JP2000343063A - Garbage treating device and method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To lessen the wear of chips, to provide energy conservation and to reduce a running cost. SOLUTION: This garbage treating device 10 executes the microorganism treatment of the garbage by microorganisms eating the garbage. In such a case, the device has a cylindrical drum 12 which has an opening/closing cap 11 and internally houses the chips adhered with the microorganisms, a rotary driving device 13 which rotates the cylindrical drum 12 and a hot air supply device 14 which supplies hot air into the cylindrical drum 12. This treatment method consists in executing the microorganism treatment of the garbage by supplying the hot air and the water into the cylindrical drum 12 in which the microorganisms eating the garbage and the chips adhered with microminiature cocci eating the residues thereof are housed, maintaining the temperature in the cylindrical drum 12 at 30 to 60 deg.C and the humidity at 60 to 90%, feeding the garbage into the cylindrical drum 12 and agitating the garbage and the chips by rotating the cylindrical drum 12.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a garbage disposal apparatus and method for performing a microorganism treatment for decomposing or synthesizing garbage such as kitchen garbage in homes and canteens by microorganisms that eat garbage.

[0002]

2. Description of the Related Art Conventionally, when garbage such as kitchen garbage is treated with microorganisms, a rotating blade is provided in a treatment tank, and a wood chip, for example, cedar, to which microorganisms that eat garbage are attached is disposed in the treatment tank. Put the garbage into the processing tank and add warm air and moisture while rotating the rotating blades to agitate the garbage and wood chips. Had been disassembled.

[0003]

However, in the above-mentioned conventional method, the garbage in the treatment tank and the wood chips are agitated by the rotating blades, so that the wood chips are severely worn, and the microorganisms grow due to the wear of the wood chips. Therefore, there is a problem that the frequency of replacing wood chips increases, and the number of work steps and costs increase. In addition, when the amount of raw garbage is increased, for example, when processing about 500 kg of garbage, the force applied to the rotating blades is increased, so that a large driving device is required, resulting in an increase in power charges and equipment costs. there were. The present invention has been made in view of such circumstances, and an object of the present invention is to provide a garbage disposal apparatus and method that can reduce chip wear, save energy, and reduce operating costs.

[0004]

According to the present invention, there is provided a garbage disposal apparatus for treating garbage with microorganisms that eat garbage, the garbage disposal apparatus having an opening / closing lid. The inside includes a cylindrical drum for accommodating chips to which microorganisms are attached, a rotation drive device for rotating the cylindrical drum, and a hot air supply device for supplying hot air into the cylindrical drum. With this, garbage is put into a cylindrical drum containing chips with microorganisms attached thereto, and the cylindrical drum is rotated by a rotary driving device to agitate the chips and the garbage. Friction does not occur. Therefore, for example, only the power required to rotate the cylindrical drum supported by the bearings and the support wheels needs to be supplied, and the required energy is reduced.

Here, in the garbage disposal apparatus according to the present invention, the cylindrical drum may be provided with a water supply device for supplying water into the cylindrical drum. In this case, since water can be supplied into the cylindrical drum at any time by the water supply device, it becomes easy to maintain the humidity in the cylindrical drum in an optimum state. Further, in the garbage disposal apparatus according to the present invention, the hot air supply device communicates with a first air chamber provided at one end of the cylindrical drum and moves from the first air chamber to the other end. A hot air generator connected to the first air chamber via a first rotary joint, and a hot air generator connected to the other end of the cylindrical drum,
An exhaust pipe may be provided through a second rotary joint to a second air chamber having a discharge port communicating with the inside of the cylindrical drum. In this case, while rotating the cylindrical drum, hot air can be sent into the cylindrical drum and gas generated in the cylindrical drum can be discharged, so that long-time continuous operation can be performed.

Further, in the garbage disposal apparatus according to the present invention, a filter may be provided at a discharge port communicating with the inside of the cylindrical drum, and an openable inspection window may be provided at the other end of the cylindrical drum facing the discharge port. . In this case, when the gas in the drum, which is generated by the microbial treatment in the cylindrical drum and contains, for example, water vapor or carbon dioxide gas, is discharged from the outlet, even if the gas in the drum is mixed with the powder of the chips or the like, the chips in the filter are not filtered. Since powder or the like adheres, the exhaust gas discharged from the outlet becomes a clean gas. In addition, since the filter to which the chip powder or the like has adhered can be replaced by opening the inspection window, the exhaust gas can always be kept in a clean state.

[0007] The method for treating garbage according to the present invention, which meets the above-mentioned object, is a method of treating garbage with warm air, moisture and water in a cylindrical drum accommodating chips attached with microorganisms that eat garbage and micro-micrococci that eat these residues. To increase the temperature in the cylindrical drum from 30 to
While maintaining the humidity at 60 ° C. and the humidity of 60% to 90%, garbage is put into the cylindrical drum, and the garbage and the chips are stirred by rotating the cylindrical drum, and the garbage is treated with microorganisms.
Thereby, during operation, the condition of temperature (preferably 35 to 55 ° C.) and humidity (preferably 65 to 85%) at which microorganisms are activated in the cylindrical drum is always satisfied, and almost no exchange of microorganisms is performed. The garbage disposal can be performed continuously. Microorganisms that eat garbage include unicellular bacteria belonging to eubacteria, multicellular actinomycetes, or algae, protozoa, fungi, etc. belonging to eukaryotes. As a source, for example, a source having the ability to decompose garbage or the like into water or carbon dioxide gas while secreting an enzyme is applicable. Enzymes secreted into and out of cells of microorganisms have the action of decomposing or synthesizing various substances,
Has the role of biological catalyst. The main enzymes produced by microorganisms include α-amylase, cellulase, maltase, urease, lactase, protease, catalase and the like. In addition, wood chips (for example,
It is preferable to use cedar chips), but the present invention is applicable even if a synthetic resin material, an inorganic material, or another material is used as long as it is a porous granular material capable of supporting microorganisms. Further, in the garbage disposal method used in the present invention, microchips are cultured on the chips. Micrococci are bacteria that eat dead bodies and residues of microorganisms, and by using these, surpluses (compost) such as garbage processed materials
There is an advantage that no remains.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the accompanying drawings to provide an understanding of the present invention.

As shown in FIG. 1 and FIG. 2, a garbage processing apparatus 10 according to an embodiment of the present invention is a garbage processing apparatus 1 for microorganism-treating garbage by microorganisms that eat garbage.
0, a cylindrical drum 12 having a lid 11 and containing therein a chip to which micro-cocci that eat microorganisms and these residues are attached, and a rotary drive device 13 that rotates the cylindrical drum 12; And a hot air supply device 14 for supplying hot air into the cylindrical drum 12. The details will be described below. The garbage disposal apparatus 10 has a casing 16 made of a stainless steel plate (SUS304) and provided with an opening at the top in consideration of corrosion resistance. At the lower part in the casing 16, two rotation driving devices 13 are provided with their rotation shafts 17 parallel. Each rotation drive device 13 includes a deceleration motor 18 with a brake, a rotation shaft 17, and a plurality of bearings 19 mounted on the casing 16 and supporting the rotation shaft 17. Each rotation shaft 17 has the same diameter. Two tire-mounted wheels 20 are mounted at a predetermined distance from each other.

[0010] The cylindrical drum 12 is made of a stainless steel plate (SU).
S304), and has a disk-shaped one end 23 and the other end 25 and a side wall 15 having a triple structure in which a heat insulating material is sandwiched between stainless steel plates (SUS304). And
The side wall 15 is rotatably supported by wheels 20 with tires so that the rotation shaft 17 of the rotation drive device 13 is parallel to the axis. Further, two rotation guide rings 21 are attached to the outer periphery of the side wall portion 15 of the cylindrical drum 12 in accordance with the contact position of the wheel 20 with a tire, so that the position of the cylindrical drum 12 does not move in the axial direction. And the side wall 1
At a part of the intermediate position between the two rotary guide rings 21, there is provided a garbage input port 22 and an opening / closing lid 11 for opening and closing the opening. Further, a plurality of flat scrapers 38 are provided inside the side wall portion 15, thereby assisting the stirring of the garbage and chips. Also,
Inside the casing 16, a hot air supply device 14 for supplying warm air to the inside of the cylindrical drum 12 and a water supply device 35 for supplying moisture are provided, thereby adjusting the activity of microorganisms.

Next, the water supply device 35 will be described in detail. A cylindrical water supply device 35 having a large number of holes is provided at a position where the water supply device 35 overlaps with the axis of the cylindrical drum 12.
And through the other end 25. One end of each of first and second rotary joints 27 and 31 is connected to both ends of the water supply device 35, and the other end of each of the second and first rotary joints 31 and 27 is connected to a water tank (not shown). And a water supply pipe 36 communicating with the pump,
The drain pipe 37 is connected. The first and second rotary joints 27 and 31 have a double structure, and the water supply device 35 includes a water supply pipe 36 and a drainage pipe 3.
7 and the second and first rotary joints 3 respectively
They are connected via inner passages 1 and 27. With such a configuration, water can be supplied to the inside of the cylindrical drum 12 continuously or periodically even during the rotation of the cylindrical drum 12.

Next, the hot air supply device 14 will be described in detail. The hot-air supply device 14 includes a hot-air generator 28 having a built-in heater and a blower, and first and second air chambers 24 provided in the cylindrical drum 12 for passing hot air.
30, a perforated pipe 26 extending from the first air chamber 24 to the other end 25, and an exhaust pipe 32 for discharging gas generated in the cylindrical drum 12. Hereinafter, the shape and the mounting position of each member will be described. The mounting position of each member is determined by rotating the input port 22 of the cylindrical drum 12 and the opening / closing lid 11 at a predetermined position (a position inclined at about 45 degrees from above). ) Will be described as the position (the state shown in FIG. 1 and FIG. 2) when fixed. The first air chamber 24 having a semi-cylindrical shape is provided so as to cover the lower half of the one end 23 and a part of the water supply device 35, and the two porous pipes 26 communicating with the first air chamber 24 are formed by the first air chamber 24. The air chamber 24 extends from one end attached slightly above the lower end to the other end 25, and is fixed to the other end 25 by attaching the other end.

A second air chamber 30 having substantially the same shape as the first air chamber 24 is provided so as to cover the upper half of the other end 25 and a part of the water supply device 35. A discharge port 29 communicating with the inside of the cylindrical drum 12 is formed slightly below the upper end of the second air chamber 30. The hot air generator 28 is fixed to a lower portion of the casing 16 and is connected to the first air chamber 24 via an outer passage of the first rotary joint 27 having a double structure. In addition, the exhaust pipe 32 is connected to the second rotary joint 31 through a double passage outside the second rotary joint 31.
, And further connected to a deodorizer (not shown) outside the garbage disposal device 10. Since a double-structure rotary joint is used, water and hot air can be supplied independently of each other, and water and hot air can be supplied stably even when the cylindrical drum 12 rotates.

A filter 33 is provided at the outlet 29, and the other end 2 of the cylindrical drum 12 facing the outlet 29 is provided.
5 is provided with an inspection window 34 that can be opened and closed. A strainer made of a wire mesh is used for the filter 33 so that garbage does not enter the second air chamber 30. The contamination status of the filter 33 can be visually confirmed from the inspection window 34, and the filter 33 can be replaced by opening the inspection window 34. Next, a garbage disposal method using the garbage disposal apparatus 10 will be described.

First, the cylindrical drum 12 is moved to a predetermined position (FIG. 1,
(The position shown in FIG. 2) and the open / close lid 11 is opened. Then, a chip to which microorganisms that eat garbage and micro-micrococci that eat these residues are attached is put into the cylindrical drum 12. The amount of chips is 10 kg for 100 kg of garbage.
It is about 00L. After closing the opening / closing lid 11, warm air and moisture are supplied into the cylindrical drum 12 to maintain the temperature inside the cylindrical drum 12 at 30 to 60 ° C. and the humidity at 60 to 90%. The garbage is put into the hopper, and the deceleration motor 18 with the brake of the rotary drive device 13 is started to rotate the cylindrical drum 12 to agitate the garbage and chips. The driving force generated by the deceleration motor 18 with a brake is
7. The power is transmitted to the cylindrical drum 12 via the wheels 20 with tires. A limit switch and a test piece (not shown) are attached to the casing 16 and the side wall portion 15 of the cylindrical drum 12, respectively. The limit switch detects a test piece when the cylindrical drum 12 passes a predetermined position. Each is attached to. When the brake-equipped deceleration motor 18 is operated, the cylindrical drum 12 is moved to 6-7r
Spin for 2 minutes at pm speed. The cylinder drum 12 continues to rotate for more than two minutes, and when the limit switch detects the test piece, the deceleration motor with brake 18
It stops with. By doing so, when the cylindrical drum 12 is stopped, the opening / closing lid 11 and the inspection window 34 are always at predetermined positions, so that work and inspection can be easily performed. The cylindrical drum 12
Is controlled by a timer so that it rotates intermittently and operates at a rate of once per hour.

Next, an air supply method will be described. The air heated by the hot air generator 28 having a built-in heater and a blower passes through the perforated pipe 26 through the first rotary joint 27 and the first air chamber 24, and is formed on the perforated pipe 26. Cylindrical drum 1 from hole
2. The microorganisms in the chip decompose garbage using the supplied air. The gas generated at the time of decomposition passes through the filter 33 of the outlet 29 provided in the second air chamber 30 and passes through the exhaust pipe 32 through the second air chamber 30 and the second rotary joint 31. Transported to the deodorizer. After being deodorized, it is released into the air. A temperature sensor (not shown) is mounted inside the cylindrical drum 12. When the temperature inside the cylindrical drum 12 is low, the activity of microorganisms is deteriorated.
The operation of the heater and the blower of the hot air generator 28 is performed, and the hot air is supplied into the cylindrical drum 12 for 10 minutes. When the activity of the microorganisms is maintained, the temperature in the cylindrical drum 12 rises to about 50 to 60 ° C. due to the heat generated by the microorganisms, but the temperature in the cylindrical drum 12 falls again to less than 35 ° C. In such a case, the heater and the blower are automatically operated at the same time. In addition, the cylindrical drum 1
2. Even when the temperature in 35 is higher than 35 ° C,
When stopped for more than 0 minutes, only the blower automatically
Minutes of operation to supply air at room temperature. In this embodiment, the flow rate of air is 1.4 m
^Although it is ³ / min, it can be changed according to the amount of garbage to be processed.

Next, a water supply method will be described. When supplying water, a pump (not shown) is operated, and water is passed through the water supply pipe 36, the water supply device 35, and the drainage pipe 37 in this order. The drain pipe 37 is provided with a flow control valve (not shown), and by adjusting this, the flow rate of water supplied into the cylindrical drum 12 can be changed. A humidity sensor (not shown) is mounted in the cylindrical drum 12 so that water is automatically supplied when the humidity in the cylindrical drum 12 becomes less than 60%, and is automatically stopped when the humidity exceeds 90%. The activity of the microorganism is increased. The drain pipe 37 can be omitted. At this time, the end of the water supply device 35 on the first rotary joint 27 side is closed, and the flow rate of water is adjusted on the water supply pipe 36 side. In this way, the garbage can be decomposed by operating the garbage processing apparatus 10 for about 24 hours while controlling the garbage automatically.

As described above, in the present embodiment, since the cylindrical drum 12 is connected to the first and second rotary joints 27 and 31 provided outside thereof, the inside of the cylindrical drum 12 is All the members attached to the cylindrical drum 12 rotate simultaneously with the cylindrical drum 12, and no large stress is applied to a specific member.
Since the driving force required for the rotation of the drum can be reduced, the chip breakage due to friction is reduced, the chip replenishment and replacement can be reduced, and the members in the drum due to the torsional stress are not damaged. Even when the processing capacity is increased, long-time automatic operation can be performed. Note that the present invention is not limited to the above-described embodiment. For example, the number of water supply devices is one, but may be two or more. By uniformly supplying water to a plurality of locations, the humidity in the cylindrical drum 12 can be made uniform in a short time. Also,
Although the number of the perforated pipes 26 is two, it may be one or three or more. When the number is one, the structure of the apparatus can be simplified, and when the number is three or more, air can be uniformly supplied into the cylindrical drum 12.

[0019]

In the garbage disposal apparatus according to the first to fourth aspects, the cylindrical drum is rotated by the rotary driving device to agitate the chips and the garbage. It does not generate, reduces chip wear and reduces replacement.Also, it is necessary to supply only the power required to rotate the cylindrical drum with little friction, so the required energy can be reduced and there is also an energy saving effect. , And can be operated at low cost. In particular, in the garbage disposal apparatus according to claim 2, since water can be supplied into the cylindrical drum at any time by the water supply device, it is easy to maintain the humidity in the cylindrical drum in an optimal state and to increase the activity of microorganisms. Become. In the garbage disposal apparatus according to the third aspect, while rotating the cylindrical drum, hot air can be sent into the cylindrical drum, and the gas generated in the cylindrical drum can be discharged, so that the microorganisms can be activated. Long-term continuous operation becomes possible. In addition, since a rotary joint is used to prevent torsion inside the cylindrical drum, the water supply device and the perforated pipe are prevented from being damaged due to the torque applied by the rotation of the cylindrical drum.

In the garbage disposal apparatus according to the fourth aspect, the filter is provided at the discharge port, and the inspection window is provided at the cylindrical drum. Even if mixed, the tip powder etc. adheres to the filter, so the exhaust gas discharged from the outlet becomes a clean gas, and the filter with the tip powder etc. can be replaced by opening the inspection window,
The exhaust gas can always be kept clean. In the garbage disposal method according to the fifth aspect, since the temperature inside the cylindrical drum is maintained at 30 to 60 ° C. and the humidity is maintained at 60 to 90%, the temperature and humidity conditions at which microorganisms are activated inside the cylindrical drum are set. And garbage disposal can be performed continuously with almost no exchange of microorganisms. And
It is possible to eliminate the residue by adding the micrococci.

[Brief description of the drawings]

FIG. 1 is a front sectional view of a garbage disposal apparatus according to an embodiment of the present invention.

FIG. 2 is a side view of the same.

[Explanation of symbols]

10: Garbage disposal device, 11: Open / close lid, 12: Cylindrical drum, 13: Rotary drive device, 14: Hot air supply device, 15:
Side wall portion, 16: casing, 17: rotating shaft, 18: deceleration motor with brake, 19: bearing, 20: wheel with tire, 21: rotation guide ring, 22: slot, 23: one end, 24: first Air chamber, 25: other end, 26: perforated pipe, 27: first rotary joint, 28: hot air generator, 29: outlet, 30: second air chamber, 31: second rotary joint ,
32: exhaust pipe, 33: filter, 34: inspection window,
35: Water supply device, 36: Water supply pipe 37: Drainage pipe,
38: Scraper

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4D004 AA03 AC01 AC04 CA19 CA22 CA42 CB09 CB36 CC08 DA02 DA06 DA08

Claims (5)

[Claims] 1. A garbage disposal apparatus for treating garbage with microorganisms that eats garbage, comprising: a cylindrical drum having an opening / closing lid and containing a chip to which the microorganisms are attached; A garbage disposal apparatus comprising: a rotary drive device for rotating the cylindrical drum; and a hot air supply device for supplying hot air into the cylindrical drum. 2. The garbage disposal apparatus according to claim 1, wherein said cylindrical drum is provided with a water supply device for supplying water into said cylindrical drum. 3. The garbage disposal device according to claim 1, wherein the hot air supply device communicates with a first air chamber provided at one end of the cylindrical drum. A perforated pipe extending from the air chamber to the other end, a hot air generator connected to the first air chamber via a first rotary joint, and a hot air generator provided at the other end of the cylindrical drum. A second air chamber having a discharge port communicating with the inside of the cylindrical drum.
And an exhaust pipe connected through a rotary joint. 4. The garbage disposal device according to claim 3, wherein a filter is provided at a discharge port communicating with the inside of the cylindrical drum, and an openable inspection window is provided at the other end of the cylindrical drum facing the discharge port. A garbage disposal device characterized by being provided. 5. Warm air and moisture are supplied into a cylindrical drum containing chips attached with microorganisms that eat garbage and micro-cocci that eat these residues, and the temperature inside the cylindrical drum is reduced by 30%. ６０60 ° C., humidity at 60-90%,
A garbage disposal method, wherein garbage is put into the cylindrical drum, and the garbage and the chips are stirred by rotating the cylindrical drum, and the garbage is treated with microorganisms.