be realized by a humidity sensor that detects moisture based on a change in humidity in the upper space of the processing tank. Since this humidity sensor does not come into direct contact with the decomposition medium, reliability against wear is improved.

Ninth, since sawdust as a decomposition medium changes its color from, for example, light brown to dark brown depending on the amount of absorbed water, the moisture detecting means detects the color change of the mixture by the change of light reflectance and the like. It can also be realized by a color change detecting means. Since this color change detecting means can also be measured in a non-contact manner with respect to the decomposition medium, the reliability against abrasion is improved in the same manner as described above.

Tenth, since the weight of the mixture changes in accordance with the amount of water in the mixture, the moisture detecting means is, for example, a change in weight of the treatment tank, which is made by suspending the treatment tank from the casing and suspending it from the air. In other words, it can be realized by a weight sensor that detects water content from the change in the weight of the mixture.

Eleventh, when the water content of the mixture is a proper value and the decomposition state is good, the temperature of the mixture rises due to the heat of fermentation, and when the water content is small and the decomposition state is poor, the temperature does not rise. Therefore, the moisture detecting means can also be realized by a temperature sensor that detects moisture by changing the temperature of the mixture.

Twelfth, the water content control means can also be realized by a stirring device alone which dries porous sawdust or the like as a decomposition medium by a stirring operation.

Thirteenth and fourteenth, the water content control means can also be realized by a heating device for drying the mixture by heating. When the mixture is dried by this heating device, the temperature of the mixture is 10 to 50 ° C. By maintaining it at 1, it is possible to suppress the decrease in the activity of the bacterium.

Fifteenth, the water content control means can also be realized by a ventilation device alone which dries the mixture by ventilation.

Sixteenth, by attaching a deodorizing device that operates in synchronization with the operation of the heating device or the ventilation device, it is possible to suppress the odor generated during heating or ventilation of the mixture.

Seventeenth, a stirring device, a heating device and a ventilation device are applied as the water content control means, and when increasing the dry amount per unit time, the ventilation device, the heating device and the stirring device are operated in this order. When reducing the amount of dryness per unit time, by operating the stirring device, the heating device, and the ventilation device in this order, it is possible to prevent unnecessary stirring and prevent wear of sawdust, which is a decomposition medium, etc. be able to.

Eighteenth, since the water content control means is a water tank for adjusting water content by dropping, the water content can be maintained within an appropriate range even when the mixture is dry.

Nineteenth, since the water content control means is an electronic cooling device for adjusting the water content by dropping the dew condensation water, the water content can be maintained within an appropriate range even when the mixture is dry as described above. Moreover, unlike the case of the water tank, it is possible to save the labor of supplying water.

20th, when sawdust is used as a decomposition medium, the water content of the mixture controlled by the water content control means is
Specifically, by setting the content to 10 to 60%, it is possible to prevent the sawdust from becoming clay, improve the dispersibility of the kitchen waste, and reliably maintain a good decomposition state.

[Brief description of drawings]

FIG. 1 is a perspective view showing a partially cutaway configuration of an embodiment of a garbage processing device according to the present invention.

FIG. 2 is a diagram showing an internal configuration viewed from a side surface of FIG.

FIG. 3 is a block diagram showing a control system of the above embodiment.

FIG. 4 is a diagram for explaining the operation of the contact sensor in the above embodiment.

FIG. 5 is a diagram showing a control operation and a state change in the processing tank when the amount of kitchen waste is high in the above embodiment.

FIG. 6 is a diagram showing a control operation and a state change in the processing tank when the amount of kitchen waste is low in the above embodiment.

FIG. 7 is a diagram showing a flow of control when the kitchen waste has a high input amount and a low input amount in the above embodiment.

FIG. 8 is a diagram for explaining the detection operation when a temperature sensor is applied as the water content detection means in the above embodiment.

FIG. 9 is a view showing a water tank as a water content control means applied to the above embodiment.

FIG. 10 is a diagram showing an electronic cooling device as a water content control means applied to the above embodiment.

FIG. 11 is a diagram showing an impedance sensor as a moisture detecting means applied to the above embodiment.

FIG. 12 is a diagram showing another configuration example of the impedance sensor.

FIG. 13 is a diagram showing a wiring diagram of an electric system of the impedance sensor.

FIG. 14 is a diagram showing the relationship between the impedance detected by the impedance sensor and the water content.

FIG. 15 is a diagram showing a control operation and a state change in the processing tank in the conventional garbage processing device.

FIG. 16 is a diagram showing the relationship between the water content of the mixture and the stirring torque.

FIG. 17 is a diagram showing the relationship between the water content and the number of bacteria in sawdust.

FIG. 18 is a diagram showing the relationship between the water content of the mixture and the decomposition performance of kitchen waste.

[Explanation of symbols]

 1 Case 3 Processing Tank 6 Stirrer 7 Vent Plate 8 Pump (Ventilation Device) 9 Heating Heater (Heating Device) 10 Sawdust (Decomposition Medium) 11 Contact Sensor (Moisture Detecting Device) 12 Control Circuit 13 Temperature Sensor 14 Deodorizer 15 Water Tank 18 Electronic cooling device

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yasuzo Ishine 8 Shinsita-cho, Isogo-ku, Yokohama-shi, Kanagawa Kanagawa Prefectural Institute of Housing and Space Systems Technology Co., Ltd. (72) Hidehisa Ide 1 Ota-Toshiba, Ibaraki, Osaka -6 Toshiba Corporation Osaka Factory

Claims (20)

[Claims] 1. A kitchen waste processing apparatus for stirring and processing a decomposition medium, kitchen waste and microorganisms in a processing tank to decompose the kitchen waste as a mixture, and a water content detecting means for detecting water content in the mixture, and a water content detecting means for detecting the water content. And a water content control means for controlling the water content of the mixture so that the water content is constant. 2. A kitchen waste treatment apparatus for agitating a decomposition medium, kitchen waste and microorganisms in a processing tank to decompose the kitchen waste as a mixture, and a water content detecting means for detecting water content in the mixture, and a water content detecting means for detecting the water content. And a water content control unit that operates to dry the mixture when the water content exceeds a certain level. 3. A kitchen waste processing apparatus for agitating a decomposition medium, kitchen waste and microorganisms in a processing tank to decompose the kitchen waste as a mixture, and a water content detecting means for detecting water content in the mixture, and a water content detecting means for detecting the water content. And a water content control means for suppressing the drying of the mixture when the water content becomes less than a certain value. 4. The garbage disposal according to claim 1, wherein the water content detecting means is a contact sensor which detects water content by a change in a current value flowing through the mixture. 5. The kitchen waste processing apparatus according to claim 4, wherein the contact sensor is attached to an inner wall surface of the processing tank. 6. The kitchen waste according to claim 4, wherein the contact sensor is configured to read a current value flowing through the mixture in synchronization with the stirring operation and detect moisture from an average value thereof. Processing equipment. 7. The water content detecting means is a stirring torque detecting means for detecting water by a change in stirring torque in a stirring device for stirring the decomposition medium, kitchen waste and microorganisms. 3. The garbage processing device according to 3. 8. The garbage treatment device according to claim 1, wherein the water content detecting means is a humidity sensor for detecting water content by a change in humidity of an upper space of the processing tank. 9. The garbage disposal according to claim 1, wherein the water content detecting means is a color change detecting means for detecting water content by a color change of the mixture. 10. The kitchen waste processing apparatus according to claim 1, wherein the water content detection means is a weight sensor that detects water content based on a change in weight of the mixture. 11. The kitchen waste disposal apparatus according to claim 1, wherein the water content detection means is a temperature sensor that detects water content based on a change in temperature of the mixture. 12. The garbage disposal according to claim 1, wherein the water content control means is a stirring device for drying the mixture by a stirring operation. 13. The kitchen waste treatment device according to claim 1, wherein the water content control means is a heating device for drying the mixture by heating. 14. The cooking apparatus according to claim 13, wherein the heating device heats the mixture so as to maintain the temperature of the mixture at 10 to 50 ° C. 15. The food waste treatment device according to claim 1, wherein the water content control means is a ventilation device for drying the mixture by ventilation. 16. The deodorizing device, which operates in synchronization with the operation of the heating device or the ventilation device and deodorizes the odor generated from the mixture, is attached.
3, 14 or 15 garbage disposal device. 17. A stirring device, a heating device, and a ventilation device are applied as the water content control means, and when the amount of dryness per unit time is increased, the ventilation device, the heating device, and the stirring device are operated in this order. When the amount of dryness per hour is reduced, the stirrer, the heating device, and the ventilation device are operated in this order, and the garbage disposal device according to claim 1 or 2. 18. The water content control means is a water tank for adjusting water content by dropping.
Or the garbage disposal according to 3. 19. The garbage disposal according to claim 1 or 3, wherein the water content control means is an electronic cooling device for adjusting water content by dropping condensed water. 20. When the sawdust is used as the decomposition medium, the water content of the mixture controlled by the water content control means is 10 to 60%.
2, 3, 12, 13, 15, 17, 18 or 19 garbage disposal device.