JP4693916B2 - Anhydrous manure treatment method and anhydrous manure treatment toilet system - Google Patents

Description

  The present invention relates to an anhydrous manure treatment method and an anhydrous manure-treated toilet system that collect manure and use it for fertilizer and soil improvement.

  Conventionally, a urine separation toilet and a urine treatment system are generally installed in an environment equipped with water, electricity, sewage and the like.

JP 2007-196081 A JP 2007-111146 A JP 2005-304970 A JP 2005-304969 A JP 2005-143718 A Patent 4025244 Announcement of patent For example, Patent Document 1 discloses that
Wastewater treatment system equipped with a denitrification unit that separates urine and wastewater by a wastewater treatment system and toilet equipment that can treat manure and household wastewater, and nitrifies by microorganisms and denitrifies wastewater containing BOD sources by microorganisms Is described.

In Patent Document 2,
It describes a urine separation toilet that can suppress bad odors and save water, and the use of urine and common toilets and facilities that reduce construction costs.
The toilet equipment, which is a toilet facility, has a bowl that separates and collects urine separately from urine and uses the action of microorganisms, and multiple urine separation / toilet bowls are arranged vertically. There is also described a common toilet / equipment having a urine passage that guides the urn downward through the urine passage and also guides urine received in the urine bowl part downward.

Patent Document 3
There is described a urine separation toilet device provided with a cleaning mechanism, which has a needle-like projection for separating clogs and urine using a net-like member and preventing clogging of a stool receptacle to prevent clogging.

In addition, Patent Document 4 describes a urine separation toilet device that separates manure and urine efficiently and guides the manure and urine to the cistern or urine tank, respectively. In addition, a urine separation toilet device is described in which a mesh member urine is received, urine is dropped into a urine tank through a hole in the stool receiver, and the urine remaining on the stool receiver is sent out by a rotational movement of the stool receiver.
Patent Document 5 discloses that
A manure separation toilet device capable of easily and efficiently separating manure and urine using a roller conveyor is described. Furthermore, Patent Document 6 describes a method and apparatus for continuously recovering magnesium, phosphorus, and ammonia gas as valuable materials from urine.
However, these inventions are premised on water and sewage like a flush toilet, and also have a drive mechanism such as a belt-like net or a roller. There were issues such as the need for infrastructure facilities. Moreover, when flowing into sewage, a sewage treatment facility is required, and there is a problem that the environmental load cannot be avoided even when the supernatant is discharged into a river.

  The present invention is a toilet structure that does not assume the use of water supply or sewage and has a urine separation structure, and also realizes hygiene, reduction of urine resources, cost reduction of toilet facilities, and ease of installation. Objective. It is also intended to separate and collect manure from each other and to ferment and dehydrate the manure and urine using solar heat.

In claim 1 of the present invention,
Separating means for manure, means for collecting the separated manure in containers, and a movable roof for collecting solar heat, separating the manure and collecting the collected containers under the movable roof An anhydrous manure treatment apparatus is described in which the apparatus is installed in and covered with the movable roof . That is, the water contained in the separated urine and urine is evaporated and dried by solar heat in the daytime to promote fermentation, and at the night, the drying is promoted by the self-fermentation heat of the urine and urine.

According to claim 2 of the present invention,
In Claim 1, the anhydrous manure processing apparatus characterized by using the solar cell which allows an infrared ray to pass through the roof which collects solar heat is described. That is, among solar cells, in particular, single crystal or polycrystalline silicon crystal solar cells allow infrared light to pass through, and if a metal plate with good heat transfer characteristics is provided on the back surface, There is an effect of collecting heat centering on the infrared region that has passed through the antireflection film of the solar cell. Cooling the back surface with a cooling fan can prevent a decrease in power generation efficiency due to a rise in the temperature of the solar cell, and accelerates drying by collecting the collected heat from the hot air generated by the cooling fan to the manure that is to be dried can do.

Individual urine transported by the container is gathered in a urine storage tank, a drop is set downward from the urine storage tank, and the drop is used to spray from the perforated pipe to the first dry evaporation tank, The urine exceeding the liquid bank of the first drying evaporation tank is poured into the second drying evaporation tank, and further poured into the third and fourth drying evaporation tanks. When the level of urine in the final layer reaches a specified level, the adjustment valve provided between the urine storage tank and the perforated pipe is closed, and dehydration from urine is awaited. Here, the work is performed using a head, and the work proceeds without requiring power.

Furthermore, in claim 3 of the present invention,
In the anhydrous manure processing apparatus according to any one of claims 1 to 2,
The manure is covered and sealed with the movable roof, solar heat is collected, the indoor pressure covered with the movable roof is dried under a positive pressure, and there is a differential pressure between the room covered with the movable roof and the outside air An anhydrous urine treatment apparatus having an exhaust port for exhausting air is described. That is, the drying chamber collects solar heat on the roof, raises the temperature of the room, expands the air in the room, evaporates the water in the manure, and raises the room pressure. Exhaust from the exhaust port is performed using this increase in atmospheric pressure.

Further, in claim 4 of the present invention, in claim 3 ,
There is described an anhydrous urine treatment apparatus characterized in that a chemical filter is provided at the exhaust port to provide the differential pressure and to prevent odor. Since the exhaust port has a chemical filter to give the exhaust pressure, the indoor pressure can be increased and odors such as ammonia can be removed by the chemical filter. The chemical filter can be gradually moved by an electric motor so as not to deteriorate the filter surface. The electric power that drives the electric motor at this time uses electric power generated by a solar cell installed on the roof that collects solar heat. In order to remove ammonia, the filter can be immersed in water and adsorbed in water.

Furthermore, in claim 5 of the present invention,
Oite claims 1 to anhydrous sewage treatment equipment according to any one of 4, and means for separating the raw sewage, no means toilet to collect into the container, the container, the reservoir is屎又urine An anhydrous manure treatment apparatus characterized by having a float for displaying and sensing that the container replacement level has been reached by the fallable portion provided at the tip of the float falling down is described. ing. The container that stores the separated manure can sense the level of accumulated urine or the amount of urine accumulated in the container by the float, and can sense the replacement time of the container. When separating components such as urea and urokinase for use, urine is sent to the separation and purification process as it is, but is mainly dried and used as an agricultural fertilizer.

Furthermore, in claim 6 of the present invention, in claim 5,
Anhydrous disposal apparatus which is characterized by providing a display mechanism attached to the float is described. That is, the accumulation of sputum or urine, which is the contents of the container, is pushed up and rises, and when it reaches a certain level, it falls down by the overturnable part provided at the tip of the float, and the container replacement level Is displayed. In addition, using this overturning mechanism, in order to switch between the first container mouth in use and the mouth of the empty second container, pulling the switching spring and supporting it by the overturning mechanism, when the overturning mechanism is activated, It is possible to switch the piping route by the spring force from the first container to the second container connected to the container port by the fall mechanism.

Furthermore, in claim 7 of the present invention, in claim 6,
The indicator of the display mechanism, a storage battery charged by a solar cell as a power source, anhydrous disposal apparatus characterized by displaying that a replacement level of the container using a light-emitting diode is described. By means of a switch for monitoring that the tip of the float has fallen, it is possible to electrically detect the tip toppling, turn on the light emitting diode, and indicate that the container replacement time has been reached.

Furthermore, claim 8 of the present invention includes:
In anhydrous disposal apparatus according to any one of claims 5 7, wherein the container, anhydrous disposal apparatus characterized by have a lid to prevent leakage of the contents have been described. When the container is moved, it can be covered with a lid to prevent leakage of urine or urine, which is the contents, thereby maintaining a sanitary condition.

Further, in claim 9 of the present invention, in claim 8,
Structure of the lid comprises a container inside the vacuum or pressure increase, anhydrous disposal apparatus, characterized in that to release the pressure is described. Since the internal pressure of the container fluctuates depending on the temperature, the container can be deformed when it is sealed, or the container can be ruptured or deformed when excessive pressure rises. Therefore, a container lid having a release valve for releasing the pressure at a pressure equal to or higher than a certain pressure or lower than a certain pressure is provided.

Further, in claim 10 of the present invention, in the apparatus for treating anhydrous manure according to any one of claims 1, 2 , 6 , 7 , 8, and 9 ,
Using the electric power of solar power generation, pumping water, collecting urine, collecting crystallized urine, a power source for driving an electric motor for transferring powder of dried and pulverized soot, and starting and stopping the electric motor, An anhydrous manure processing apparatus characterized by automatically controlling monitoring and control is described. Install the solar battery panel on the roof other than the drying process of the anhydrous manure treatment device, charge the storage battery with the generated power, or use it as a power source as it is, pumping well pumps, transferring powder, and solenoid valves Can be opened and closed.

Furthermore, claim 11 of the present invention includes
An anhydrous manure treatment method is described, wherein an anhydrous manure treatment is performed using the anhydrous manure treatment device according to any one of claims 1 to 10 .

Further, in claim 12 of the present invention, in the manure processing method of performing anhydrous manure processing using the anhydrous manure processing apparatus according to claim 8 or 9 ,
Said container, said lid and the jig tool, by storing below the movable roof, each sterilized at a high temperature of above 50 ° C., anhydrous human waste processing method characterized by maintaining hygiene conditions Are listed. That is, the drying process chamber having a movable roof that collects solar heat is at a level of 50 ° C. or higher and further 60 ° C., and can sterilize and disinfect all objects in the room. Containers, container lids and jig tools can be sterilized.

Furthermore, in claim 13 of the present invention are used in anhydrous human waste processing method for performing dry the disposal with anhydrous disposal apparatus according to claim 8 or 9, wherein the container, the lid, the carrying works jig An anhydrous manure treatment method characterized in that the tool is washed with water, dried in the sun, and reused is described. The dried pulverized manure can be easily and hygienically stored. However, once the containers and jigs are washed with water and dried in direct sunlight, they can be used more hygienically for subsequent reuse. can do. Therefore, it is necessary to wash empty containers, jigs and tools, and provide a sun-drying area to prevent reuse, clean up, and disinfect sunlight.

According to claim 14 of the present invention, there is provided an anhydrous manure treatment method using the anhydrous manure treatment device according to any one of claims 1 to 10 , wherein the crystallized urine after drying, Alternatively, a method for treating anhydrous manure is described in which powdered rice cake is used as an agricultural fertilizer or soil conditioner, or urine before drying is collected as a raw material for extracting urine components. ing.

  According to the present invention, it is not necessary to use wired power supply facilities, water supply, sewage, and can be manufactured with cheap materials obtained in the area where toilets are manufactured. Hygiene and resource recycling can be easily realized. In addition, since it does not require the use of electricity, water and sewage, there is an advantage that it can be easily installed in a region where these public facilities are not present or where it is difficult to install electricity, water and sewage away from the city. In addition, since it does not depend on electricity, water, or sewage, there is an advantage that it is not restricted in use in the event of a disaster. Dried stool can be used as a soil conditioner, and urine can also be used as fertilizer after drying with solar heat. Since the pathogenic bacteria can be disinfected by drying at a high temperature with solar heat for about 6 months, it is possible to prevent the propagation of the pathogenic bacteria caused by underground penetration and the infectious disease, so that a sanitary environment can be obtained. Furthermore, it becomes possible to control weed seeds or germination at high temperatures. In addition, sewage is not used, and therefore, sewage treatment is not required, and water pollution can be eliminated, contributing to the reduction of environmental pollution.

  Dried persimmon can be used as an organic fertilizer, and can be used to improve exhausted soil. Nitrogen, phosphoric acid, and calcium in urine can be used as fertilizer by diluting with water. Urokinase in urine Can also be used as a medicine. In addition, the use of a storage container makes it easy to collect, move and store for drying, and has the advantage of being easy to apply. Food obtained from the earth can be returned to the earth in the natural form through the human body. That is, it is possible to reduce the load on the natural environment by selecting materials in consideration of the final disposal of the storage container according to the present invention, not only for human waste. For example, even when the storage container material is FRP, it can be crushed to separate inorganic and organic materials, and can be reused for fuel and building structures, respectively.

By implementing the above, it is possible to reduce the cost of constructing expensive public sewers and construction of treatment plants, and further, the cost of collected sewage can be compensated by the profits from sales of soil improvement materials and fertilizers.
Moreover, if a solar power generation facility is used together, an independent power source can be secured without requiring power transmission. Using this generated electric power, powder transfer using an electric motor as a power source, using an electric motor as a power source for irrigation water, and automatic control have become possible.

  The best mode for carrying out the present invention will be described below based on examples.

The top view of the toilet in this invention is shown. Sectional drawing of the side surface of the toilet in this invention is shown. The top view in the case of a flush toilet is shown. Sectional drawing of the side surface of a flush toilet is shown. The float structure in this invention is shown. (The state that the float does not sense the contents). The float structure in this invention is shown. (The state where the float senses the contents). Side surface sectional drawing of the pressure release valve of the container in this invention is shown. Side surface sectional drawing of the lid | cover for transfer in this invention is shown. The top view of the lid | cover for transfer in this invention is shown. Side surface sectional drawing at the time of attachment of the lid | cover for transfer in this invention is shown. Side surface sectional drawing of the pressure release lid | cover in this invention is shown. The top view of the pressure release lid | cover in this invention is shown. Side surface sectional drawing at the time of attachment of the pressure release cover in this invention is shown. The control circuit diagram by the solar power generation system of the manure processing in this invention is shown. The mobile solar heat collecting roof structure in this invention is shown. The blower fan attached to the movable solar-heat collecting roof in this invention is shown.

An embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a plan view of a toilet according to the present invention. In the figure, there is a bowl receiving hole 1 in the vicinity of the center of the stepping stone 8 of the toilet, and the bowl falls and accumulates in a basket storage container installed directly below. Since the urine and urine can be separated from each other, there is no contamination due to liquid splashing, but the toilet bowl is provided with a lid for preventing odor.
In the container for cocoon storage after addition for hygienic use, by removing a handful of plant ash such as wood ash in the ash container 13 in the cocoon receiving hole, it is possible to prevent early removal of moisture and generation of insects. . The floor board 12 is made of a synthetic resin or a light-weight die-cast material as a corrosion-resistant material in order to secure a lifetime, and has a structure that can simplify the construction and shorten the construction period. Further, the surface of the floor board 12 is water-repellent and processed so as not to be dirty and slippery, and is molded from a synthetic resin material to prevent the user from slipping over.
In the plan view of FIG. 1, the toilet entrance portion represents an example of a door installation position as a door locus 11.

FIG. 2 shows a side sectional view of a toilet according to an embodiment of the present invention.
The urine receiving hole 1 of the urine separation toilet 29 is connected in a downward direction with a straight body tube, and the spillage is structured to fall into the container 2 for storing the cistern tank directly below. Odor is prevented from rising upward by the odor removing pipe 10 from the side surface of the straight body tube portion. On the other hand, the urine receptacle 3 has an inclination toward the urine hole connected to the urine snake tube 4 that guides urine, and accumulates in the urine storage container 5 of FIG. 2 via the urine snake tube 4. By flowing the vegetable oil in a small amount before use, the vegetable oil stays in the urine snake tube 4 and the urine is given priority to the container 5 for storing the urine tank, so that odor countermeasures can be taken. The urine separation toilet 29 is composed of the urine receiving hole 1 and the urine receptacle 3, and performs urine separation.

  The gantry uses a steel angle and light-weight shaped steel as a structural material, thereby reducing the strength and construction period. In addition, the structural material and the foundation are fastened with anchor bolts to maintain stability. Furthermore, the toilet walls and roof members can be easily sewn together with the lower part of FIGS. 1 and 2, making the toilet structure easy to obtain depending on the installation area and capable of being manufactured with low-cost materials. . After separation of manure, each manure is dried by solar heat for several months, so it is hygienic, it can be used as a fertilizer and soil improver, and it can be used as a fertilizer and soil improver. It is a toilet facility, and a toilet system that takes into account the ease of installation work can be realized.

In addition, the structural material and the floor board can be easily coupled by bolting.
The floor board uses a synthetic resin or a molded member as a corrosion-resistant material. And the surface layer finish of a floor board performs water-repellent painting or coating as surface treatment which can keep slip prevention and cleanliness. Similarly, for the footrest, the surface layer is subjected to water-repellent painting or coating to prevent slipping and falling. It has a sealing structure for the connecting part of the toilet bowl, the container 2 for storing the urine, and the container 5 for storing the urine, and is provided with a connecting part so that it can be easily attached and detached to replace the empty container. In addition, after the separation, a lid is provided to facilitate the transfer. In consideration of workability, the container capacity is about 30 kg including the contents capacity and the tare.

  The container 2 for urine storage and the container 5 for urine storage are sterilized and matured for about 6 months under solar heat, so they are exchanged and used each time. As a container that does not decrease, a rolled steel sheet with a Teflon-based coating inside or outside, or a resin container with equivalent performance is used. In addition, a ventilating cylinder can be installed in the bag container. In addition, the container 2 for storing urine and the container 5 for storing urine have a simple structure and a durable tank structure, and have a shape that can be tumbled and transported during transportation. In addition, there is a connection opening that can be easily taken out from the urine storage container 2 or the urine storage container 5 in the urine storage container 2 or the urine storage container 5 and dried. Manure powder can be used.

2 is a side sectional view of the toilet in the present invention. It shows that the accumulated amount of the urine level is detected by the fall of the float 30 that senses the accumulated amounts of the urine and the urine by the floating attachment plug 33. In the figure, the sliding tube of the tub receiving hole 1 is slid and moved upward, and when the amount of tub accumulated is detected, the tub storage container 2 containing the tub is removed from the toilet system and transferred to the opening. The lids 37 and 38 are screwed together. Thereby, leakage of the contents of the tank storage container 2 can be prevented and transferred.
FIG. 3 is a plan view in the case of a flush toilet having a flush function in the anhydrous manure processing toilet system shown in FIG.
Moreover, FIG. 4 is sectional drawing of the side surface of a flush toilet. In the flush toilet system, as with the anhydrous manure treatment toilet system, manure separation treatment and dry powdering can be performed to improve fertilizer and soil. As in FIG. 2, the float mounting plug 33 is attached to the container 2 for storing the urinal tank and the container 5 for storing the urine, so that the amount of urine stored as the contents of the container 2 for storing the tank and the container 5 for storing urine can be grasped. (Not shown).

FIG. 5 shows a float structure in the present invention. In this figure, the float attachment plug 33 includes a float 30, a buoyancy transmission shaft 31, a rotation shaft 32, and an eccentric shaft 34. In this figure, the float does not sense the contents. When the rotating shaft 32 passes through the guide tube portion of the float mounting plug 33, the eccentric shaft 34 falls, and it can be sensed that the content level has reached the limit of the storage amount due to the falling. .
FIG. 6 shows a float structure in the present invention. In this case, the state of the float is a state where the contents are sensed.
FIG. 7 is a side sectional view of a pressure release valve for a container according to the present invention. As described above, the pressure release may be performed freely. However, by using the pressure release valve of the container in FIG. The pressure can be released when the valve 36 reaches a pressurization / decompression state that cannot be suppressed by the spring of the release valve.

FIG. 8 is a side sectional view of the transfer lid according to the present invention. The transfer lid 37 can prevent the contents from leaking during transfer. The central part of the transfer lid 37 is shaped so that it can be easily attached to the male screw part of the receptacle part of the container while turning. A handle that opens on this principle can be used (not shown).
FIG. 9 is a plan view of the transfer lid according to the present invention. In the figure, the lids 37 and 38 for transfer can prevent the contents from leaking during transfer.

FIG. 10 is a side cross-sectional view of the present invention when the transfer lid is attached. FIG. 10 is a side view showing a state in which the transfer lid 37 in FIG. 9 is pivoted and fixed to the male screw portion of the receptacle portion of the container, and the male screw portion float for attaching the float attachment plug 33 of the container to the transfer lid 38. It is a side view of the state which is turning and fixing instead of the attachment plug 33.
Further, FIG. 11 is a side sectional view showing an example of a pressure release lid in the present invention. In this case, a pressure release lid having a simpler structure is shown instead of the pressure release valve of the container shown in FIG.
In the figure, the female screw portion of the pressure release lid 39 is screwed into the male screw in the opening of the container and fixed. The water contained in the soot inside the container is released from the opening by the temperature rise by solar heat and can be dried.

FIG. 12 is a plan view showing a state in which the pressure release lid according to the present invention is turned and fixed to the male screw portion of the receptacle portion of the container.
FIG. 13 is a side cross-sectional view at the time of attachment in a state where the pressure release lid in the present invention in FIG. 12 is pivoted and fixed to the male screw portion of the receptacle portion of the container.

  Furthermore, FIG. 14 is a control circuit diagram of the solar power generation system for manure treatment in the present invention. The excreta treatment in the present invention basically does not require public facilities such as water supply, electricity, sewage, etc., and has a mechanism to operate without supplying power. However, the solar cell 40 can be easily obtained, and the surface of the solar cell has an antireflection film, so that the heat collecting effect is high. In particular, in the case of a solar cell using polycrystalline silicon or single crystal silicon, 13% or more of sunlight energy can be taken out as electric energy, while infrared rays pass through the back side. Therefore, if heat rays such as infrared rays that pass to the back surface are used to raise the temperature of the movable solar heat collecting roof described later, the heat collecting effect can be used for heating the movable solar heat collecting roof. Therefore, the power generated by the anti-reflective coating on the surface of the solar cell can be used at the same time. Therefore, not all work is done manually, but pumping and various liquids are used to wash the equipment and parts used. Electric power can be used to operate the sensor that senses the level of the liquid and to control the conveyance of powder and liquid. Further, in this case, since wired power transmission is not required, it can be used as an independent power source, so that it can be widely used as a power source without being limited only to the power source of the manure treatment system.

  In the figure, the electric power generated by the solar cell 40 charges the storage battery with the generated electric power while preventing overcharge and overdischarge by the charge / discharge control circuit 41. With the electric power obtained from sunlight, the well water and the water tank are pumped, and the water washing system 42 can wash the jigs and containers according to the present invention. Further, the dried and powdered urine is scraped from the drying tank, collected, and transferred to the storage tank by the powder transfer system 43. The powder transfer can also be performed by a spiral rotor. In addition, since it is possible to detect the level of urine, control the flow rate using a sensor and a solenoid valve, and control the level, an unmanned urine processing system can be constructed.

  FIG. 15 is a cross-sectional structure of the movable solar heat collecting roof in the present invention. In the figure, the base portion where the tank storage container 2 is assembled and stored has a slight level difference and is raised. By moving the side plate of the mobile solar heat collecting roof to this base portion, The collection and installation work of the tank storage container 2 is facilitated. In FIG. 15, the roof is doubled, increasing the degree of freedom of the above-described collection of container storage containers 2, the horizontal and vertical arrangement work during installation work, and improving workability. . When the arrangement of the tank storage containers 2 is finished, the tank storage container 2 arranged by moving the movable solar heat collecting roof along the steps of the above-mentioned foundation part is covered, and the door on the end face Close the and start drying. In this figure, the roof has a double structure, but it is also possible to further increase the area of the drying chamber by triple or quadruple.

In addition, the sliding portion of each roof and the side plate sliding portion of the multiple structure and the sliding portion of the base and side plate described above each have an elastic seal structure, and the air pressure in the drying chamber is the sliding portion. From leaking outside.
The inner surface of the moving heat collecting roof 44 may be dried by convection by natural convection. However, if the blower fan is operated by the power generated by the previous solar power and forced convection is performed in the drying chamber, Work can be done more effectively. Furthermore, although the solar cell has a characteristic that the power conversion efficiency is lowered by the temperature rise, if the inner surface of the moving heat collecting roof 44 is cooled by a blower fan, the temperature rise on the back surface of the solar cell can be suppressed, and the power generation efficiency is lowered. Therefore, it is possible to increase the effect of both the promotion of drying and the prevention of a decrease in power generation efficiency.

  FIG. 16 shows the blower fan attached to the movable solar heat collecting roof in the present invention. A solar cell module is attached to the outside of the mobile solar heat collecting roof, and heat is collected while generating power. The infrared rays that have passed through the solar cell module are transferred to the inside of the mobile solar heat collecting roof. Cooling this movable solar heat collecting roof with a blower fan has an effect of preventing the temperature rise of the solar cell and improving the heat propagation for drying the object to be dried in the drying chamber.

  The use of the present invention is not limited to the structure of a normal toilet, and it is designed to have a structure using tail washing water in a customary area using tail washing water, and can be widely used. Since it can be used as an anhydrous mobile toilet, it is easy to use as a temporary toilet.

DESCRIPTION OF SYMBOLS 1 Reed receiving hole 2 Reed tank storage container 3 Urine receiving 4 Urine urinary tube 5 Urine tank storage container 6 Buttoic rinsing 7 Washing cascading tube 8 Footrest 9 Washing tub 10 Deodorant piping 11 Door track 12 Floor board 13 Ash container 14 Lid 15 Fixing bracket 16 Heat collecting plate 17 Solar ray 18 units 19 Heat collecting plate 20 Exhaust port 21 Inlet port 22 Carry-in port 23 Acid supply tank 24 Urine tank 25 Urine supply valve 26 Evaporator 27 Carriage 28 Urine 29 Urine separation Toilet bowl 30 Float 31 Buoyancy transmission shaft 32 Rotating shaft 33 Float mounting plug 34 Deflection shaft 35 Pressure release valve 36 Depressurization release valve 37, 38 Transfer lid 39 Pressure release lid 40 Solar cell 41 Charge / discharge control circuit 42 Water washing system 43 Powder Transport system 44 Moving heat collecting roof 45 Blower fan

Claims (14)

Separating means for manure, means for collecting the separated manure in containers, and a movable roof for collecting solar heat, separating the manure and collecting the collected containers under the movable roof An anhydrous manure treatment apparatus, characterized in that it is installed in and covered with the movable roof .   2. The anhydrous manure treatment apparatus according to claim 1, wherein a solar cell that allows infrared rays to pass through the roof that collects solar heat.   3. The anhydrous manure treatment apparatus according to claim 1, wherein manure is covered with the movable roof and sealed, solar heat is collected, and the air pressure in the room covered with the movable roof is dried under a positive pressure. An anhydrous urine treatment apparatus characterized by having an exhaust port for performing work and exhausting with a differential pressure between the room covered with the movable roof and the outside air.   4. The anhydrous urine treatment apparatus according to claim 3, wherein a chemical filter is provided at the exhaust port to provide the differential pressure and to prevent odor. Oite claims 1 to anhydrous sewage treatment equipment according to any one of 4, and means for separating the raw sewage, no means toilet to collect into the container, the container, the reservoir is屎又urine An anhydrous manure treatment apparatus characterized by having a float for displaying and sensing that the container replacement level has been reached by the fall of the tipping free part provided at the tip of the float. Oite anhydrous disposal apparatus according to claim 5, anhydrous disposal apparatus which is characterized by providing a display mechanism attached to the float. Oite anhydrous disposal apparatus according to claim 6, that the indicator of the display mechanism, a storage battery charged by a solar cell as a power source, indicating that became exchange level of the container with a light emitting diode An anhydrous manure treatment device. In anhydrous disposal apparatus according to any one of claims 5 7, wherein the container, anhydrous disposal apparatus characterized by have a lid to prevent leakage of the contents. Oite anhydrous disposal apparatus according to claim 8, the structure of the lid comprises a container inside the vacuum or pressure increase, anhydrous disposal apparatus, characterized in that the escape of pressure. The anhydrous manure treatment apparatus according to any one of claims 1, 2 , 6 , 7, 8 , and 9 , using solar power, pumping water, collecting urine, collecting crystallized urine, and drying. An anhydrous manure treatment apparatus, characterized in that a power source for driving an electric motor for transferring powdered potato powder is automatically controlled, and that the start, stop, monitoring and control of the electric motor are automatically controlled. An anhydrous manure treatment method using the anhydrous manure treatment apparatus according to any one of claims 1 to 10 , wherein an anhydrous manure treatment is performed. In the disposal method of performing dry the disposal with anhydrous disposal apparatus according to claim 8 or 9, wherein the container, the lid and the jig tool, by storing below the movable roof, respectively An anhydrous manure treatment method characterized by sterilizing at a high temperature of 50 ° C. or higher and maintaining a hygienic management state. In anhydrous human waste processing method for performing dry the disposal with anhydrous disposal apparatus according to claim 8 or 9, wherein the container, the lid, a jig tool to be used for carrying works, washed with water, sun drying, An anhydrous manure treatment method characterized by being reused. An anhydrous manure treatment method for carrying out an anhydrous manure treatment using the anhydrous manure treatment device according to any one of claims 1 to 3, wherein the crystallized urine after drying or the powdered manure is used as an agricultural fertilizer. Alternatively, a method for treating anhydrous manure, which is used as a soil conditioner or urine before drying is collected as a raw material for extracting urine components.

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