KR101939626B1 - Vegetative soil produced by recycling system of organic waste and construction method of inclined plane using the same - Google Patents

Abstract

The present invention solves the problem that the germination rate is lowered in the subsequent fermentation in the soil by completely fermenting the sewage sludge by using the microbial culture solution while recycling the sewage sludge as the recycled production system of the organic waste, Which can be used for greening and the like, and a method for greening the slope surface using the same, which is capable of increasing the growth after germination by killing or suppressing a larva, a fungus, or a virus parasitic on a plant.

Description

TECHNICAL FIELD [0001] The present invention relates to a greenhouse soil containing ginkgo leaf components produced by a recycling production system of organic wastes, and a method for greening the greenhouse using the same. BACKGROUND ART [0002] VEGETATIVE SOIL PRODUCED BY RECYCLING SYSTEM OF ORGANIC WASTE AND CONSTRUCTION METHOD OF INCLINED PLANE USING THE SAME [

More particularly, the present invention relates to a rye soil containing a ginkgo leaf component produced by a recycling production system of organic waste, and a slush surface greening method using the greenhouse soil.

Since slopes of cut-outs exposed by civil engineering work are mainly rocky or barren soils, restoration by natural vegetation is almost impossible in a short time.

Because of the necessity of restoration of vegetation by anthropogenic artificial soil, various techniques have been developed for Rye soil. Korean Patent No. 10-1572110 and No. 10-1205575, among others.

The former discloses a vegetable soil to which chaff and charcoal powder are added to a manure containing paper sludge and Masato, and the latter discloses a rye soil composition including masato and sawdust in livestock and food waste fermentation compost.

However, the effect of removing harmful microorganisms from the charcoal powder in the former is insignificant, and in the latter case, when the livestock and food waste are not completely fermented, there is a problem that the germination rate of the seed is lowered due to heat generated by fermentation .

Meanwhile, organic wastes contained in living, environmental wastes or industrial wastes can be recycled as organic fertilizer or rye soil through aerobic fermentation. In order to aerobic fermentation, Is required.

Korean Patent Registration No. 10-1353428 discloses a technique in which a feeder is buried at a predetermined depth on a concrete floor of a fermentation treatment facility and a plurality of feeders are formed on a concrete floor at an upper portion of the feeder.

Since the above-mentioned patent requires a plurality of feed mechanisms to be formed on the concrete floor by matching with the feed pipes, not only the construction is not easy, but also the leaking water generated in the fermentation process is guided to the feed pipe through the feed mechanism, There is a problem that it may pollute the surrounding environment due to the fact that it is drained out of the facilities through such facilities.

Korean Patent No. 10-1289539 discloses a chlorine dioxide admixture equipped with a venturi pipe, an ion-exchange scrubber and a regeneration unit, which is provided with a passage through which odorous gas passes, in order to remove the odor generated during fermentation and composting organic wastes. Disclosed is a deodorization apparatus using chlorine dioxide and ion exchange fiber composed of a liquid storage tank.

However, since the second patent passes through a simple venturi tube and chlorine dioxide is in forced contact with the malodor gas, it is difficult to react and react properly with each other, and an ion exchange scrubber and a regeneration liquid storage tank must be separately provided as well as a chlorine dioxide admixture , And a problem that a large amount of facility and operation costs are required.

The present invention solves the problem that the germination rate is lowered in the subsequent fermentation in the soil by completely fermenting the sewage sludge by using the microbial culture solution while recycling the sewage sludge as the recycled production system of the organic waste, It is an object of the present invention to provide a rye soil that can be used for greening and the like, and a method for greening the slope surface using the same, by killing or suppressing larvae, fungus, viruses,

In order to accomplish the above object, the present invention provides a recycling system for recycling organic wastes, which comprises ginkgo, ginkgo, , Said aged copper and said agitated copper comprising an air injection device, a malodor reduction device and at least one fermentation tank in independent closed spaces surrounded by floor, side wall and roof, respectively, and said air injection device has a constant A plurality of elongated grooves that are broken to have a predetermined depth, width, and length at intervals and open at the top in the longitudinal direction; A plurality of air supply pipes respectively disposed in the plurality of long grooves and exposed to pores formed on the side surfaces and protruding outside the aged copper or the stirring copper through the bottom of the fermenter; An air distribution pipe for distributing the air by connecting the plurality of air supply pipes outside the aged copper or the stirring copper; And an air injector connected to one end of the air distribution pipe to supply compressed air, wherein a microorganism culture solution injection tube having a plurality of nozzles toward the fermentation tank is installed inside each of the aged copper and the roof of the agitation copper Wherein the pulp (paper) sludge is 20 to 30% by weight, the safflower is 20 to 30% by weight, the safflower sludge is 20 to 30% by weight, And the microbial broth is 1 to 5% by weight, the microbial broth is 1 to 5% by weight, the sewage sludge is 15 to 20% by weight, the crushed tree is 10 to 15% by weight, the organic compost is 10 to 15% By weight based on the total weight of the composition.

Wherein the depth of the slot is 3.5 / 3 to 4/3 times larger than the outer diameter of the air supply pipe, the width of the slot is 4/3 to 5/3 times larger than the outer diameter of the air supply pipe, And the air distribution pipe is connected at a higher position than the plurality of air supply pipes at a predetermined height, and each of the plurality of long grooves is formed into a 'c' shape having a thickness of 1 to 2 mm, And the plurality of air supply pipes are disposed in the bent metal plates, respectively, and the metal plate is adhered closely to both side surfaces and the bottom surface of the groove, and the plurality of air supply pipes are disposed in the bent metal plate, .

The malodor reduction apparatus includes a gas discharge pipe connected to a malodor discharge port of the roof and having a predetermined length; A chlorine dioxide generating device for supplying chlorine dioxide through an injection nozzle coupled to the inside of the gas discharge pipe; An exhaust device fastened to the rear of the gas discharge pipe; And at least one line mixer disposed between the injection nozzle and the exhaust device in the gas discharge pipe. The organic gypsum recycle production system according to the present invention is characterized in that the gypsum containing the ginkgo leaf component is produced.

The exhaust gas purifier according to any one of claims 1 to 3, wherein the exhaust gas purifying device further comprises a gas sensing sensor inside the roof, the exhaust device being operated to operate by the gas sensing sensor, Is twisted by 90 degrees so that the mixed gas flowing in the inside of the reactor is twisted at 1/2 and rotated through 180 degrees. The plurality of the twisted warper plates are connected in series. The ginkgo leaf component produced by the recycling production system of the organic waste according to the present invention Other characteristics of Rye soil include.

The microbial culture solution supplied to the microbial culture solution injection tube and constituting the composition of the rye soil is a useful microbial powder containing ¹ x 10 < ⁶ > ^{to 7} cfu / g of Bacillus subtilis and Aspergillus oryzae, Is diluted 400 to 600 times with water. This is another feature of Rye soil containing ginkgo leaf component produced by the recycling production system of the organic waste according to the present invention.

Wherein the fermentation tanks are divided into two rows of the fermentation tanks in the same size, the fermentation tanks being symmetrically divided into two equal lengths, one or more fermentation tanks being opposed to each other in the longitudinal direction, The front and rear conveying apparatuses are fastened to the rails, and the agitating apparatus having the agitating arms vertically moving and rotating means is fastened to the predetermined frame in the front and rear conveying apparatuses. Another feature of Rye soil that contains ginkgo leaf components produced by the recycling production system of organic waste.

The front and rear conveying apparatuses include four conveying wheels in the front, rear, right and left directions, which are fastened to the rails; First and second driving shafts which are respectively coupled to left and right wheels of the conveying wheels to transmit power; And first and second motors connected to the first and second drive shafts, respectively, according to another aspect of the invention, wherein the ginkgo soil contains ginkgo biloba components produced by the system for recycling organic wastes according to the present invention.

A hinge shaft fixed to the frame so as to be perpendicular to the rails; A support arm rotatably coupled to the hinge shaft at one side; A third drive shaft rotatably inserted into the other side of the support arm; A plurality of stirring arms spirally attached to the third drive shaft; Agitation protrusions attached to the respective ends of the stirring arm; A vertical movement driving unit fixed to the frame and coupled to an end of an auxiliary arm extending to one side of the support arm; And a rotation driving unit fixed to the frame to drive the third driving shaft. The present invention also provides another feature of the rye soil comprising the ginkgo leaf component produced by the system for recycling organic wastes according to the present invention.

A predetermined collecting space is formed below a part of the side walls of the loading chamber and the packing chamber. The collecting space is provided with a first conveyor for receiving the raw material and transferring the raw material to the packing chamber , A magnetic separator is disposed above the first conveyor and a crusher is provided at the end of the first conveyor. The crusher is connected to the separator through a second conveyor, a third conveyor is disposed in front of the separator, 4 conveyor, and both sides of the fourth conveyor are connected to a distributor for organic fertilizer and a distributor for Rye soil in the fifth and sixth conveyors, respectively. The ginkgo leaf component produced by the recycling production system of the organic waste according to the present invention The other characteristics of Rokuto are as follows.

Meanwhile, the method for applying rye soil for slope slope greening according to the present invention includes the step of spraying the rye soil on the surface to be sprayed at a high pressure.

The present invention solves the problem that the germination rate is lowered in the subsequent fermentation in the soil by completely fermenting the sewage sludge by using the microbial culture solution while recycling the sewage sludge as the recycled production system of the organic waste, Larvae, fungi, viruses, and the like which are parasitic on plants, and can increase the growth after germination, so that they can be used for greening.

FIG. 1 conceptually shows a plan view of an embodiment of aging in a system for producing a soil of Rye soil according to the present invention.
FIG. 2 is a cross-sectional view taken along the line AA 'in FIG. 1, showing the structure according to one embodiment of the ripening motion.
3 is a sectional view taken along the line BB 'in Fig.
FIG. 4 is a cross-sectional view taken along the line AA 'of FIG. 1, showing a structure according to another embodiment.
5 is a sectional view taken along line CC 'in Fig.
FIG. 6 conceptually illustrates a plan layout of one embodiment of agitation according to the present invention.
FIG. 7 is a cross-sectional view taken along the line DD 'of FIG. 6, showing a structure according to an embodiment of stirring.
8 is a use state diagram showing the structure and operation relationship of the stirring apparatus provided with the up-down movement and rotation means of the stirring arm in FIG.
FIG. 9 conceptually shows a side view of one embodiment of the packaging agreement in the organic fertilizer and the soil production system according to the present invention.
FIG. 10 is a photograph of a comparison between green peat without ginkgo leaf and comparative green peat according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The grapevine containing the ginkgo leaf component according to the present invention is characterized in that the organic wastes divided into the aged copper 100, the agitated copper 120 and the copper copper 140, 200, as illustrated in Figs. 1, 6 and 9, Of recycling production system.

The aged copper (100) and the agitated copper (120) are connected to an independent closed space surrounded by a floor (1), a side wall (2) and a roof (3) ), A malodor reduction apparatus (110) and at least one fermenter (4, 5; 6).

Here, the air injecting apparatus has a structure in which the bottom 1 of the fermenter 4, 5, 6 is provided with a predetermined depth, a width, and a predetermined depth at regular intervals, as shown in FIGS. 1, 2, 6, A plurality of elongated grooves (10) crisscrossed and open at an upper portion in the longitudinal direction; A plurality of air supply pipes 24 arranged in the plurality of long grooves and exposed to the pores 26 formed on the side surface and penetrating the bottom of the fermenter to protrude out of the aged copper 100 or the stirring copper 120, ; An air distribution pipe (22) for distributing air by connecting the plurality of air supply pipes (24) from outside of the aged copper (100) or the stirring copper (120); And an air injector 21 connected to one end of the air distribution pipe 22 to supply compressed air.

The plurality of elongated grooves 10 may be formed in a trench shape when the cement is positive on the cement bottom 1 and are smaller than the lengths of the side walls of the side walls of the fermentation tanks 4 and 5 The depth of the groove 10 is 3.5 to 3/4 times larger than the outer diameter of the air supply pipe 24 and the width of the long groove 10 is 4/3 to 5/3 times larger than the outer diameter of the air supply pipe 24 .

By doing so, the leachate generated in the sediment can be stored in the grooves 10, and the leachate, which is supplied from the air injector 21 and impregnated into the grooves 10 and the air supply pipe 24, The fine sediments S such as rice hulls entered into the elongated grooves 10 are discharged from the elongated grooves 10 along with the leachate so as to be discharged to the lower portion of the sediment S .

The plurality of pores 26 may be irregularly formed around the entire surface of the air supply pipe 24 and may be formed to have a size of 1 to 3 mm so that the fine sediment S does not enter the pores 26.

When the depth of the grooves 10 is less than 3.5 / 3 times the outer diameter of the air supply pipe 24, there is a possibility that the air supply pipe 24 is damaged when the heavy equipment is passed. However, if it is 4/3 times, There is a problem that it becomes difficult to discharge the leached water and the fine sediments S which have entered the long groove 10 by the compressed air of the air injector 21 to the outside of the long groove 10 because a lot of fine sediments S are piled up inside the long groove 10.

If the width of the long groove 10 is less than 4/3 of the outer diameter of the air supply pipe 24, it is difficult to store sufficient leachate in the long groove 10 and the side wall of the long groove 10 and the air supply pipe 24, There is a problem that it is difficult to smoothly discharge the fine sediments S that have entered under the long grooves 10 to the compressed air through the pores 26 out of the long grooves 10.

In a specific embodiment, the length of the long groove 10 is 8 cm, the width is 10 cm, the outer diameter of the air supply pipe 24 is 6 cm, and the air supply pipe 24 is positioned at the center of the bottom of the long groove 10, It is preferable to arrange them on the upper and left sides of the supply pipe 24 with an interval of 2 cm each.

3, a metal plate 12 bent in a 'C' shape having a thickness of 1 to 2 mm in a cross section perpendicular to the longitudinal direction is provided in the plurality of long grooves 10, And a plurality of air supply pipes 24 may be disposed in the bent metal plate 12, respectively.

Thus, when a plurality of grooves 10 are formed on the cement floor 1, a plurality of metal plates 12, which are bent in a 'C' shape during the course of cement growing, can be arranged and inserted at regular intervals. There is an advantage that the leakage of leachate through the long groove 10 as well as the problem of breakage of the long groove 10 due to the movement of heavy equipment can be solved.

As shown in FIG. 2, the air distribution pipe 22 is preferably connected at a predetermined height higher than the plurality of air supply pipes 24. By doing so, the leachate leaking into the air supply pipe 24 flows into the air distribution pipe 22).

Next, a malodor reduction device 110 is installed on each roof 3 of the fermentation copper 100, the stirring copper 120, and the packaging copper loading chamber 140 surrounding the fermentation tanks 4, 5 and 6, In this case, the leachate discharged from the fermentation tank is evaporated through the malodor reduction apparatus 110 and is discharged to the outside together with the malodorous gas, which can fundamentally solve the problem of polluting the environment caused by the discharge of leachate .

The malodor reduction apparatus 110 includes a gas discharge pipe 40, which is connected to the malodor discharge port 3a of the roof 3 and has a predetermined length. A chlorine dioxide generating device 50 for supplying chlorine dioxide (ClO ₂ ) through an injection nozzle 54 connected inside the front of the gas discharge pipe 42; An exhaust device (60) fastened to the rear (46) of the gas discharge pipe; And at least one line mixer (70) provided between the injection nozzle (54) and the exhaust device (60) in the gas discharge pipe.

The shapes of the aged copper 100, the agitated copper 120 and the roof 3 of the pavement dynamic loading chamber 140 may vary. However, as shown in FIG. 2, the front inlet of the gas discharge pipe 40 is fastened And the gas discharge pipe 40 is installed along one side slope of the roof 3 and down to one side along one of the left and right side surfaces 2 It is preferable to connect the pipe to the pipe, and to pipe it.

By doing so, even if there is odor gas coming out from the fermentation tank 4, 5, 6 when the exhaust system 60 is not driven, the internal pressure of the closed spaces 100, 120, 140 is lower than the outside atmospheric pressure The malodorous gas stays in the upper part of the closed space 100 under the roof 3, so that the malodorous gas can be prevented from being discharged to the outside through the gas discharge pipe 40. [

4 and 5, the front 42 of the gas discharge pipe 40 is installed through the roof 3 and the rear 46 of the gas discharge pipe 40 is connected to the roof 3) outside in the direction perpendicular to the front (42) of the gas discharge pipe. In this case, it is easy to construct. At this time, it is preferable that the front portion 42 of the gas discharge pipe 40 is protruded to the inside of the roof 3 by a predetermined length as shown in Fig. Even if odorous gas stays above the closed spaces 100, 120, and 140 below the roof 3, it is controlled to be discharged through the gas discharge pipe 40 when the standard conditions such as a certain pressure exceed, .

The gas sensing sensor 3b is further provided inside the roof 3 and the exhaust device 60 is operated only when the value detected by the gas sensing sensor 3b is greater than a predetermined value . At this time, the gas detection sensor 3b may be a pressure sensor or a malodor detection sensor.

2, 4 and 5, the chlorine dioxide generating device 50 includes a chlorine dioxide gas generator 51, a chlorine dioxide supply pipe 52, an injection nozzle 54 (Not shown). The nozzle opening / closing control unit may be provided to allow a person to directly operate the nozzle opening / closing control unit. However, the nozzle opening / closing control unit may be configured to automatically open the injection nozzle 54 It is preferable that it is opened and closed.

In the latter specific examples, when the exhaust opening 60 is operated and the malodorous gas is discharged into the gas discharge pipe 40 with the nozzle opening / closing control part having a venturi pipe structure, the lowered pressure in the venturi pipe is sensed and the injection nozzle 54 is opened Or the nozzle opening / closing control unit may be configured to have a solenoid structure so that when the ionized odor gas passes through the gas discharge pipe 40 by the operation of the exhaust device 60, the injection nozzle 54 is opened, or the nozzle opening / And can be turned on / off together with the control switch of the exhaust device 60 when the exhaust device 60 is operated.

The line mixer 70 is an inline mixer. The line mixer 70 may have a configuration in which a plurality of 180-degree twisted warper plates are rotated 90 degrees and connected in series in the gas discharge pipe 40.

By doing so, the line mixer 70 is a mixed gas of chlorine dioxide gas and the odor of each twist plate to be divided, and stirred to half as they pass is to pass through while being rotated by 180 degrees, when the n-th pass twist plate 2 ⁿ Dog The divided gas streams are again divided into two so that each side is rotated 180 degrees (S-shaped rotation) and stirred.

As described above, when the line mixer 70 according to the present invention is provided between the injection nozzle 54 and the exhaust device 60 in the gas discharge pipe 40, chlorine dioxide and odor gas (S-shaped rotation), and by repeating the division and mixing (stirring), the deodorizing effect can be enhanced by sufficiently stirring and reacting with each other while passing through the gas discharge pipe 40.

Also, since the line mixer 70 has a configuration in which a plurality of 180-degree twisted pretensioner plates are rotated at a predetermined angle (for example, 90 degrees) and connected in series, the equipment costs for odor reduction It also has the advantage of dramatically reducing operating costs.

2 or 5, the line mixer 70 is connected to the front end 42 of the gas discharge pipe 40 at a position adjacent to the injection nozzle 54, And the gas mixture discharged from the S-shaped rotation is continuously passed through the remaining gas discharge pipe 40. However, the gas mixture may be divided into two or more gas discharge pipes 40 and provided inside the gas discharge pipe 40. [

The exhaust device 60 is installed at the rear side 46 of the gas discharge pipe 40 and forces the odor gas in the closed spaces 100, 120 and 140 to be discharged to the outside through the gas discharge pipe 40. Therefore, An exhaust fan 62 provided inside the exhaust pipe 40, a motor for driving the exhaust fan 62, and a control unit 64.

The control unit 64 of the exhaust unit 60 is provided with a control switch or the like so that the motor of the exhaust fan 62 is automatically operated by a control signal sensed by the gas sensing sensor 3b, .

The air injector 21 may be a kind of compressor and may be operated in conjunction with the exhaust device 60. In this case, opening and closing of the exhaust device 60, the injection nozzle 54, and the air injector 21 are automatically operated by a signal detected by the gas detection sensor 3b to cause the fermentation tanks 4, The gas can be reduced or removed and discharged.

The control unit 64 of the exhaust unit 60 may be connected to the air injector 62 through the air injector 62. The air injector 21 may be connected to the exhaust unit 60, It is preferable to control the operation so as to be operated simultaneously with the internal combustion engine 21 or within 10 minutes, or to be equal to or exceed the amount of air supplied to the air injector 21 within the range of 10%.

By doing so, the gas deodorized (neutralized) with chlorine dioxide by the exhaust device 60 is discharged by the amount of the outside air supplied to the closed spaces 100, 120 and 140 on the average by the air injector 21, 62 and the motor load of the air injector 21 can be reduced, thereby reducing power consumption.

As shown in FIGS. 2 and 7, a microorganism culture medium injection tube 30 is further provided inside the roof 3 of the aged copper 100 and the stirring copper 120, A plurality of nozzles 32 may be provided toward the fermentors 4, 5, 6.

By providing the microbial culture liquid injection pipe 30 and the nozzle 32 inside the respective roofs 3, it is possible to easily inoculate a predetermined microbial culture liquid into the fermentation tanks 4, 5 and 6, And complete fermentation is performed in the stirring process.

The organic waste may include at least one of waste water sludge, sewage sludge, dry food (dehydrated cake), crushed wood and pulp (paper) sludge.

Here, the wastewater sludge is sludge obtained by wastewater treatment using an activated sludge method, a chemical reduction method or the like in a wastewater treatment plant, and may include organic sludge. The term "organic sludge" as used herein means that the organic matter content of the solid matter is at least 40% as defined by the Enforcement Regulations of the Wastes Management Act.

The above-mentioned wastewater treatment plant includes wastewater treatment facilities such as food, agricultural and industrial complexes and industrial complexes. However, in the organic sludge, copper (Cu) 500, lead (Pb) 150, chromium Cr) 300, cadmium (Cd) 5, mercury (Hg) 2 and arsenic (As)

The wastewater sludge can be brought into the form of a dewatered cake having a water content of about 80% at the wastewater treatment plant.

The sewage sludge is sludge obtained by treatment with an activated sludge method or the like in a sewage treatment plant and may include organic sludge. Also in this case, the organic sludge means that the organic matter content of the solid matter is at least 40% as described above.

The sewage treatment plant may be a variety of domestic sewage end treatment facilities, but it is also preferable that the organic sludge is limited to not exceeding the heavy metal component standard of the fertilizer standard described above.

The sewage sludge can also be transferred into a dewatering cake form having a water content of about 80% by weight reduction (water reduction) by a gravity type or a centrifugal type concentration method in a sewage treatment plant.

The dried food (dehydrated cake) is introduced into the form of a dehydrated cake having a moisture content of 60% or less through a dehydration process after being selected or pulverized by a food waste processing company. The dry food contains various organic substances and nutrients such as proteins and carbohydrates, and is supplied as a main source of organic matter required for plant growth through fermentation.

The shredding tree maintains air permeability, drainability, provides organic matter, and improves the binding force of organic fertilizer or rye soil, including sawdust. There is no particular restriction on the raw material of the crushed wood, but it may be obtained from cypress, cedar, baobab, fir or any one or more selected wood pieces (branches) or bark.

The pulp (paper) sludge may be a fibrous granule of vegetable carbohydrate such as cellulose, hemicellulose, lignin, etc. obtained from a paper mill and may be brought into a dewatered cake having a water content of about 80%.

The microbial culture solution to be fed to the microbial culture solution injection tube 30 is a useful microbial powder containing ¹ x 10 < ⁶ > ^{to 7} cfu / g of Bacillus subtilis and Aspergillus oryzae, It is preferably diluted 400 to 600 times.

Bacillus subtilis is known as Bacillus subtilis, which anaerobically metabolizes various saccharides such as glucose, starch and the like, but also decomposes pectin and polysaccharides of organic substances such as plant tissues, and especially degradable carbohydrates such as cellulose, hemicellulose and lignin Excellent resolution.

Aspergillus oryzae is a yeast fungus called Hwanggukjun. It decomposes starch into glucose by protein as an amino acid and ferments polymer organic matter (solids) in organic sludge of wastewater sludge and sewage sludge as well as dried food And fermentation can be performed even at a high temperature where other fermenting bacteria are difficult to activate.

The useful microorganism powder may further contain lactic acid bacteria, yeast, photosynthetic bacteria, actinomycetes and filamentous bacteria useful for vegetation in an appropriate amount, and Bacillus subtilis and Aspergillus oryzae contain 1x10 ^{6 to 7} cfu / g, respectively, It is preferable to dilute them 400 to 600 times. If the Bacillus subtilis and Aspergillus oryzae each contain less than ¹ x 10 ⁶ to 10 ⁷ cfu / g of the respective microorganisms, the appropriate dilution amount of water becomes small, so that a sufficient microbial culture can not be obtained. However, There is a problem that the culture of the bacteria is not easy.

It is most preferable that the microorganism culture solution is a 500-fold dilution of a useful microorganism powder containing 1 x ¹⁰ < ⁶ > ^{to 7} cfu / g of each of Bacillus subtilis and Aspergillus oryzae in water.

The microorganism culture solution containing Bacillus subtilis and Aspergillus oryzae is passed through a plurality of fermentation tanks (4, 5; 2 to 10) illustrated in FIG. 1, inverts the sediment (S) in each fermentation tank, To a neighboring fermentation tank, it is sprinkled a certain amount. When aged and fermented in aged copper (100) for 27 to 36 days, it is almost fermented and no odor or gas is generated. Subsequently, the sediment S is transferred to the stirring copper 120 and stirred with a stirring device 80, which will be described later, to sprinkle a certain amount of the microbial culture liquid and stir. Thus, the microbial culture liquid is uniformly mixed with the sediment S, This can be done.

The organic waste may further include organic compost and ginkgo leaf.

The ginkgo leaf contains a sterilizing and insecticidal component called flavonoid, which can kill or suppress the larva of insect in the soil, the fungus and the virus which are parasitic to the plant, and increase the growth after germination.

Since the ginkgo leaf can be used as a fallen leaf from ginkgo trees, it can be used as an organic fertilizer or a biomass.

According to the embodiment, the ginkgo leaf may be used in a size of 8 mm or less and may be added as a ginkgo leaf extract extracted by a known extraction method such as hot water extraction.

The ginkgo leaf may be added after the sediment S has been transferred to the packing movement stacking chamber 140.

Hereinafter, concrete structural examples of the aged copper (100), the agitated copper (120) and the copper copper (140, 200) will be described.

As shown in FIG. 1, the fermentation copper 100 includes two fermentation tanks (1) and three or more fermentation tanks 4, 5 (2) to (10) Can be symmetrically partitioned.

The fermentation tanks (4, 5; ② to ⑩) of the fermentation copper (100) have seven or nine fermentation tanks for three to four days of fermentation in one fermenter and then transferred to a neighboring fermenter, (For example, fermentation is carried out in the order of ② to ⑩ as shown in Fig. 1), and fermentation is preferably performed for 27 to 36 days in the fermentation copper (100).

The preparation vessel (1) is a place for temporarily storing various kinds of organic wastes used as a raw material of the sediment (S) for a certain period of time. Unlike the fermentation tanks (4, 5; The groove 10 may not be formed.

6 to 8, one or more fermentation vessels 6 are longitudinally divided, the rails 96 are provided on both side walls 6 of the fermentation vessel of the stirring vessel, The front and rear conveying devices 90 are fastened to the rails 96 and the vertical moving and rotating means 81 and 85 of the stirring arm 84 are provided on the predetermined frame 83 And the stirring device 80 may be fastened.

8, the stirring arm 84 is horizontally moved along the rails 96 by means of the back and forth conveying device 90, and is moved up and down by the up and down moving and rotating means 81, (S), and is rotated by a predetermined driving shaft (82) to stir the evenly deposited sediments (S).

As shown in Figs. 7 and 8, the front and rear conveying apparatuses 90 include four conveying wheels 94a and 94b for conveying in the front, rear, left, and right directions, respectively, which are fastened to the rails 96; First and second drive shafts (95a, 95b) that are coupled to the right and left wheels at front and rear portions of the conveying wheels to transmit power; And first and second motors 91 connected to the first and second drive shafts by a predetermined chain 93, respectively

The support members 92 surrounding the front and rear conveying wheels 94a and 94b are further provided with forward and backward movement stoppers 97a and 97b to automatically control the first and second motors 91 .

The vertical movement and rotation means 81 and 85 of the stirring arm 84 are hinge shafts 87 fixed to the frame 83 so as to be perpendicular to the rails 96; A supporting arm (89) which is rotatably connected to the hinge shaft on one side; A third driving shaft 82 rotatably inserted into the other side of the supporting arm; A plurality of agitating arms 84 spirally attached to the third drive shaft; Agitation protrusions (86) attached to the respective ends of the stirring arm; A vertical movement driving part 85 fixed to the frame 83 and coupled to an end of an auxiliary arm extending to one side of the supporting arm 89; And a rotation driving unit 81 fixed to the frame 83 and driving the third driving shaft 82 with a predetermined chain 81a.

9, the packaging machine is divided into a loading chamber 140 and a packaging chamber 200, and a part of the bottom 1 of the middle separation sidewalls of the loading chamber 140 and the packaging chamber 200, A collecting space 144 is formed in a hopper shape below and a collecting space 144 is provided with a first conveyor 212 for receiving a raw material and transferring the raw material to the packing chamber 200, And a hopper type crusher 210 is provided at an end of the crusher 210. The crusher is connected to the separator 220 through a second conveyor 222 and a third conveyor 228 is disposed in front of the separator, The fourth conveyor 231 is connected to the organic fertilizer dispenser 240 through the fifth conveyor 242 and the second conveyor 242 is connected to the knocker dispenser 230 .

In the loading chamber 140, the sediment S agitated in the stirring copper 120 is moved and stacked on one side, and ginkgo leaves and the like are further added.

The additional compounding may vary depending on the organic fertilizer and the soil. In the latter case, a liquid polymer may be added together with the marathon in order to prevent draining during the application of the slab. At this time, the liquid polymer may be a base resin including polyester, polyepoxy, polyurea, polyacrylate, polyoxetane, aqueous latex, or a mixture thereof.

The liquid polymer may be contained in a jar which is fermented by the microorganism culture liquid in a separate container. However, as in the specific examples below, the liquid polymer may be mixed with the rye soil composition because it is contained in a small amount.

A predetermined hardening agent, seeds and the like may be blended at the site of spraying the greensand soil on a slope, such as a slope, and sprayed by a pumping method using a high-pressure pump that is generally used. In other words, the slope slope surface is applied in such a manner that the surface to be sprayed with the rye soil is sprayed at a high pressure. Other details can be found in Korean Patent No. 10-1232290, which was granted by the same inventor.

Meanwhile, sediments S of the same raw materials are put into the collecting space 144, moved to the first and second conveyors 212 and 222, passed through a network (also referred to as a passageway 226) of the network structure of the sorter 220 Is packed with the organic fertilizer 246 through the hopper 244 of the organic fertilizer dispenser 240 according to the driving of the fourth conveyor 231 and the hopper of the distributor 230 234 to the rye soil 236.

The debris that can not pass through the passage 226 may be discharged through the third conveyor 228 but may be transported to the distributor 230 through the sixth conveyor 232 to be packed in the rye soil 236 Can be done. In the latter case, the organic fertilizer 246 can be produced together with the fourth conveyor 231 and the fifth conveyor 242, which have passed through the passageway 226.

9, a magnetic separator 214 is further attached to the upper part of the first conveyor 212 so that the metal component contained in the sediments S So that it can be automatically removed.

Aging the organic waste in the sediment (S) in the invention, fermented odor gas discharged in the process of recycling organic fertilizer or noksaengto is ammonia (NH _3), mercaptan (CH ₃ SH), hydrogen sulfide (H ₂ S) and so on 8 kinds of odor gas can be decomposed and removed by chlorine dioxide (ClO ₂ ), and it is widely known as described in Korean Patent Registration No. 10-1289539 and the principle of chlorine dioxide gas production is already known The detailed description thereof will be omitted.

The rye soil produced by the recycling production system of the above organic wastes is composed of pulp (paper) sludge, masato, sewage sludge, crushed wood, organic compost, ginkgo leaf and microorganism culture liquid.

In a specific embodiment, the pulp (paper) sludge is 20 to 30 wt.%, The masato 20 to 30 wt.%, The sewage sludge 15 to 20 wt.%, The crushed wood 10 to 15 wt. 10 to 15 wt% of the ginkgo leaf, 4 to 10 wt% of the ginkgo leaf, and 1 to 5 wt% of the microbial culture solution.

In the above-described embodiment, the limiting meaning of the range of each configuration is as follows.

First, when the pulp (paper) sludge contains less than 20% by weight based on the dehydrated cake having a water content of about 80%, the stickiness is lowered on the slope, and when it exceeds 30% by weight, the pulp (paper) There is a problem that microorganisms are required in a large amount or in a time-consuming manner.

If the amount of the above-mentioned masato is less than 20% by weight, drainage and air permeability of the rye soil is poor, but if it exceeds 30% by weight, the hardness of the rye soil is excessively low.

The sewage sludge is based on a dehydrated cake having a water content of about 80% when blended, and if it is blended at less than 15% by weight each, it is difficult to achieve the object of the present invention to recycle sewage sludge as rye soil, There is a problem in that it takes a long time to treat the leachate from the sludge and complete fermentation in the production system.

Since the crushed tree maintains the air permeability and draining property of the rye soil and provides the organic material, if it is added in an amount of less than 10% by weight, it is difficult to achieve a desired purpose, but if it exceeds 15% by weight, There is a problem.

When the organic compost is added in an amount of less than 10% by weight, various kinds of oil, minerals and nutrients required for vegetation are hardly supplied. If the organic compost is more than 15% by weight, the content of other composition should be reduced. It is difficult to achieve the object of the present invention to recycle sludge, environmental wastes, sewage sludge and crushed wood.

The microbial culture solution is used for aging / fermenting pulp (paper) sludge, sewage sludge and crushed wood. If it is added in an amount of less than 1% by weight, it is difficult to obtain a desired fermentation in the production system, There is a problem in that the microbial treatment cost becomes high.

If the amount of the ginkgo leaf is less than 4% by weight, the effect of sterilizing and insecticide in the soil may be deteriorated and a desired effect can not be expected. If the amount exceeds 10% by weight, the content of other composition should be reduced. There is a problem that it becomes difficult to achieve.

Most preferably, the pulp (paper) sludge is 25 wt%, the masato is 25 wt%, the sewage sludge is 20 wt%, the crushed wood is 10 wt%, the organic compost is 10 wt% 5% by weight of the microorganism and 5% by weight of the microorganism culture.

In addition, as described above, the microorganism culture solution is most preferably obtained by diluting a useful microorganism powder containing 1 x ¹⁰ < ⁶ > ^{to 7} cfu / g of each of Bacillus subtilis and Aspergillus oryzae to 500 times in water.

Hereinafter, with reference to Table 1 and FIG. 10, in order to examine the fermentation effect of the microorganism culture solution according to the present invention before adding Ginkgo biloba in the last embodiment, a comparative example (see Table 1) (See FIG. 10) in which no ginkgo leaf was added at all.

division Example COMPARATIVE EXAMPLE 1 COMPARATIVE EXAMPLE 2 COMPARATIVE EXAMPLE 3 COMPARATIVE EXAMPLE 4 COMPARATIVE EXAMPLE 5 COMPARATIVE EXAMPLE 6
7/12
13:30
gas Prize Prize Prize Prize Prize medium Prize smell Ha Ha Prize Ha medium Ha Prize Heat (internal, ℃) 47.5 41.3 40.9 40.2 47.5 42 40.2 Heat (outside, ℃) 32 33 34 33 34.5 35 29
7/12
15:00
gas medium Prize Prize medium medium medium Prize smell medium medium Prize medium medium medium Prize Heat (internal, ℃) 44.1 43 43.3 43.6 40.9 43.7 41.2 Heat (outside, ℃) 36.4 35.7 34.7 34.2 35.7 36.6 31.2
7/12
17:00
gas medium Prize medium medium medium Prize Prize smell medium medium medium medium medium medium Prize Heat (internal, ℃) 39.5 44.6 39.5 37.9 40 40.1 37.4 Heat (outside, ℃) 32.8 33.5 32.7 31.9 33.4 34.7 29.1
7/13
09:00
gas medium Prize medium medium medium medium Prize smell medium Prize medium medium medium medium medium Heat (internal, ℃) 33.2 36.7 34.4 35 33.3 34.5 31.9 Heat (outside, ℃) 29.9 30.1 30 29.9 30.4 30.5 27.8
7/13
13:30
gas Ha medium medium medium medium medium Prize smell Ha medium medium Ha medium medium Prize Heat (internal, ℃) 36.5 38.7 37.6 37.8 36.2 38.2 35.8 Heat (outside, ℃) 34.9 35.6 34.6 34.7 34.3 36.8 35

Comparative Example 1 contained 1 × 10 ⁶ cfu / ml of Rhodopseudomonas palustris, Comparative Example 2 contained lactic acid bacteria (Lactobacillus sp. 2.8 × 10 ⁶ cfu / ml) and Comparative Example 1 contained 1 × 10 ⁶ cfu / , Yeast (4.6 × 10 ⁷ cfu / ml) and photosynthetic bacteria (Rhodobacter sp. 2.3 × 10 ⁶ cfu / ml), Comparative Example 3 contained 1 × 10 ⁶ cfu / ml of Lactobacillus casei and Comparative Example 4 will contain more than Lactobacillus casei 1x10 ⁶ cfu / g, Comparative Example 5 will contain the composite microbial agent such as yeast, Bacillus bacteria, lactic acid bacteria, Comparative Example 6 is a contrast to each fermentation a normal compost is not microorganisms are added .

The results of Table 1 are prepared in the same environment. The gas was measured as the degree of steam generation, the smell was taken directly to the observer's nose, and the heat inside and outside was measured with a thermometer.

From the results shown in the above Table 1, the microorganisms Bacillus subtilis and Aspergillus oryzae according to the present embodiment are added, respectively, so that the internally generated heat (temperature) as a result of fermentation differs by 11 ° C during the day, While the odor is significantly reduced, the comparative examples show that the difference in internal heat is only about 3 ~ 5 ° C, and that the gas and smell are not much reduced. Especially, in Comparative Example 4, Gas and odor were quite different in comparison to this embodiment.

FIG. 10 is a photograph of a comparison between the comparative example (A) of the rye soil composition without the ginkgo leaf and the rye soil composition with the ginkgo leaf according to the present invention, according to the embodiment (B).

The results of FIG. 10 show that, in order to make rye soil, only the addition of the microbial culture solution is added, and the same seeds are mixed in the prepared rye soil, and the pye pumping method is applied by using a high pressure pump. will be.

According to FIG. 10, the germination rate of the seed after the application was higher than that of the control (A) without the ginkgo leaf, but the growth was not smooth after the germination, It can be confirmed that the growth condition after germination is remarkably good while maintaining the same germination rate as in Comparative Example (A).

It is thought that the addition of ginkgo biloba leaves the ginkgo larvae, the fungi and viruses that are parasitic on the plants, and helps the growth after germination.

Although the preferred embodiments of the present invention have been described above, the present invention has been described with respect to the above embodiments. In particular, by obtaining a sufficient amount of fermented rye soil after adding the microbial culture liquid to the production system, It is possible to apply various technical ideas to enhance growth after sterilization and insecticidal ingredient by adding ginkgo leaf and ginkgo leaf.

10: floor groove of the floor 20: air injection device
30: microorganism culture liquid injection tube 40: gas discharge tube
50: chlorine dioxide generating device 60: exhaust device
70: line mixer 80: stirring device
90: forward and backward conveying device 100:
110: odor reducing apparatus 120: stirrer
140: Loading chamber 200: Packing chamber

Claims (10)

The present invention relates to a system for the production of gypsum containing ginkgo biloba by recycling organic wastes divided into aged copper, agitated copper and packed copper,
Wherein the aged copper and the agitation copper each include an air injection device, a malodor reduction device, and at least one fermenter in independent closed spaces surrounded by a floor, a side wall, and a roof,
Wherein the air injection device comprises: a plurality of elongated grooves having a predetermined depth, a width and a length at regular intervals on the bottom of the fermenter;
A plurality of air supply pipes respectively disposed in the plurality of long grooves and exposed to pores formed on the side surfaces and protruding outside the aged copper or the stirring copper through the bottom of the fermenter;
An air distribution pipe for distributing the air by connecting the plurality of air supply pipes outside the aged copper or the stirring copper; And
And an air injector connected to one end of the air distribution pipe to supply compressed air,
The depth of the slot is 3.5 / 3 to 4/3 times larger than the outer diameter of the air supply pipe,
The width of the long groove is 4/3 to 5/3 times larger than the outer diameter of the air supply pipe,
The length of the long groove is smaller than the length of the side wall of the side wall of the fermentation tank,
Wherein the air distribution pipe is connected to the plurality of air supply pipes at a predetermined height higher than the plurality of air supply pipes so that the leached water permeated into the plurality of air supply pipes does not flow out to the air distribution pipe,
Wherein the plurality of air supply pipes are irregularly formed with a plurality of pores each having a size of 1 to 3 mm so that the compressed air supplied from the air injector causes the leached water permeated into the long groove and the plurality of air supply pipes And an air supply pipe provided on the front side of the air supply pipe having the outer diameter so as to be smoothly discharged out of the long groove through a plurality of pores,
A microbial culture fluid injection tube having a plurality of nozzles facing the fermentation tank is installed inside each of the aged copper and the roof of the agitation copper,
The aged copper has one preparation vessel and seven or nine fermentation vessels symmetrically arranged in two rows of the same size facing each other perpendicularly to the longitudinal direction,
Wherein the preparation tank is a place where the organic waste is loaded for each kind and transferred to one of the fermentation tanks, unlike the fermentation tank,
The organic waste includes at least one of organic compost, sewage sludge, dried food (dehydrated cake), crushed wood and pulp (paper) sludge,
Wherein the packed copper is divided into a loading chamber and a packaging chamber,
And a ginkgo leaf is further added in the loading chamber.
The method according to claim 1,
A metal plate bent in a 'C' shape having a thickness of 1 to 2 mm is tightly attached to both sides of the slot and the bottom surface of each of the plurality of slots,
Wherein the plurality of air supply pipes are disposed in the bent metal plate, respectively.
3. The method according to claim 1 or 2,
The malodor reduction apparatus includes a gas discharge pipe connected to a malodor discharge port of the roof and having a predetermined length;
A chlorine dioxide generating device for supplying chlorine dioxide through an injection nozzle coupled to the inside of the gas discharge pipe;
An exhaust device fastened to the rear of the gas discharge pipe; And
And at least one line mixer provided between the spray nozzle and the exhaust device in the gas discharge pipe.
The method of claim 3,
The roof is further provided with a gas sensor inside,
The exhaust device is provided to be operated by the gas sensing sensor,
Wherein the air injector is operable to operate in conjunction with the exhaust device,
Wherein the line mixer is composed of a plurality of gypsum plates containing a ginkgo nut component, which is twisted by 90 degrees and twisted by 180 degrees so that a mixed gas flowing in the gas discharge tube is divided into two halves, Production system.
The method of claim 3,
The microbial culture solution supplied to the microbial culture solution injection tube and constituting the composition of the rye soil is a useful microbial powder containing ¹ x 10 < ⁶ > ^{to 7} cfu / g of Bacillus subtilis and Aspergillus oryzae, Is diluted 400 to 600 times with water.
The method of claim 3,
The stirring copper is characterized in that at least one fermenter is longitudinally divided,
A rail is provided above both sidewalls of the fermentation tank for stirring,
The front and rear transfer devices are fastened to the rails,
Wherein the agitating device having the agitating arm and the rotating means is fastened to a predetermined frame in the front and rear conveying apparatuses.
The method according to claim 6,
The front and rear conveying apparatuses include four conveying wheels in the front, rear, right and left directions, which are fastened to the rails;
First and second driving shafts which are respectively coupled to left and right wheels of the conveying wheels to transmit power; And
And a first and second motors connected to the first and second drive shafts, respectively.
8. The method of claim 7,
A hinge shaft fixed to the frame so as to be perpendicular to the rails;
A support arm rotatably coupled to the hinge shaft at one side;
A third drive shaft rotatably inserted into the other side of the support arm;
A plurality of stirring arms spirally attached to the third drive shaft;
Agitation protrusions attached to the respective ends of the stirring arm;
A vertical movement driving unit fixed to the frame and coupled to an end of an auxiliary arm extending to one side of the support arm; And
And a rotation driving unit fixed to the frame to drive the third driving shaft.
The method according to claim 1,
A predetermined collecting space is formed below a part of a bottom wall of the separating side wall of the loading chamber and the packing chamber,
Wherein the collecting space is provided with a first conveyor for receiving a raw material and transferring the raw material to the packaging chamber,
A magnetic separator is disposed above the first conveyor and a crusher is provided at the end,
The pulverizer is connected to the separator through a second conveyor,
A third conveyor is disposed in front of the sorter, and a fourth conveyor is provided under the sorter,
And both sides of the fourth conveyor are connected to a distributor for an organic fertilizer and a distributor for a rye soil, through fifth and sixth conveyors, respectively. delete

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