KR101207017B1 - Fermentation compost manufacture device - Google Patents

Abstract

PURPOSE: A device for producing fermented compost is provided to heat a house by supplying compost fermentation heat to the house. CONSTITUTION: A device for producing fermented compost comprises a container and support plates(114). The container accommodates a compost material and is combined with square flat panels. The support plates cross to each other along the height of the container. The lower one among the support plates supports the biggest load by increasing the area and incline thereof. The square flat panel comprises a piping panel(106) and a heating panel(110) which covers the piping panel and keeps the warmth of the piping panel.

Description

Fermentation compost manufacture device

The present invention is a compost fermenter that can produce environmentally friendly compost by accepting fermentation of agricultural and livestock waste, more specifically, by-products, livestock manure, harvested wastes, etc. that are commonly available in farmland to collect and ferment into a fermentor, pollution-free environmentally compost It is to produce, and the fermentation heat generated during the fermentation process of the compost relates to a fermentation fermenter that can heat the plastic house by heating air or water.

The plastic house is a structure that covers the plastic film on the frame to cultivate crops regardless of season and weather in rural areas. Plants are planted inside the house, which is isolated from the outside, and heated and grown according to the growing environment of the crop.

Houses usually have a building frame over the plantation, covered with glass or vinyl film on the frame to prevent outside air from entering, usually heated by daylight during the day and heating equipment such as oil, coal, and firewood boilers at night. The room temperature is maintained.

However, in a cultivated environment with insufficient sunlight, rainy season, and winter, the plastic house heating is inevitably dependent only on the heating system, but as the fuel costs continue to soar, it is difficult to heat enough due to the high fuel cost. There is a problem that costs have risen.

In order to compensate for this, efforts are made to reduce heat loss by covering members such as insulation or heat shield cover over the house.However, if sufficient amount of sunshine is not obtained even during the day, it is still difficult to maintain the temperature required for tillage, and it is necessary to help personnel or electric power. As additional costs are inevitable due to the opening and closing of members, this method is also difficult to operate. As a result, the growth of the crops is impaired, resulting in the loss of crop size and sugar content to the merchandise level. It may also result in.

For this reason, in most greenhouses or plastic houses, arable lands using firewood, briquettes, oil, and gas have been widely used to maintain the temperature of growing crops. Recently, solar and geothermal heating facilities have been tried. It is true.

However, heating facilities using coal fuel are gradually increasing the heating cost burden due to high oil prices, and heating facilities using natural energy are not widely distributed to general farms due to expensive equipment and expensive facility costs.

On the other hand, agricultural and livestock farming sites emit a large amount of wastes with high organic matter content such as crests, leaves, grains, and livestock during harvesting and breeding in cultivation. Such livestock wastes have problems of environmental pollution and groundwater pollution if they are disposed of in rivers or farmland without any additional treatment process. However, livestock waste disposal facilities have been proposed for the treatment of such livestock wastes. It was not a realistic solution for farmers to choose from. In addition, agricultural land has been proposed to solve the problem of gradually acidifying farmland by using chemical fertilizers and to produce environment-friendly compost by using agricultural livestock waste. Difficult to maintain, so this option was not widely available.

Composting of livestock waste can be seen as a fermentation process in which organic matter in waste is decomposed and stabilized by microorganisms. The decomposed final compost material can be used directly in the soil without adversely affecting the environment, and the waste piles from which the fermentation is started are supplied with organic materials, and fermentation continues as long as it maintains a proliferating and degradable environment for microorganisms. As a result, compost can continue to be produced.

Looking at the fermentation process, sawdust, rice house, twigs, by-products from harvesting process, manure, etc., compost materials, such as medium temperature bacteria and filamentous fungi when temperature conditions around 20 ℃ and about 60% moisture environment is provided Decomposition of organic matter begins by this, and in the process, the temperature rises in the compost heap, which is the heat of compost fermentation.

When the heat of fermentation is above 40 ° C., mesophilic bacteria are killed and only high temperature bacteria are propagated. In this process, decomposition of sugars and amino acids in the waste is completed. The heat of compost fermentation rises to 60 ℃ ~ 70 ℃ due to the decomposition of high temperature bacteria, and it is possible to over 80 ℃ if proper moisture and air are supplied. If the fermentation heat rises above 40 ℃ ~ 55 ℃, there is a serious problem that the yield of compost is drastically reduced as degradation activity is weakened.

Patent 10-0967162 has been proposed to utilize the fermentation heat generated in the fermentation process while fermenting livestock waste to produce compost as in the present invention, but the present invention provides a stirring rod and an electric motor to agitate the compost materials contained in the fermenter. Additional configurations such as a rotating shaft are essential, and a configuration for additional supply of water and air, which is necessary for promoting the fermentation process of compost, is not suggested, and thus there is a problem in that it is insufficient to solve the above problems.

In order for fermentation of agricultural and livestock waste to produce environmentally friendly compost, sufficient amount of compost material must be prepared, and water and air can be supplied to the compost material to promote fermentation during the composting fermentation process. The fermentation heat should be used to create and maintain a temperature environment that is most suitable for bacterial growth, so that the productivity and quality of the compost can be stably maintained so that the bacteria in charge are not killed.

The present invention has been made to solve the above problems, and provides a compost fermenter that can produce compost by fermenting the waste discharged from the farm.

The present invention provides a compost fermenter that can collect and heat the compost fermentation heat produced during the fermentation process of the compost to heat the house.

An object of the present invention is to provide a compost fermenter that can supply moisture and air to the compost material to promote fermentation of the compost.

An object of the present invention is to provide a compost fermenter that can stably support the accommodated compost material.

Compost fermenter of an embodiment of the present invention for achieving the above object is provided with an upper inlet, a lower outlet is provided to accommodate the compost material, the support plate is installed in the enclosure to support the load of the compost material, and It is installed to surround the enclosure may be made of a pipe panel, the pipe is formed, the insulation panel covering the piping panel, and a ventilation panel formed on one side of the enclosure.

The enclosure may be composed of a rectangular plate-shaped panel of unit length, and may include a frame and an inner panel having a rectangular pillar shape to reinforce durability, and constitute a ventilation bar at a lower portion of the support plate to form water and water into the enclosure. Can supply air

The pipe panel is formed so that the pipe is formed on the inner side to heat the air or water flowing through the fermentation heat of the compost material, and discharged to the outside through the ventilation panel to utilize for heating.

The compost fermenter according to another embodiment of the present invention may be configured to combine the cover provided with a gas flow channel on the upper housing to collect methane gas, and to provide the methane gas to the boiler to heat the house.

In addition, the waste heat collector which is installed inside the house and collects waste heat inside the house and supplies it to the boiler or the housing, and measures the temperature of the house and the fermenter to circulate the air of the compost fermenter and waste heat collector and operation of the boiler It may include a control unit for controlling the.

The compost fermenter of the present invention can produce pollution-free eco-friendly compost by fermenting the waste discharged from the concentrated acid value, and also has the effect of heating the house using the fermentation heat generated in the compost production process.

In addition, the boiler can be used to heat the house by using the methane gas collected in the composting process, enabling economical and eco-friendly heating, and reducing the cost for heating, thus improving the competitiveness of agricultural products and increasing profits. have..

In addition, it is possible to improve the compost productivity by recovering the waste heat inside the house and supplying to the compost fermenter to maintain the fermentation optimum temperature.

In addition, it is possible to accommodate a large amount of compost material to distribute the load evenly to increase the compost production.

1 is an exploded perspective view of a compost fermenter according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a state in which the support plate of the compost fermenter of Figure 1 is installed.
3 is a plan view illustrating a state in which the support plate of FIG. 2 is installed.
4 is a perspective view of the ventilation bar of the compost fermenter of FIG.
5 is a cross-sectional view showing a cross section of the compost fermenter of FIG.
6 is a perspective view showing a state of use of the compost fermenter of FIG.
7 is a block diagram showing the configuration of the compost fermenter of FIG.
8 is a block diagram showing a panel configuration of the compost fermenter of FIG.
9 is a block diagram showing a configuration according to another embodiment of the present invention.
10 is a configuration diagram of the compost fermenter of FIG.
FIG. 11 is a diagram illustrating the inside of the house of FIG. 9; FIG.
12 is a block diagram of the compost fermenter of Figure 9 composed of a wall of the house.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention and to those skilled in the art to fully understand the scope of the invention. It is provided only to guide the user, and is not limited to this embodiment. In the drawings, like reference numerals refer to like elements.

The present invention proposes a compost fermenter for accommodating livestock waste, that is, compost material, and providing fermentation conditions by microorganisms to produce compost through a fermentation process. In addition, the compost fermenter of the present invention proposes a compost fermenter that can heat the house using fermentation heat and gas in the fermentation process of the compost material.

1 is an exploded perspective view of a compost fermenter according to an embodiment of the present invention, Figure 2 is a partial cross-sectional view of the compost fermenter of Figure 1, Figure 3 is a partial plan view of the compost fermenter of Figure 1, Figure 4 is the compost of Figure 1 5 is a cross-sectional view illustrating the compost fermenter of FIG. 1, FIG. 6 is a perspective view of the compost fermenter of FIG. 1, and FIG. 7 is a compost fermenter according to an embodiment of the present invention. Fig. 8 is a block diagram showing a boiler configuration according to the configuration of Fig. 7, Fig. 9 is a sectional view of the house of Fig. 7, Fig. 10 is a block diagram of the compost fermenter of Fig. 7 is composed of a house wall .

The compost fermenter 100 of the present invention is configured to supply air and water to the housed compost material to induce fermentation to occur actively and to supply air or water warmed by fermentation heat to the house 400 for heating. Compost fermenter 100 according to an embodiment of the present invention as a housing for receiving the compost material, can be implemented in the form of a square pillar as shown in Figure 1 and 2, but can be produced in various forms such as cylinder, polygonal column Can be.

In addition, the housing can be produced by combining the square plate-shaped panels of the unit length made of steel, alloy, synthetic resin material.

As shown in the drawing, the compost fermenter 100 has a rectangular frame (in order to improve the bearing capacity in response to the internal pressure and the load on the enclosure as the compost material is stored, and to maintain the shape of the enclosure and increase the bonding force of the panels forming the wall). 102 and the inner panel 104 may be further included.

The panel may be a pipe panel 106 having a pipe 108 and a heat insulating panel 110 having a heat insulating material 112. In one embodiment, the pipe panel 106 and the heat insulating panel 110 may be provided. Covering the inner panel 104 and in turn to form a wall of the compost fermenter.

The pipe panel 106 is a pipe 108 is formed on the inner side, and the air or water flows through the pipe 108, is installed in contact with the inner panel 104 is generated when the stored compost material is fermented The heat of fermentation is configured to heat the air or water to be used for heating.

The pipe 106 is formed in a semi-circular cross-section with a flat surface in contact with the inner panel 104 to increase the contact area with the inner panel 104 to improve heat transfer, or a pipe with a small diameter pipe (pipe) ( 106) It can be configured by selecting from the way that is installed closely throughout the surface.

The thermal insulation panel 110 is a panel with a thick insulating material 112 attached to the surface in contact with the piping panel 106 to cover the piping panel 106 so that the compost fermenter 100 is protected from external temperature and weather changes. It is possible to reduce the loss of fermentation heat by ensuring that it is not affected and to ensure a microbial active temperature environment in which compost fermentation can occur stably.

On the other hand, one side of the compost fermenter 100 is made of a ventilation panel 120 can directly supply the air covered by the house 400 to heat. The ventilation panel 120 is provided with a ventilation window 118, the opening and closing cover 124 and the temperature sensor 128, the ventilation window 118 is connected to the pipe 108 to the fermentation heat from the pipe 108 Warm air is discharged through the ventilation window 118 to be heated.

A plate-shaped support plate 114 is formed inside the compost fermenter 100 to support and distribute the load of the compost evenly received.

 As shown in Figure 2, the support plate 114, when viewed from the side of the enclosure, is formed while crossing left and right along the height of the compost fermenter 100, while increasing the angle tilted downward along the height At the same time the length of the plate is formed to decrease.

The reason why the support plate 114 is configured as described above may be found in the load of the compost on the compost fermenter. As the compost material is accommodated in the compost fermenter 100, the lower part of the compost fermenter 100 contains the largest load, and further, when water and air are further supplied to promote fermentation during the composting process, compost is composted. The load on the bottom of the fermentor 100 is further increased.

Therefore, the support plate 114 is evenly distributed along the height of the housing to facilitate the distribution of the compost, while evenly dispersing the compost load accommodated in the compost fermenter 100, the support plate along the height so that the compost flows down well The angle of inclination toward the area and downward is gradually reduced. As shown in the drawing, the support plate 114a formed at the top is formed to have a smaller area than the support plate 114b formed in the next layer, so that compost is introduced or is not impeded to move the compost during fermentation.

Therefore, the lowermost support plate 114c, which has the greatest load, is formed with the largest area to provide a stable support structure, and at the same time, the downward slope of the support plate is steepest so that the compost after fermentation flows well even under the load. . In addition, each support plate 114 may be configured such that the support force for the load is further reinforced while the support 115 is fixed to one side.

On the other hand, since the inlet side support plate 114a into which the compost material is injected has a relatively small load, it is formed with a relatively small area and a downward slope, and guides the compost material to be introduced into the enclosure, While being injected into the upper surface of the support plate (114a) while being separated into small chunks by the impact so that many voids can be formed between.

On the other hand, the support plate 114 may be composed of a flat plate of the 'b' shape as shown in Figures 1 to 3, when the enclosure of the compost fermenter 100 is made of a square plate-shaped panels, two The two panels are located at the corners to be joined to each other, and the panels face each other, thereby firmly fixing the two panels to increase the bonding force between the panels, thereby improving the durability of the enclosure. 1 to 2, it can be seen that the two inner panels 104 are fixed.

The compost fermenter 100 further comprises a ventilation bar 122 formed along the longitudinal direction of the support plate 114 in the lower portion of the support plate 114 is configured to supply the air and water required for the compost fermentation therein do. The ventilation bar 122 is a pipe having a fan-shaped cross section, and is formed to enclose a perforated plate 124 having a plurality of through-holes formed under a '-shaped' roof, as shown in FIG. 1, the ventilation window 118. And the ventilation panel 120 having a ventilation opening cover 124 is composed of one side of the compost fermenter 100, the ventilation opening and closing cover 124 is a heat insulating material from the ventilation panel 120, the piping panel 106 ) Is inserted into a through hole 126 connected to one end of the through bar 122 through the inner panel 104 and adjusts the opening and closing degree of the through hole 126 by adjusting the rotation of the air required for fermentation. It can be supplied selectively.

Accordingly, the user separates the through-opening and closing cover 124 as necessary to promote fermentation of the compost, and puts the air pump or water pump into the through-hole 126 through the ventilation bar 122 through the compost fermenter 100 It will be able to supply enough air and water evenly inside.

 The ventilation bar 122 is fixed to the bottom of the support plate 114 and the wall surface of the compost fermenter 100 by adjusting the 's' shaped roof size as shown in Figures 4 and 5 the support plate 114 The support plate 114 may be configured to strengthen the coupling with the compost fermenter while completing the structure supporting the load) while supporting the load plate 114 better.

On the other hand, the ventilation window 118 provided in the ventilation panel 120 is guided to receive the air warmed by the compost fermentation heat through the through-hole 116 connected to the pipe 108 to be discharged to the outside, in one embodiment of the present invention The ventilation window 118 is located inside the house 400 so that hot air directly heats the inside of the house 400.

The compost fermenter 100 according to an embodiment of the present invention covers the open top, as shown in Figure 5 to 6, the gas flow path leading the gas produced in the fermentation process of the compost to the gas tank is It may be configured to further include a cover 130 provided.

The cover 130 is coupled to the compost fermenter 100 and hinged or slide-type easy to open and close, so that the user can input the compost material from time to time.

Since most compost materials are organic materials, they are decomposed during the fermentation process by microorganisms to produce heat and methane gas. This methane gas is a hydrocarbon gas, and its melting point is only -183 degrees. In addition, there is a feature that the movement is active even with less heat, so the mobility is good.

Therefore, the shape of the cover 130 may be configured to hemisphere to collect the activated gas in the center, and to form the gas flow pipe 160 in the center of the hemispherical shape may be configured to store the gas in the gas tank. .

At the lower part of the compost fermenter 100, a compost outlet 150 for drawing out composted compost is formed, and a liquid combing valve 140 for drawing out the liquid in the liquid state, and freely composts the required amount. It is configured to be usable.

Meanwhile, in the present invention, as shown in FIG. 6, the inner panel 104 is omitted, and the piping panel 106 and the frame 102 are configured to be in direct contact with the compost materials, so that the fermentation fermentation heat is applied to the piping 108. This can be configured to work directly.

In addition, the compost fermenter 100 of the present invention can be made by combining a panel made of iron, alloy, synthetic resin made of unit length as described above, also the inner panel 104, piping panel 106, thermal insulation panel 110 and the like can be manufactured in unit length to combine with each other to constitute a compost fermenter (100). As shown in FIG. 7, one side has only one insulating panel 110, and the other side has the compost fermenter 100 coupled to the piping panels 106 formed in unit length corresponding to the length of the insulating panel 110. Can be configured. Therefore, the compost fermenter 100 of the present invention can be installed in different sizes according to the terrain and the location and the compost production amount is installed, can be installed separately according to the compost type.

On the other hand, the compost fermenter 100 according to another embodiment of the present invention and the compost fermenter 100

Waste heat collector 218, which is installed on the upper inside the house to collect waste heat, the waste heat water

The suction fan 204, the exhaust fan 206 and the waste heat collector 218 using the temperature sensor 302 provided in the collector 218 and the temperature sensor 128 provided in the compost fermenter 100.

And a controller 200 for controlling the operation of the boiler 202 to circulate the hot air.

Become castle.

The controller 200 provides temperature information of the house 400 from the temperature sensor 302.

The intake fan 204 and the waste heat when the temperature is higher than the predetermined farming environment temperature.

The collector 218 is operated to suck waste heat and provide it to the waste heat suction pipe 218.

The control unit 200 again measures the temperature of the provided waste heat to verify the temperature, and then operates the exhaust fan 206 to supply the compost fermenter 100 or the house 400.

At this time, the control unit 200 operates the exhaust fan 206 and opens the valve 1 (206) to provide the exhaust pipe 3 (212) when the temperature of the provided waste heat is less than the use range compared to the predetermined fermentation titration temperature. By supplying the pipe 108 of the compost fermenter 100 to maintain a temperature at which the compost can ferment well, while heating the air circulating inside the compost fermenter 100 to increase energy efficiency.

On the other hand, the temperature of the waste heat provided to the control unit 200 is less than the predetermined fermentation titration temperature

In the case of the phase, the control unit 200 operates the exhaust fan 206, closes the valve 1, opens the valve 2 208 to discharge the waste heat through the exhaust pipe 4 214 and the ventilation window 118.

The waste heat is recycled by supplying into the switch 400.

On the other hand, the control unit 200, if the provided waste heat is lower than the fermentation titration temperature range,

The compost fermenter 100 is of course not supplied to the house 400, and the exhaust fan 206 and

The boiler 202 is operated to burn gas to further warm waste heat to supply heat to the house 400 or the compost fermenter 100.

The heating device using the compost fermenter 100 of the present invention looked through one embodiment as described above can be used to heat the house with the compost fermentation heat produced in the process of making compost using waste generated in the rural, together with By using the methane gas produced, the boiler can be used together as a heating means.

In addition, by detecting and collecting waste heat in the house and using it for fermentation of the compost, it is possible to produce a stable compost production and a large amount of compost fermentation heat, and as shown in Figure 9 the compost fermenter 100 is part of the house 400 By making it a wall, the firmness and warmth of the house 400 building is further improved.

A waste heat collector 218 installed above the house with the compost fermenter 100 to collect waste heat, a temperature sensor 302 provided in the waste heat collector 218, and a temperature sensor provided in the compost fermenter 100. The control unit 200 is configured to control the operation of the suction fan 204, the exhaust fan 206, and the waste heat collector 218 and the boiler 202 using the 128.

100: compost fermenter 102: frame
104: inner panel 106: piping panel
108: piping 110: insulation panel
112: heat insulating material 114: support plate
116: through-hole 118: ventilation window
120: ventilation panel 122: ventilation bar
124: through-opening and closing cover 126: through-hole
128: temperature sensor 130: cover
140: liquid fertilizer valve 150: compost outlet
160: gas flow pipe 162: gas tank
200: control unit 202: boiler
204: suction fan 206: exhaust fan
208 Exhaust Pipe 1 210 Exhaust Pipe 2
212 Exhaust Pipe 3 214 Exhaust Pipe 4
216 exhaust pipe 5 218 waste heat flow path
300: waste heat collector 302: temperature sensor
400: house 402: ventilation window

Claims (8)

A housing containing compost material;
And a support plate installed inside the enclosure to support the load of the compost material; and piping;
A compost fermenter, characterized in that for heating the air or water in the pipe with the fermentation heat generated when the compost material is fermented. The method of claim 1,
The enclosure is made of a combination of square flat panels,
The panel is a pipe panel installed on the inner surface; And,
By consisting of a heat insulating panel covering the pipe panel to keep warm,
A compost fermenter, characterized in that the size of the housing is selectively configured and the heat retention is improved. The method of claim 1,
The support plate,
Is formed to cross the left and right along the height of the enclosure, the area and the slope is increased from the upper to the lower,
Compost fermenter, characterized in that the bottom support plate is configured to support the largest load. The method of claim 1,
The support plate further includes a support fixed on one side,
Compost fermenter characterized in that the bearing capacity for the load is reinforced. The method of claim 1,
The support plate is a flat plate having a '-' shape,
Located at the inner edge of the enclosure and fixed to the panel surface abuts on both sides,
Composting fermenter, characterized in that fixed to strengthen the binding force between the panels. The method of claim 1, wherein
The enclosure further comprises a through-hole formed in one side and a ventilation bar connected to the through-hole installed therein,
Compost fermenter characterized in that it can supply air and water through the through-hole. The method according to claim 6,
The through hole is coupled to the through opening and closing cover having a rotation opening and closing means detachably,
Composting fermenter characterized in that to operate the through-opening cover to adjust the amount of air inflow. The method of claim 2,
The enclosure further includes a ventilation panel formed with a ventilation window on one side,
Compost fermenter characterized in that the heated air in the pipe is discharged to the ventilation window to be heated.

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