JPH10314709A - Organic-matter odorless-decomposition and decaying non-drainage mechanism provided with photoelectric display and voice transmission function by using micoorganism - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the shortage of oxygen and the dispersion of smell due to an excess moisture from occurring by continuously performing an odorless decomposition through mixing a photosynthesizing and deodorizing bacterium with the help of a thermal electric bulb provided and at the same time, keeping an organic matter decomposing medium agent dry to cause the decomposition and decaying process of organic garbage with a moisture contained in the garbage. SOLUTION: A thermal electric bulb is installed on the internal top of an almost cylindrical treatment tank 8 to emit a light to an organic matter decomposing medium agent 35 incessantly, so that a photosynthesizing and deodorizing bacterium to be mixed with the organic matter decomposing medium agent 35 continuously performs a deodorizing and decomposition activity. At the same time, an in-tank air feeder 3 is installed in a gap space between the decorative board 33 of a treating machine body 1 and the almost cylindrical treatment tank 8. The in-tank air feeder 3 is connected to an air feed hole 23 with a metal not opened in the bottom part of the almost cylindrical treatment tank 8 through an air feed pipe 24. Thus a fresh air is fed into the almost cylindrical treatment tank 8 so that the organic matter decomposing medium agent 35 is kept dry. Under this state, an organic garbage can be decomposed to decay utilizing a moisture contained in the organic garbage.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention is based on the prevention of global environmental pollution and is based on the international marine pollution control law based on the ratification of an international treaty. For the protection of the environment together with countries around the world, including on the sea and on land, this is related to the destruction of organic garbage by microorganisms with no energy for the protection of the environment.
It has a wide range of fields of use, from land equipment business to general household use, to people with visual impairment who cannot confirm the bio-state in the processing machine, to elderly people with reduced vision for home care.

[0002]

2. Description of the Related Art Conventionally, organic matter is treated by adding organic matter into a treatment tank, adding a fermentation aid, accelerating fermentation and ripening, and converting the organic fertilizer into organic fertilizer. Most of them are large bucket type, and on condition that they are installed on the soil for the generation of decomposition water, in recent years a one-tank type automatic garbage disposal machine has been released, but since eggs are similar to inorganic garbage, Fish bones do not decompose at all, and the lump of remaining rice cannot be decomposed, and odors and maggots are generated. Deodorizing equipment is installed to generate strong odor due to heat fermentation, but the garbage decomposition odor generated without care cannot be deodorized due to the combined odor, and the noise of the drive unit is reduced. It can not be used violently in urban areas and housing complexes,
In addition, the amount of decomposition garbage required for the decomposition of organic garbage is extremely large, and of course the treatment tank is also large, and a fungus-implanting agent is added to the treatment tank as a bio-agent together with the garbage daily or at regular intervals. In addition, there is a limit to the disassembly, and it is necessary to frequently take out the inside of the disassembly, and it is impossible for general users to grasp the normal state of the disintegration medium inside the processing machine, and in the worst case Used to buy unpopular,
In the residue removal method, it is troublesome to loosen screws and nuts and bag the residue flowing out on the ground, and it is necessary to maintain a state of bio that can be said to be a very difficult technique with a certain knowledge There are only things that cannot be used.

It is no exaggeration to say that there is no user who purchases a model with sufficient processing capacity in organic garbage processing. In addition, in the business related to the use of biomass, since the day when the amount twice as much as the average amount generated in a month occurs again, the biobalance inside the processor due to overloading is lost, and the decomposition efficiency is reduced. The reason why many problems such as generation of odor, generation of decomposed water, generation of pests and the like are caused because it is almost impossible to grasp the bio state.

[0004] For a new product, the user never knows the normal condition of the processor inside, and the manufacturer can start the test inside the factory and understand any problems in using the processor. In spite of the fact that the user is very careful about using it, the result is a lot of problems with the use of the product, which is causing a serious problem in the living environment near the installation site.

[0005]

The technical problems to be solved and used by the present invention are as follows. (A) Generation and removal of decomposition odors that are inevitable in the process of processing organic garbage. As long as the conventional processing machine gives the humidity, raises the temperature, performs fermentation processing, and adopts the method of converting it into organic fertilizer, odor is inevitably generated. The garbage was thrown away at the room temperature by the addition of garbage, thereby preventing the generation of odor.
In addition, when the processing machine body is made of metal in an open-air installation, the upper surface temperature of the processing machine body is close to 80 ° C. in summer,
The temperature inside the processing tank also rises more than necessary. At the same time, even in the event of seeing signs of odor generation, the biobalance will be disrupted due to the excessive input of garbage exceeding the limit,
An alkaline and acidic two-liquid deodorizing device can be installed so that it does not disturb the neighborhood by sensing with a gas sensor. (B) Automation of equipment The conventional automation of each type of equipment includes automatic start / stop by opening and closing the lid for putting in garbage, automatic intermittent operation of the equipment, and the method of adding water when the fermentation processing machine is dried. In this case, the detector itself is a rod-shaped object, and the difference from the state of the whole organic matter decomposition medium in the treatment tank is partially detected. Has occurred. Therefore, the present invention stably and reliably grasps the state of the entire processing tank electrically in the future, and automatically controls the operation of the equipment before shifting to an abnormal state even in use in an extremely cold region from immediately below the equator. The system is also provided with a mechanism for maintaining a normal state by performing the above operation, and in a case where the state becomes uncontrollable by the automatic operation, by notifying the user with a lamp display and a voice notification or a voice-only message. (C) Degradation of garbage. Since it is impossible at all to make the user judge the change of the organic substance decomposition medium during the process of putting garbage, it electrically stores the normal state of the organic substance decomposition medium,
Controls related to each device will be automatically performed, and the residue will be completely eliminated without any residue. In the on-board test of the national agency, the actual numerical value of disappearance for 12 consecutive months on multiple ships will be incorporated into the device effectively. It was a thing. In addition, although the conventional model has a poor degree of decomposition and is accompanied by the generation of residues, there is a case where a crushing blade is installed on the stirring blade because the decomposition of fish bones and egg shells is almost impossible. In the present invention, the composition of the organic substance decomposition medium, the stirring time, the supply of oxygen, and the stable state of the organic substance decomposition medium are maintained, and the effect is maintained. (C) Garbage decomposition water. As long as garbage is naturally decomposed, the generation of decomposed water will inevitably occur, but as long as it is fermented with the conventional humidity and temperature,
Decomposed water is discharged as surplus moisture due to the capacity limit of the conventional organic matter decomposition medium agent. However, since the present invention is a dry organic substance decomposition medium agent, it absorbs decomposed water sufficiently and automatically emits it depending on the configuration of the equipment, and the Japanese-Australia route for several months has also been No drop of decomposed water was observed in the onboard test. (D) A fermentation decomposition heating device. Temperature is indispensable for the fermentation of organic matter, but to extract the self-energy of the fermenting microorganisms quickly, each company has conventionally used fermentation organic fertilizer accelerators as bio, but even in the summer, especially in cold weather At the end of the period, the organic matter decomposing medium has a large amount of humidity, so that the heat conductivity is so large that the fermentation becomes impossible and a heating device is required. The present invention uses a method in which the organic matter decomposition medium is kept in a dry state and uses a heat insulating material function of the organic matter decomposition medium itself even in a slight temperature drop in winter, and does not require a heating device even in winter. Since only the automatic operation of the heating system at the southern end of Australia in winter was seen in the experiment onboard the sea route, a treatment tank heating system was installed as a system that operates only when necessary and fully automatic. (E) Torque of the stirrer shaft drive and equipment failure. Conventionally, a processing machine that requires a large amount of decomposition media material for the garbage decomposition process has a large size, which increases the absolute amount of the decomposition media material, and has a large power because it requires humidification. Due to the state of the inside of the processing tank, wear and breakage of all the devices reaching each driving part are frequently occurring, but the present invention is a dry organic matter decomposition medium material,
The required amount of organic decomposition medium is 10 l per liter of garbage
It was a very simple and power-saving processor because it could be done before and after.

[Means for solving the problem]

[0006] The present invention, with the aim of preventing marine pollution based on the ratification of the International Treaty, began testing on ships at the Japan Coast Guard headquarters together with the Japan Coast Guard 6th Regional Coast Guard Headquarters several decades ago. Is based on the Ministry of Transportation Ship and Ocean Foundation Development Fund,
Research and development of a system for eliminating odorless organic garbage by using microorganisms to eliminate and eliminate odorless organic waste.This time, all of the issues were solved. The aim is to provide an inexpensive and reliable processor.

[0007] In order to achieve the above object, the conventional problems have been solved as follows. Regarding the decomposition odor, in the best combination of the decomposition medium agent necessary for the decomposition of organic substances, photosynthetic deodorizing bacteria are mixed by installing a hot light bulb to continuously perform odorless decomposition, and at the same time, the decomposition medium material is kept dry. The water required for decomposition is based on the organic garbage, and even if fermentation heat is generated, it is automatically detected and controlled by the air supply device in the tank and the air discharge fan in the tank. Maintaining a constant temperature without raising the temperature above, adding fresh air without adding to the decomposing ability of microorganisms, promoting the oxidation phenomenon and releasing unnecessary moisture, and at the same time decomposing medium material In order to make the most of these effects, taking into account its own deodorizing function, if the fermentation heat is generated more than necessary by the temperature detection in the processing mechanism, the stirring operation time is extended and the stirring time is extended. Heat dissipation or automatic Cold air is supplied by an air cooler installed in the processing machine body, and complete supply of oxygen and diffusion of moisture are performed, controlling the phenomenon of excess water due to the input of garbage and limiting fermentation odor. It was held down to.

[0008] One end of the decomposition odor also depends on the decomposition rate of garbage, and at the same time, as the amount of water increases, the amount of odor increases. Decompose garbage by insulating and installing negative, positive and negative electrode plates, detecting the resistance value between the two electrode plates by passing a weak current, and automatically keeping the water content in the tank constant by an electric signal. The promotion of the temperature and the prevention of oxygen deficiency and odor emission due to excess water were prevented, and the humidity of the decomposition medium in the treatment tank was transmitted to the user by a lamp and sound, or only by sound.

At the same time, the detection of humidity by the negative and positive bipolar plates also prevents the generation of dust due to overdrying of the organic decomposition medium when no garbage is charged or when the amount of garbage is small.

Since the present invention is intended to eliminate garbage even when the organic substance decomposing medium (32) is in a dry state, the resistance value between the negative and positive electrodes is detected to supply air in the tank. It is sufficient to stop the machine and, in some cases, the air discharge fan in the tank, and it is not necessary to supply water in a dry state.

The installation place of the negative and positive electrodes is not set on the left and right walls of the substantially cylindrical horizontal processing tank (8), but on the working line of the stirring blade on the inner surface circumference, or the substantially cylindrical horizontal processing tank. (8) The reason why the insulation is installed on the horizontal line at regular intervals is that the surface of the electric electrode plate can be constantly polished and cleaned by the organic matter decomposition medium material interposed between the tip of the stirring blade and the surface of the electric electrode plate by the rotation operation of the stirring blade. It prevents electric current from changing due to the oxidation of the surface of the electric electrode plate due to the oxidative decomposition of garbage. If both electric poles are installed, the current value has to be increased when the distance between the electric poles is large in a large metal processing machine. Because he did.

The normal water content of the decomposition medium of the present invention is 50.
However, if the current value temperature detection control circuit (17) is set with this range as a normal value, the resistance value between the positive and negative electrodes increases if the state shifts to a dry state, and the lamp display and sound notification are performed. Alternatively, the air volume of the air supply unit (3) in the tank is attenuated together with the notification message of only voice, and the air supply is stopped when it is still dry. ) Operates at the maximum, and if the intention of over-humidity is intended, the bath treatment heating device is operated.

[0013] The treatment tank heating apparatus has not only the purpose of controlling the humidity and temperature of the organic substance decomposition medium to prevent odor generation, but also the purpose of maintaining the decomposition efficiency in a ship in a cold region or in a cold region on land.

With respect to the downsizing of the organic matter decomposition treatment machine, the use of the organic matter decomposition medium material keeps the dried state, reduces the water content of the organic garbage, frequently performs the stirring, and simultaneously reduces the amount of air. By feeding the supply to every corner, oxidative decomposition was promoted and moisture was diverted, and it was found that a required amount of decomposition medium material of 10 l was sufficient for 1 kg of separated organic waste per day on average. By the way, most of conventional organic substance decomposition medium materials mainly use wood flour or the like, but in order to decompose organic substances by these materials, 50 l or more per 1 kg of organic substance to be decomposed is required.

According to the present invention, since the organic substance decomposition medium is in a dry state, the thermal conductivity is low even in winter, and the organic substance decomposition medium itself plays a role of a heat insulating material. There is no operation of the heating device (4).

The organic matter decomposition medium itself is in a dry state,
Even if organic garbage having a water content of 85% or more is introduced, the decomposition water generated during the decomposition process is absorbed by the organic matter decomposition medium itself because the water absorption of the organic matter decomposition medium is extremely high.
Stirring and tank air exhaust fan or tank air supply device (3)
Because it is evaporated and is in a dry state without endurance, there is no discharge of decomposed water.

In organic garbage, fish bones, egg shells and the like are inevitably generated, but fish bones are formed by the combination of calcium and other organic substances (proteins, etc.). After one day, the outer calcium shell is decomposed within a few days like the fish bone due to the separation and decomposition of the inner cuticle from the egg.

Due to the simplification of the stirring mechanism and the characteristics of the present organic matter decomposing medium, 1 kg of the conventional organic substance to be decomposed per day is obtained.
Of the present invention requires a motor of 100 W or more, whereas the present invention is based on the fact that the organic substance decomposing material is light in weight due to its dry state, has very good air permeability, and can be rotated at a low speed.
A watt motor is sufficient, and even if the amount of organic matter processed per day is large, 20 kg, the 400 watt motor operates satisfactorily and the processing tank heating device does not operate except in cold regions, so the electricity bill is extremely small. .

Since the organic matter decomposing medium material is in a dry state, the treatment tank heating device is not normally operated, so that it cannot be decomposed due to disconnection of the heater. However, in an extremely cold region, the treatment tank is naturally used in a cold region. A heating device is required, but in order to avoid the risk of fire, the insulation inside the decorative panel should be flame-retardant or, if necessary, non-combustible.

According to the present invention, since the organic substance-decomposing medium is implanted with the organic substance-decomposing effective microorganisms and the decomposition ability is maintained, it is necessary to input the microorganisms daily or at regular intervals, as in the prior art. No, running costs are extremely low.

Since there is no need for an organic substance-decomposing microbial preparation to be injected daily or at regular intervals, there is no danger of forgetting the injection or a risk that children will mistakenly use the degrading bacteria implantation agent for other purposes.

Although the conventional organic matter decomposition processing apparatus often suffers from failures in electric equipment, a stirring device, etc., the organic garbage processing apparatus becomes a necessity of life once it is used, and it is particularly troublesome in summertime. Is a simple mechanism with no failure points. Also, when taking out the organic matter decomposition medium material, put a bag on the outlet with a funnel, and do not stain your hands by automatic discharge,
In the case of a small household processing machine, two places were installed, one for full removal and the other for partial removal, and the invention was invented so that the enclosure with a bag stopper was automatically discharged through the removal opening.

At present, when the disposal of organic garbage is being socially emphasized, the price must be affordable in households of all classes including the handicapped, but the present invention has no bio-knowledge. In addition, even those who cannot confirm within the processing tank due to visual impairment can safely confirm the bio state by either lamp display or audio notification, and the labor cost is imposed due to the simplification of the number of parts and the small number of assembled parts. It can be manufactured at a cost that can be purchased in all families.

[0024]

DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in FIG. 1, a horizontal, substantially cylindrical processing tank (8), which is not completely cylindrical but is cut slightly above a center line, is installed in a processing machine body (1). Is done.

At the upper end of the rear part of the substantially cylindrical processing tank (8), a filter (6) containing an odor removing agent is installed. In order to avoid discharge from the processing machine body (1) by the air discharge fan (2) in the tank.

In the upper part of the front surface of the substantially cylindrical processing tank (8),
An air inlet (22) in the tank is provided, and the air in the space between the decorative plate (33) of the processing machine body (1) or the decorative plate (33) with heat insulating material and the substantially cylindrical processing tank (8) is supplied into the processing tank. This allows fresh air to be introduced into the processing tank, and warm air in the case of a cold district specification to be sucked into the processing tank.

The left side wall (9) of the substantially cylindrical processing tank (8),
On the right side wall (10), left and right bearings (11) through which the stirring shaft (12) is installed are installed, and the stirring shaft (1) is installed.
2) is held in a rotatable state.

The rotating direction of the stirring shaft (12) is counterclockwise when viewed from the left side wall (9) of the left side when viewed from the front of the substantially cylindrical processing tank (8). The reason for this is that the funnel outlet (22) of the organic substance decomposition medium material (35) faces the front of the processing machine body (1), and the discharge of the decomposition medium (35) is caused by the rotation of the curved stirring blade (14). Because it is easy to discharge, there is no need to perform a reverse rotation operation at the time of discharging. In particular, in the case of driving by the chain (29),
The complicated adjustment of the chain holder (30) in the case of reverse rotation is eliminated, and simplification is possible.

As shown in FIGS. 4 and 5, a curved stirring blade (14)
Is a curved stirrer blade (14) shaped to worship in the direction of rotation, and its degree of curvature is an approximate value of the length from the center of the stirring shaft (12) to the tip of the curved stirrer blade (14). The radius is preferable, but slightly varies depending on the power of the stirring shaft driving device (5).

[0030] Between the tip of the curved stirring blade (14) and the middle,
A stirring claw (13) is provided.

As shown in FIG. 3, there is no curved stirrer with a stirrer (13) parallel to the stirrer shaft (12), but a central stirrer with a stirrer (13). In (14), the object has two wings, and one of the stirring claws (13) faces to the right, and the other wing faces to the left.

The planes of the stirring pawls (13) of the curved stirring blade (14) on the left side wall and the curved stirring blade (14) on the right side wall are respectively installed facing the center of the stirring shaft (12).

The stirring claws (1) of the other curved stirring blades (14)
3) are all inclined toward the center of the stirring shaft (12), and the approximate values of the plane inclination angles of all the stirring claws (13) are about 30 degrees.

As shown in FIG. 1, a stirring shaft driving gear (27) is fixed to one end of the stirring shaft (12) by a key via a bearing (11).

A processing machine base plate (31) is provided on the processing machine body (1).
However, there is a stirring shaft drive gear (24) and a stirring drive gear (2) of a stirring shaft drive (5) installed in the processing machine body (1).
5) is connected by a chain (26), but a method in which a stirring shaft driving gear (24) and a stirring driving machine gear (25) directly mesh with each other was also implemented.

On the front upper surface of the processing machine body (1), there is provided a rainwater inflow prevention opening cover (31).
With an opening of 5 mm, each time the lid is opened, a stirring shaft (1
2) Stop the rotation and perform automatic operation with complete closure.

The rotating operation of the curved stirring blade (14) is usually provided with an electric control panel (7) which is operated and stirred for several minutes at regular intervals, but in the case of an increase in the water content of the organic matter decomposition medium material (35), A change in the current value between the negative electrode plate (15) and the positive electrode plate (16) is detected, and a lamp display and an audio notification or only an audio notification is installed on the processor body (1), and an organic substance decomposing medium is provided. At the same time as transmitting the state of (35) to the user, control is performed to automatically extend the stirring time for the purpose of water release.

As shown in FIG. 1, a substantially circular processing tank (8)
A funnel outlet (22) with a bag stopper collar at the tip is provided at the lower front part of the bag. The bag is put on the collar, and only the rubber band or the bag fastener is used to remove the organic matter decomposition medium material (35) inside. The removal for replacement can be automatically and easily performed.

The periphery of the processing machine body (1) is covered with a decorative plate or a decorative plate with a heat insulating material (33). The decorative plate with a heat insulating material is used in a cold region.

Further, as shown in FIG. 10, an insertion cover with packing (42) is inserted into the outlet (22) with a funnel and closed, and the eccentric rod receiving holes (left and right) on the left and right of the outlet (22) with a funnel are provided. An eccentric holding rod (44) is installed at 43), and it is easily and reliably collected directly into the bag to keep the surroundings clean.
One-touch opening and closing are performed to prevent leakage of the organic substance decomposition medium (35) and facilitate replacement.

A processing tank heating device (4) is installed in the space between the decorative plate (33) covering the processing machine main body (1) or the decorative plate with heat insulating material (33) and the substantially cylindrical processing tank (8). The automatic temperature control mechanism operates only when the temperature of the cold region in winter decreases, or when the water content of the decomposition medium (35) increases due to a large amount of garbage, etc., and the ambient temperature drops to 0 ° C. Even so, the organic matter decomposition medium material (35) is always in a dry state, so that little heat is dissipated, and there was no use in the winter season west of Tokyo.

An air supply unit (3) is installed in the space between the decorative plate (33) of the processing machine body (1) or the decorative plate (33) with heat insulating material and the substantially cylindrical processing tank (8) to supply air. Tube (2
4) connected to an air supply hole (23) provided with a metal mesh at the bottom of the substantially cylindrical processing tank (8) through which the fresh air is supplied into the processing tank and also helps the drying of the organic substance decomposition medium material (35). It is.

As shown in FIG. 11, the interior of the openable decorative plate or the decorative plate with heat insulating material (33) at the outlet (22) with a funnel at the front of the processing machine body (1) is interlocked with the opening of the decorative plate. A switch (45) is provided, and the organic matter decomposition medium material (3
5) For replacement, for the sake of safety, all the mechanisms are automatically stopped simultaneously with opening of the decorative panel or decorative panel with heat insulating material (33), the bag is applied, and the start push button switch (46) in front of the user is put on. For the first time, a curved stirring blade (1
4) rotated to enable safe automatic discharge.

The stirring shaft drive (5) and the stirring drive gear (2)
8) Inspection door or decorative panel or decorative panel with insulation material that can be opened for maintenance of equipment such as 8) (30)
Similarly, when all the mechanisms are automatically stopped by the decorative panel release interlocking switch (45) for safety and the equipment is operated for inspection or the like, the start push button switch (46) ).

Depending on the installation location of the processing machine body (1), a key having no projections may be provided for safety, including children and children, for safety.

As shown in FIG. 12, it is natural that an emergency stop button is installed on the outside of the front of a large processing machine body (1) for business use or the like. In the upper part, the entire mechanism is stopped by manually pulling an emergency stop wire (47) installed in parallel with the stirring shaft outside the radius of rotation of the curved stirring blade (14), and at the same time, the processing machine body (1)
An emergency stop switch (48) in the processing tank, which sounds an alarm, is provided outside. This is because the power switch of the processing machine main body is applied by a third party for some reason even if the power switch is turned off to enter the processing machine for inspection, cleaning, etc. in the substantially cylindrical processing tank (8). In this case, the rotation speed of the curved stirring blade (14) is controlled by the drive motor 1.
Because it is decelerated to about 1/800 for 600 rotations,
Regardless of the location, there was plenty of time to pull the emergency stop wire (47) above the inside of the treatment tank, thereby ensuring safety by shutting down the entire mechanism and at the same time giving a danger.

As shown in FIG. 12, a heat bulb (48) is provided in the upper portion of the substantially cylindrical treatment tank (8) to constantly illuminate the light, so that the photosynthetic bacteria contained in the organic substance decomposition medium (35) can be propagated. Most of the deodorizing bacteria are photosynthetic bacteria, and in particular, the deodorizing photosynthetic bacteria extracted from pig feces are useful.

As shown in FIGS. 7 and 8, the stirring shaft (12)
Except for the bearing part, it has a polygonal shape like a triangle, square, pentagon, hexagon, and a hole similar to the polygon of the stirring shaft (12) is opened at the base of the curved stirring blade (14). A plurality of curved stirring blades (14) are fixed by changing the angle for each fixing position of the stirring shaft (12). This advantage is that the curved stirring blade (14) can be easily attached to the stirring shaft (12), and depending on the length of the stirring shaft (12), a plurality of curved stirring blades (1) can be used.
Even if the stirring shaft torque is attenuated and the stirring efficiency is increased by freely changing the angle of 4), or the stirring blade is broken, replacement and repair can be performed on site.

As shown in FIGS. 4, 5 and 6, a shaft keyway (49) is previously formed at a position where the curved stirring blade (14) is installed on the ordinary cylindrical stirring shaft (12). In addition, the root of the curved stirring blade (14) is divided into two parts holding the stirring shaft (12), and is attached with a key and fixed by a plurality of vaults. However, installing a stirring blade with a welded structure on a stirring shaft that is constantly loaded means that whatever the material is, brittle fracture due to repetitive stresses at the root of the stirring blade and the welded part will not be able to maintain strength for a long time. In the event of an accident with a stirring blade, welding is not performed at all to solve the problem on site.

As shown in FIG. 15, the stirring shaft (12) penetrates through the left side wall (9) and the right side wall (10) and the bearing (1).
Attached in 1), an abrasion-resistant sealing with flange (52) is attached to the gap between the stirring shaft (12) and the wall,
Abrasion-resistant sealing with flange of stirring shaft (12) (5
2) A spiral groove (53) is formed on the inner surface of the penetrating portion so that the organic substance decomposition medium material (35) is not discharged out of the left and right walls according to the rotation direction of the stirring shaft (12). The purpose of (35) is to prevent powder leakage.

In the case of a small processor, a curved stirring blade (1
4) and the agitating claw (13) are made of synthetic resin, but in this case, in the case of small household use, uniform products can be produced for mass production of the same standard and are effective. There are various types of synthetic resins with the above rigidity, which greatly contribute to cost reduction.

As shown in FIG. 12, when the metal processing machine main body (1) is installed in the open-air and is exposed to direct sunlight as shown in FIG. In addition, in a loading test on a Japan-Australia iron ore carrier, the temperature of the organic decomposition medium (35) naturally rose because it rose to nearly 100 ° C just below the equator, and generated some odor. In some cases, an air cooler (54) was installed in the space between the decorative plate (33) of the processing machine body (1) or the decorative plate (33) with a heat insulating agent and the substantially cylindrical processing tank (8). It has been installed to eliminate odors in any region on the earth, paying attention to the protection of electrical control equipment components and the long-term conservation of the living environment.

As shown in FIG. 16, when a small boat is mounted on a yacht, in particular, when it is obliged to perform incline sailing, a hanging rod (55) and a hanging hardware (56) make it possible to move the pendulum forward and backward. In some cases, the hanging hardware may be hanging hardware from the ceiling. In a ship, pitching motion (motion in the longitudinal direction of the ship)
Since the rolling sway (sway of the ship on the left and right sides) has a larger inclination angle, it is sufficient to hang the sway in one direction in the front and rear direction even in relation to the installation location. In particular, the dumping of garbage into the ocean is prohibited by law, so it is desirable to respond to small leisure boats.

As shown in FIG. 15, in the case of a small processing machine,
The almost cylindrical processing tank (8) is divided into two parts so that it can be molded using a small resin molding machine.
If the future social situation requires a slightly larger size,
It is possible to increase the processing capacity by merely increasing the width without changing the height before and after the processing machine main body (1) only by creating an adapter to be inserted in the middle of the split.

In the present invention, various base materials of the organic substance decomposition medium material (35) were examined, and the purpose of selection is as follows.

(A) As a component, it is not a substance that harms plants at all when returned to the soil. The conventional decomposition medium material is often wood flour only, but the plant contains a large amount of germination inhibitors (lignin, etc.), and when it is reduced to soil, the fields will become nitrogen-starved in several years. It is a well-known fact that there is a risk of causing phenomena.In addition, from the usage situation where the type of input garbage cannot be limited, solid wood hardens depending on the type of input garbage when using only wood flour, and damages equipment. This is the current situation.

(B) The ability to retain and emit water is very large. In the case of only wood, it varies greatly depending on the type of tree, and there are some that have crushed cedar wood powder into uniform particles, but the effect as a decomposition medium material has been questioned by local governments,
In addition, since long-term stable supply of only certain kinds of wood flour in terms of material and price is not possible, a stable material, especially industrial waste, was selected.

(C) In the case of peat moss, it is a porous fibrous material. It is supplied stably in large quantities for civil engineering and horticulture from Canada, North America, etc. due to its constant quality. At the same time, it is impossible to supply certain types of wood flour due to changes in wood species.At the present time, crushed wood flour from waste wood is used, and dangerous chemicals such as insect repellents and fungicides are mixed in. That is the current situation.

(D) Very good air permeability. In the case of wood flour, even though there is a fine tube of wood flour itself, its air permeability is only in one direction, and it has an annual ring hard component, which is less than half of peat moss.

(E) The organic matter decomposing medium material of the present invention other than wood flour has no lumpy change or hardened lumpy change due to aging.
The driving machine may be small. In the case of wood flour, when the water content of the input organic matter is large, the wood becomes a lump or a hard lump, and the overload phenomenon of the reduction drive is required.

(F) Since the organic substance decomposition medium material of the present invention has a very good air permeability, it is easy to emit the decomposed water even in the winter season. After about 20 days, it becomes over-humidified.

(G) Since the space ratio is large, the heat retention state is very good. In the case of using only wood, the use of about 20 days will reduce the porosity like pulp, the curtain of water will be formed on the surface, the heat retention will be reduced, and it will be difficult to keep and emit the decomposition water of garbage Become.

(H) Since the organic matter decomposition medium material of the present invention has a good air circulation, a good heat retention state, and a good moisture content,
Since the decomposition rate of the organic matter to be decomposed is good due to the good stirring rate of the processing machine body of the present invention and the matching of the drive stirring time and the drive stop time, the experiment was conducted on a Japan Coast Guard ship.
Decomposition without odor for a day was possible.

Each of the organic substance-decomposing medium materials according to the present invention was mixed with peat moss, wood flour, tea grounds, coffee grounds, a porous inorganic material or the like alone or in place of the bulking agent and the fragrance, respectively. The effect was quite good.

The purpose of blending copper carboxymethyl cellulose with the organic substance decomposing medium (32) is to prevent the propagation of various bacteria other than the organic substance decomposing bacteria by the metal copper ion, thereby improving the safety and hygiene and the propagation of putrefactive bacteria. The purpose of this is to prevent the occurrence.

A nitrogen agent is added to and mixed with the organic substance decomposing medium (32). The nitrogen is added and mixed when the amount of nitrogen necessary for decomposition depends on the type of organic substance to be decomposed, or when there is a possibility of such. However, there was no problem if the mixing amount was too large because it would be released as ammonia.

[0067]

As described above, the present invention can be divided into a mechanism for eliminating odorless organic substances by microorganisms as a treatment machine and a drainage mechanism for organic substances, and a medium for decomposing organic substances by microorganisms which can eliminate organic substances. Odorless components can be eliminated and drained only after considering all conditions such as the type of decomposed organic matter, moisture content, treatment capacity, outside air temperature, outside air humidity, and so on. The decomposing medium material, or the organic matter decomposing effective microorganisms to be input as necessary, must match in the best condition.In addition, depending on the type of organic matter decomposing medium material and the use judgment of bio-knowledge, Since the difference in the functional capacity of the decomposition treatment occurs greatly, the state of use of the organic substance decomposition medium (35) is communicated to the user by lamp display and sound notification or sound notification, and precautions for use Arouse, and safely, anyone, was set to represent the same effect.

It is impossible for a user who uses a garbage disposer to know the best operating state of the organic decomposition medium from the beginning of use.
Also, no matter how much instruction is given to use, it is not possible to detect a change in the decomposition medium due to a difference in the type of garbage to be thrown daily, a difference in the amount of garbage, a change in temperature, and the like.

Accordingly, the oxygen-deficient state of the decomposition medium due to over-humidification, anaerobic fermentation based on it, propagation of various bacteria, generation of odor,
In addition, by electrically detecting and controlling all the shortcomings such as dust scattering due to overdrying of the decomposition medium material when long-term garbage is not thrown in, any ignorant person can completely eliminate odorless garbage from that day. It has become possible.

According to the present invention, since it is possible to decompose with the moisture of the organic substance to be decomposed without humidifying the organic substance decomposing medium material, the stirring can be carried out uniformly by a simple rotation of the stirring blade of a very simple mechanism. As a result, regardless of the type of organic substance to be decomposed by the full automation, the organic substance decomposing medium of the present invention and the processing machine main body exhibited an extremely effective effect.

There are a number of test results for the number of days to be eliminated and eliminated depending on the type of organic matter to be decomposed, and an example is described below. (A) Sardines head and bones 12 hours The degree of disappearance is invisible (a) Mackerel heads and bones 24 hours The degree of disappearance is invisible (c) Stewed vegetables 6 hours The degree of disappearance is invisible (D) ) Raw vegetables 30 hours The degree of disappearance is not visible. (E) Leftovers 18 hours The degree of disappearance is not visible. (F) Mandarin peel 48 hours The degree of disappearance is not visible. (G) Egg halves 70 hours. (H) Fried chicken foot 32 hours Only chicken foot bone remaining

[Brief description of the drawings]

FIG. 1 is a side view of a processing machine main body.

FIG. 2 is a front view of a processing machine main body.

FIG. 3 is a diagram illustrating a tilt relationship of a stirring claw.

FIG. 4 is a side view of a curved stirring blade in a round stirring shaft.

FIG. 5 is a front view of a curved stirring blade in a round stirring shaft.

FIG. 6 is a perspective view of a keyway of a stirring shaft.

FIG. 7 is a side view of the penetration installation of a curved stirring blade in a polygonal stirring shaft.

FIG. 8 is a side view of a polygonal stirring shaft in which a curved stirring blade is divided into two portions at the base thereof.

FIG. 9 is a side view and a partial cross-sectional view of the deodorizing device.

FIG. 10 is a perspective view of a one-touch take-out port of the take-out port with a funnel.

FIG. 11 is a side view of a decorative panel opening interlocking switch and a start push button switch installed in a decorative panel at a place where opening is required.

FIG. 12 is a front view and a partial cross-sectional view of an emergency stop wire and an air cooler installed in a processing tank.

FIG. 13 is a sectional view of a stirring shaft and a stirring blade provided with a wear-resistant sealing with a flange.

FIG. 14 is a perspective view to which a mechanism for swinging the processing machine body back and forth in a pendulum shape is added.

FIG. 15 is a front view of the processing apparatus main body according to the embodiment, in which the front decorative panel is opened, and a left and right split substantially cylindrical processing tank and a funnel-equipped outlet are shown.

FIG. 16 is a perspective view of the processing apparatus main body in the embodiment, in which a front decorative panel is opened.

FIG. 17 is a rear view of the processing apparatus main body according to the embodiment, in which a rear decorative panel is opened.

FIG. 18 is a right side view of the processing apparatus main body according to the embodiment where a peripheral decorative board is opened.

FIG. 19 is a left side view of a place where a peripheral decorative board is opened by the processing apparatus main body in the embodiment.

FIG. 20 is a perspective view of a rainwater inflow prevention inlet cover and a processor base plate in the embodiment.

FIG. 21 is a perspective view of a rainwater inflow prevention inlet cover, an air outlet in a tank, and a strainer containing an odor remover in the embodiment.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Processing machine main body 2 In-tank air discharge fan 3 In-tank air supply device 4 Processing tank heating device 5 Stirring shaft drive 6 Strainer with odor remover 7 Electric control panel 8 Almost cylindrical processing tank 9, Left side wall 10 Right side wall DESCRIPTION OF SYMBOLS 11 Bearing 12 Stirring shaft 13 Stirring claw 14 Curved stirring blade 15 Negative electrode plate 16 Positive electrode plate 17 Current value sensor detection control circuit between negative and positive electrodes having photoelectric display and voice transmission functions 18 Decomposition medium agent temperature detector 19 Temperature control Circuit 20 Gas detector in tank 21 Gas decomposer operation controller 22 Extraction port with funnel 23 Air supply hole with wire mesh 24 Air supply pipe 25 Air inlet in tank 26 Air outlet in tank 27 Stirring shaft drive gear 28 Stirring drive Gear 29 Chain 30 Chain holder 31 Rainwater inflow prevention lid 32 Input lid interlocking switch 33 Cosmetic board or insulation Plate 34 Processing machine base plate 35 Organic substance decomposing medium agent 36 Heat bulb 37 Acid odor deodorant liquid 38 Acid deodorant cylinder 39 Alkaline odor deodorant liquid 40 Alkaline deodorant cylinder 41 Two-station passage deodorant device 42 Insertion lid with packing 43 Eccentricity Rod receiving hole 44 Eccentric holding rod 45 Cosmetic board release interlocking device stop switch 46 Start push button switch 47 Emergency stop wire 48 Emergency stop switch in processing tank 49 Shaft keyway 50 Blade keyway 51 Through mounting hole 52 Flange-wearing sealing with flange 53 Spiral groove 54 Air cooler 55 Hanging rod 56 Hanging hardware

Continued on the front page (51) Int.Cl. ⁶ Identification symbol FI B63B 17/06 B65F 1/00 Z 29/00 C01G 3/00 B65F 1/00 3/02 C01G 3/00 49/00 3/02 C05F 1 / 00 49/00 1/02 C05F 1/00 3/00 1/02 3/02 3/00 3/06 3/02 5/00 3/06 9/00 5/00 9/02 9/00 11 / 00 9/02 11/08 11/00 15/00 11/08 17/00 15/00 17/02 17/00 C05G 5/00 17/02 C08J 5/00 C05G 5/00 C08K 7/00 C08J 5 / 00 7/02 C08K 7/00 7/04 7/02 7/22 7/04 7/24 7/22 13/00 7/24 C12M 1/00 H 13/00 C12N 11/00 C12M 1/00 11 / 02 C12N 11/00 11/04 11/02 11/12 11/04 E04H 3/00 11/12 5/00 E04H 3/00 B01D 53/34 116C 5/00

Claims (57)

[Claims] 1. A processing machine main body (1) includes an in-tank air discharge fan (2), an in-tank air supply device (3), a processing tank heating device (4), a stirring shaft driving device (5), and an odor. A strainer (6) containing a remover and an electric control panel (7) are installed. A plurality of stirring claws (13) are provided on a stirring shaft (12) rotatable by left and right bearings (11) attached to a left side wall (9) and a right side wall (10) of the substantially cylindrical processing tank (8). The curved stirring blades (14) are fixed at appropriate intervals. The negative electrode plate (15) and the positive electrode plate (15) are arranged at regular intervals on the inner surface of the lower part of the processing tank on the circumferential line of the substantially cylindrical processing tank (8) formed along with the rotation of the curved stirring blade (14). 16) is a single or a plurality of insulated installations, and a current value sensor detection control circuit (17) between the positive and negative electrodes having only a photoelectric display function and a voice transmission function of a current value display or a voice transmission function, and a processor body (1). Is provided. Decomposition medium temperature detector (18)
Are also installed in a substantially cylindrical processing tank (8), and a temperature sensor detection control circuit (19) is also installed in the processing unit body (1). A gas detector (2) is provided between the upper space in the substantially cylindrical processing tank (8) and the air exhaust fan (2) in the tank.
0) is installed, and the gas decomposer operation controller (21) is also installed in the processor main body (1). An outlet (22) with a funnel is provided at the lower part of the substantially cylindrical processing tank (8). An air supply hole (23) with a wire mesh is installed, and the air supply hole (23) with a wire mesh and the air supply device (3) in the tank are connected by an air supply pipe (24). An in-tank air inlet (25) and an in-tank air outlet (26) are provided on the front upper wall of the substantially cylindrical processing tank (8). Stirring shaft (12)
A stirrer shaft driving gear (27) fixed to one end of the shaft and a stirrer driving gear (28) are connected by a chain (29) or a directly connected gear, and a chain presser (3) is attached to the chain (29).
0) is attached. An input pawl interlocking switch (32) interlocked with opening and closing of the rainwater inflow prevention input lid (31) is fixed. The outer surface of the processing machine main body (1) is covered with a decorative board or a decorative board with heat insulating material (33), and is fixed on the processing machine base plate (34). An organic substance deodorizing and non-draining mechanism in which an organic substance decomposing medium agent (35) is loaded in a substantially cylindrical processing tank (8) and microorganisms having a photoelectric photoelectric display function and a sound transmitting function are eliminated. 2. The organic substance odorless by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein the numerical value detected by the temperature sensor detection control circuit (19) is photoelectrically displayed on the processor body (1). No water drainage mechanism. 3. A mechanism for eliminating organic odors and eliminating drainage by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein a heat bulb (36) is installed in the upper part of the substantially cylindrical processing tank (8). . 4. Stirring claws (13) of curved stirring blades (14) at both left and right ends in a substantially cylindrical processing tank (8) are each inclined toward a central portion in a longitudinal direction of the stirring shaft (12). Install. A curved stirring blade (14) at the center of the stirring shaft (12)
, Two blades are installed horizontally opposed to each other, and the stirring claws (13) of the curved stirring blades (14), which are respectively installed in contrast, have a stirring shaft (12).
Are inclined and fixed to each other toward both ends. In addition to the above, the stirring claw (1) of the curved stirring blade (14) when installing an additional blade is provided.
3) The organic wasteless odor eliminating / drainage mechanism according to claim 1, wherein all the components are inclined toward the center of the stirring shaft (12). 5. An acidic deodorant cylinder (38) containing an acidic odor deodorant (37) and an alkaline deodorant cylinder (40) containing an alkaline odor deodorant (39) are installed in series, and The outlet of the air discharge fan (2) in the cylindrical processing tank (8) is connected to the acidic deodorizing cylinder (38), and the acidic odor deodorizing liquid (3) is connected.
After passing through 7), it was guided to an alkaline deodorizing cylinder (40), and after passing through an alkaline odor deodorizing liquid (39), a two-liquid deodorizing device (41) for discharging to the atmosphere was additionally installed. 2. The non-drainage mechanism for eliminating organic odors by microorganisms having a photoelectric display function and a sound transmission function according to claim 1. 6. A funnel outlet (22) is provided with a packing insert (42) with a funnel and a funnel outlet (2).
2), eccentric rod receiving holes (43) are installed on both sides of the funnel outlet (22).
The organic wasteless odor eliminating and drainage mechanism according to claim 1, which is closed by step 4). 7. A substantially cylindrical shape in a decorative board or a decorative board (33) with a heat insulating material in a part of the processor body (1) which needs to be opened, such as a funnel take-out opening (22), each equipment installation part, and the like. 2. The microorganism having photoelectric display and sound transmission functions according to claim 1, wherein the treatment tank (8) is provided with a decorative plate opening interlocking device stop switch (45), and at the same time, a start push button switch (46). Odorless organic matter eliminated by drainage mechanism. 8. A left side wall (9) of a substantially cylindrical processing tank (8).
The other end of the emergency stop wire (47) fixed to one end is connected to an emergency stop switch (48) in the processing tank provided outside the right side wall (10) through the right side wall (10). The organic odorless elimination / dehydration mechanism according to claim 1, wherein the microorganism has a photoelectric display function and a sound transmission function. 9. A shaft key groove (49) is machined in a portion where the cylindrical stirring shaft (12) is attached to the curved stirring blade (14), and a root portion of the curved stirring blade (14) is divided into two parts. The blade keyway (50) is machined on the curved stirring blade side by stirring, and the stirring shaft (12)
2. The mounting according to claim 1, wherein the attachment to the vault is fixed by vaulting.
Organic substance odorless elimination and dehydration mechanism by microorganisms with photoelectric display and voice transmission functions. 10. A curved stirring blade (14) of a stirring shaft (12).
The mounting part is polygonal, and at the root of the curved stirring blade (14),
The organic odorless water eliminating mechanism according to claim 1, wherein the mechanism has a through-hole (51) similar to the polygonal stirring shaft. 11. A stirring shaft (12) having a polygonal shape, a root portion of a curved stirring blade (14) having a through hole having a polygonal shape similar to the stirring shaft, and a polygonal stirring shaft (12) being mounted. The part according to claim 1, wherein the part is split and attached by a vault.
Organic substance odorless elimination and dehydration mechanism by microorganisms with photoelectric display and voice transmission functions. 12. A portion through which the stirring shaft (12) of the left side wall (9) and the right side wall (10) of the substantially cylindrical processing tank (8) penetrates, and a through hole of the wall with the stirring shaft (12). A flanged wear-resistant ceiling (52) through which a stirring shaft (12) penetrates is mounted in the gap, and a spiral groove (5) that rotates left and right in the left and right directions is provided inside the shaft through hole of the flanged wear-resistant ceiling (52).
3. The mechanism for eliminating and eliminating odorless organic substances by microorganisms having photoelectric display and sound transmission functions according to claim 1, wherein 3) is processed. 13. An air cooler (54) is provided in a gap space between the processing basic body (1) and the substantially cylindrical processing tank (8), and has a function of photoelectric display and sound transmission according to claim 1. Mechanism for eliminating organic odors by microorganisms. 14. The drainage mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein the substantially cylindrical processing tank (8) is formed into a right and left split shape. 15. The processing machine body (1) is hung on left and right hanging hardware (56) by left and right hanging bars (55) attached to the processing machine body (1), and swings like a pendulum. A mechanism for eliminating organic substances and eliminating odorous substances by microorganisms having photoelectric display and voice transmission functions. 16. The mechanism according to claim 1, wherein the organic substance decomposing medium agent (35) is a brown scum. 17. The organic substance odorless elimination mechanism according to claim 1, wherein the organic substance decomposition medium agent (35) is a mixture of tea grounds and wood flour. 18. The organic substance deodorizing solution according to claim 1, wherein the organic substance decomposing medium agent (35) is a mixture of tea grounds and a porous inorganic material. mechanism. 19. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and voice transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of tea grounds and peat moss. 20. The mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of tea grounds and tofu marc. 21. The organic odorless elimination mechanism according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of tea grounds and coffee grounds. 22. The organic substance odorless elimination mechanism according to claim 1, wherein the organic substance decomposition medium material (35) is mixed with tea grounds and rice hulls. 23. The mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein the organic substance decomposition medium material (35) is mixed with tea grounds and coconut shell fiber powder. 24. The organic matter decomposing medium material (35) is made of tea grounds, wood flour, porous inorganic material, peat moss, tofu marc,
2. The odor eliminating mechanism for organic substances by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein coffee, rice hull, and coconut husk fiber powder are suitably mixed. 25. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and sound transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of wood powder and a porous inorganic material. 26. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and sound transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of wood flour and peat moss. 27. The organic substance odorless elimination mechanism according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of wood flour and tofu marc. 28. The organic substance odorless elimination mechanism according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of wood flour and coffee grounds. 29. The organic odorless elimination mechanism according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of wood flour and rice husk. 30. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and sound transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of wood powder and coconut shell fiber powder. 31. The organic matter decomposing medium material (35), wherein wood flour and tea grounds, porous inorganic material, peat moss, tofu marc, coffee grounds, rice husk, coconut husk fiber powder are suitably mixed. Item 4. An organic odorless elimination mechanism by a microorganism having a photoelectric display function and a sound transmission function according to Item 1. 32. The organic substance odorless elimination mechanism according to claim 1, wherein the organic substance decomposition medium material (35) is a porous inorganic material. 33. The apparatus for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of a porous inorganic material and peat moss. 34. The method according to claim 1, wherein the organic matter decomposition medium material (35) is a mixture of a porous inorganic material and tofu marc.
An organic odorless elimination mechanism by microorganisms with photoelectric display and voice transmission functions. 35. The method according to claim 1, wherein the organic matter decomposition medium material (35) is a mixture of a porous inorganic material and coffee grounds.
An organic odorless elimination mechanism by microorganisms with photoelectric display and voice transmission functions. 36. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and sound transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of a porous inorganic material and rice husk. 37. The organic substance odorless elimination by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of a porous inorganic material and coconut shell fiber powder. mechanism. 38. The method according to claim 1, wherein the organic matter decomposing medium material (35) is a suitable mixture of a porous inorganic material and peat moss, tofu marc, coffee, chaff, coconut husk fiber powder.
An organic odorless elimination mechanism by microorganisms with photoelectric display and voice transmission functions. 39. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and voice transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of peat moss and tofu marc. 40. The mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein the organic substance decomposing material (35) is a mixture of peat moss and coffee grounds. 41. The organic substance odorless elimination mechanism according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of peat moss and rice husk. 42. The organic matter decomposition medium material (35) according to claim 1, wherein peat moss and coconut husk fiber powder are mixed.
An organic odorless elimination mechanism by microorganisms with photoelectric display and voice transmission functions. 43. The photoelectric display and sound transmission function according to claim 1, wherein the organic matter decomposing medium material (35) is a suitable mixture of peat moss, tofu marc, coffee grounds, rice husk, and coconut husk fiber powder. Mechanism of eliminating organic odors by microorganisms. 44. The organic odorless elimination mechanism according to claim 1, wherein the organic substance decomposing medium (35) is a mixture of tofu marc and coffee grounds. 45. The mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of tofu marc and rice hulls. 46. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and voice transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is mixed with tofu marc and coconut shell fiber powder. . 47. The device of claim 1, wherein the organic matter decomposing medium material (35) is a mixture of tofu marc, coffee grounds, rice husk, and coconut husk fiber powder. Mechanism of eliminating organic odors by microorganisms. 48. The mechanism for eliminating organic odorless substances by microorganisms having photoelectric display and sound transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of coffee grounds and rice husk. 49. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and voice transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a suitable mixture of coffee grounds and coconut husk fiber powder. . 50. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and voice transmission functions according to claim 1, wherein the organic substance decomposition medium material (35) is a mixture of rice husk and coconut husk fiber powder. 51. The organic odorless elimination mechanism according to claim 1, wherein the organic matter decomposing medium material (32) is a coconut shell fiber powder by a microorganism having photoelectric display and sound transmission functions. 52. The organic substance decomposing medium agent (35), wherein an effective microorganism group for decomposing and decomposing organic substances is mixed and mixed.
3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 1
3, 14, 15, 16, 17, 18, 19, 20, 2
1, 22, 23, 24, 25, 26, 27, 28, 2
9, 30, 31, 32, 33, 34, 35, 36, 3,
7, 38, 39, 40, 41, 42, 43, 44, 4
5, 46, 47, 48, 49, 50 and 51, the mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function. 53. The organic substance decomposing medium (35), wherein effective microorganisms for decomposing and decomposing organic substances and nitrogen are blended.
2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12,
13, 14, 15, 16, 17, 18, 19, 20, 2
1, 22, 23, 24, 25, 26, 27, 28, 2
9, 30, 31, 32, 33, 34, 35, 36, 3,
7, 38, 39, 40, 41, 42, 43, 44, 4
5, 46, 47, 48, 49, 50 and 51, the mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function. 54. The organic substance decomposing medium (35), wherein an organic substance fermentation decomposing microorganism group and an organic substance decomposing enzyme are blended. , 1
2, 13, 14, 15, 16, 17, 18, 19, 2,
0, 21, 22, 23, 24, 25, 26, 27, 2
8, 29, 30, 31, 32, 33, 34, 35, 3,
5, 37, 38, 39, 40, 41, 42, 43, 4
4, 45, 46, 47, 48, 49, 50 and 51, the mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function. 55. The organic substance decomposing medium (35), wherein an organic substance fermentation decomposing microorganism group, nitrogen and an organic substance decomposing enzyme are blended. , 1
0, 11, 12, 13, 14, 15, 16, 17, 1
8, 19, 20, 21, 22, 23, 24, 25, 2,
6, 27, 28, 29, 30, 31, 32, 33, 3
4, 35, 36, 37, 38, 39, 40, 41, 4
2, 43, 44, 45, 46, 47, 48, 49, 5
52. The odor eliminating mechanism for organic substances by microorganisms having a photoelectric display function and a sound transmission function according to 0 or 51. 56. The mechanism for eliminating odorless organic substances by microorganisms having photoelectric display and voice transmission functions according to claim 1, wherein photosynthetic deodorizing bacteria are added to the organic substance decomposition medium material (35). 57. The organic matter decomposition medium material (35), wherein copper carboxymethyl cellulose is added and blended.
2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12,
13, 14, 15, 16, 17, 18, 19, 20, 2
1, 22, 23, 24, 25, 26, 27, 28, 2
9, 30, 31, 32, 33, 34, 35, 36, 3,
7, 38, 39, 40, 41, 42, 43, 44, 4
5, 46, 47, 48, 49, 50, 51, 52, 5
3. The mechanism for eliminating odorless organic substances by microorganisms having a photoelectric display function and a sound transmission function according to 3, 54, 55.