KR102286548B1 - Organic waste fermentation reduction treatment device for continuous storage of microbial medium and the organic waste fermentation reduction treatment system - Google Patents

Abstract

The present invention relates to a microbial medium continuous storage type organic waste reduced fermentation treatment device and to an organic waste reduced fermentation system thereof. The present invention is provided with a partition wall provided inside a stirring tank, and by installing screw conveyors on both sides of an upper side of the range that does not interfere with the rotation radius of stirring blades, the screw conveyors on both sides are operated in opposite directions, so that an organic waste that overflows beyond the rotation radius of the stirring blade is rotated through the screw conveyors on both sides to increase the stirring efficiency. In addition, instead of discharging all organic wastes, novel organic wastes are added in a state where a certain amount of agitated organic wastes (microbial medium, moisture content of 35% or less) are always kept in the stirring tank, regardless of the moisture content of the inputted organic wastes, that is, it is to ensure that stable stirring can be continuously performed no matter what state of organic waste is input.

Description

Organic waste fermentation reduction treatment device for continuous storage of microbial medium and the organic waste fermentation reduction treatment system

The present invention relates to a microbial medium continuous storage type organic waste reduced fermentation treatment apparatus and an organic waste reduced fermentation treatment system therefor, and more particularly, has a partition wall inside the stirring tank, and does not interfere with the rotation radius of the stirring blade. By installing screw conveyors on both sides of the upper part of the range, the screw conveyors on both sides are operated in opposite directions, and the organic waste overflowing beyond the rotation radius of the stirring blades is rotated through the screw conveyors on both sides to increase the stirring efficiency. In addition, instead of discharging all of the organic waste, a certain amount of agitated organic waste (microbial medium, moisture content of 35% or less) is always stored in the stirred tank, and new organic waste is added to the water content of the inputted organic waste. It relates to a microbial medium continuous storage type organic waste reduced-fermentation treatment system and a reduced-fermented organic waste treatment system capable of continuously and stably performing agitation regardless of any state, that is, organic waste in any state.

In general, a large amount of food waste is inevitably generated at each home or business place such as a restaurant, and livestock excreta from farms raising livestock (cow, pig, chicken, etc.) or sewage sludge is generated in each local government. And, since these organic wastes contain moisture, it causes considerable cost and difficulty in processing, and when the organic matter of organic wastes is decomposed, bad odor is generated and pathogens grow spontaneously, which greatly affects hygiene.

Although there are various methods for treating such organic waste, conventionally, a method by burying in the ground and a method by incineration using an incinerator are widely used.

However, since a large amount of leachate is inevitably generated when organic waste is buried, there is a problem that not only contaminates the surrounding environment as well as groundwater, but also has economic problems due to securing and establishing a waste landfill site.

In addition, in incineration of organic waste, there is a problem that a lot of energy is required for incineration, which takes a lot of money, and there is a problem in that it has a fatal effect on the human body due to the inevitable generation of toxic gas such as dioxin.

In order to solve this problem, organic waste treatment devices have been developed and used. They form a single shaft in the stirring tank and a stirring blade on the single shaft to stir the organic waste while stirring the organic waste after a certain period of time and when the stirring is completed, it is discharged to the lower side of the stirring tank has a structure that In this structure, the organic waste is filled and stirred, and then the moisture content is lowered to discharge all of it. For example, in the case of organic waste having an appropriate moisture content (35% or less), if it takes about 1 day to stir, the moisture content is 80 to 90 In the case of % organic waste, when the moisture content reaches about 45 to 60% during the stirring process, it hardens to the stirring blade and causes a load on the stirring blade. Since it has to be stopped, there was a problem that it took about 4 to 5 days to stir through this process.

That is, there is a problem in that it is difficult to continuously and stably agitate depending on the moisture content of the input organic waste.

Patent Publication No. 10-2019-0103557

Accordingly, the present invention was devised to eliminate the above-mentioned problems. A partition wall is provided inside the stirring tank, and screw conveyors are installed on both sides of the upper part of the range that does not interfere with the rotation radius of the stirring blades, so that the screw conveyors on both sides are opposite to each other. direction to increase the stirring efficiency by rotating the overflowing organic waste beyond the rotation radius of the stirring blades through the screw conveyors on both sides, and at the same time, not discharging all of the organic waste, but always a constant amount in the stirring tank. Continuous stable stirring operation regardless of the moisture content of the input organic waste by inputting new organic waste in the state of storing the stirred organic waste (microbial medium, moisture content of 35% or less) It was completed as a technical task with a focus on the microbial medium continuous storage type organic waste reduced fermentation treatment system and the organic waste reduced fermentation treatment system.

The present invention for achieving the above technical problem, in configuring the microbial medium continuous storage type organic waste horizontal fermentation reduction processing apparatus, the input part 12 of the organic waste (s) on one side upper part is provided so as to be able to open and close a tank body 10; a partition wall 70 for partitioning the inner space of the tank body 10 into sections on both sides (C1, C2) with respect to the middle section in the longitudinal direction of the tank body 10; a rotating shaft 21 that passes through the partition wall 70 and is rotated by a stirring reducer 25 connected to each of the lower sides of the tank body 10 in parallel and horizontally; A plurality of stirring blades 23 are provided on the outer periphery of the rotary shaft 21 to rotate while alternating with each other on both sides of the rotary shaft 21 to stir the organic waste (s) flowing in from the input unit 12, An air supply 13 for supplying air to the inner space of the tank body 10 is provided on both sides of the upper side of the tank body 10 with the partition wall 70 as a center, and interferes with the rotation radius of the stirring blade 23 A pair of screw conveyors 31 and 35 respectively installed near the inner space of the tank body 10 on both sides of the upper side of the stirring blade 23 that does not work; The pair of screw conveyors 31 and 35 are provided to communicate with both sections C1 and C2 partitioned by the partition wall 70, respectively, and the one side screw conveyor 31 is a first section section C1 on one side. ) to move the organic waste (s) overflowing to the upper side of the stirring blade 23 from the first section (C1) to the second section (C2) to rotate forward in the direction of the second section (C2), which is the other side, and , the screw conveyor 35 on the other side is rotated forward in the direction of the first section C1 in the second section section C2, so that the organic waste (s) overflowing to the upper side of the stirring blade 23 is transferred to the second section section (C2). ) to the first section (C1) so that the organic waste (s) in the tank body 10 is circulated in both sections (C1, C2), the other screw conveyor 35 is a second section ( A protruding extension 37 is provided outside the tank body 10 of C2), and the discharge portion 14 is formed on the lower side of the protruding extension 37, and the other screw conveyor 35 is moved to the first section. The fermented and dried organic waste (s) rotated on the other side screw conveyor 35 by reverse rotation from the part (C1) to the second section part (C2) is discharged through the discharge part (14), and the tank body (10) ), a pair of screw conveyors (31, 35) is stirred on the lower side and configured to keep the organic waste (s) made of a microbial medium filled in, the screw conveyors (31, 35) are each It is provided in the upper open “∪”-shaped moving pipe 30 and is configured to move the organic waste (s) while rotating, and the filling of the organic waste (s) that maintains the filled state in the tank body (10) The interval h1 between the upper end p1 and the ceiling p2 in the tank body 10 is 1 to 1.5 m, and the first section C1 and the second section C2 within the gap h1. is configured to be used as a contact section between the heat generated from the organic waste (s) being stirred with the air supplied from the air supply unit 13, and the air supplied from the air supply unit 13 is the first section (C1) and the second section. A pair of screw conveyors ( 31, 35) provides a microorganism medium continuous storage type organic waste horizontal fermentation reduction processing apparatus, characterized in that a plurality of communication holes 76 are formed on the upper partition wall 70 of the.

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In addition, the lower air supply unit 80 which is installed on the bottom body 11c of the tank body 10 on both sides of the lower side of the stirring blade 23 that does not interfere with the rotation radius of the stirring blade 23, respectively; The lower air supply part 80 is connected to the blower 83 provided on the outside of the tank body 10 and is provided with a supply pipe 81 parallel to the rotation shaft 21 and a predetermined interval on the supply pipe 81 . It is characterized in that it is composed of a plurality of injection holes 82 are formed.

In addition, the one side screw conveyor 31 is connected to the motor 34 to operate only one direction forward rotation, and the other side screw conveyor 35 is connected to the motor 38 to operate forward and reverse rotation in both directions. In addition, an inverter 39 is connected to the motor 38 of the screw conveyor 35 on the other side so that the rotation speed of the motor 38 is adjusted, so that the organic waste (s) moved from the one side screw conveyor 31 is moved and It is characterized in that it is configured so that it can be maintained evenly.

In addition, on the upper side of the other screw conveyor 35, an interval adjusting plate 91 for adjusting the entry interval h2 of the organic waste (s) that enters and moves toward the other side screw conveyor 35 is provided horizontally. The control plate 91 is provided in the form of a horizontal plate so as to cover the upper open side of the moving pipe 30 in the shape of “∪”, and a fixing plate 92 fixed horizontally from the inside of the rear side wall 11b of the tank body 10 . ) is characterized in that it is connected to the lower side so as to be movable horizontally.

In addition, the frame of the tank body 10 is formed in a double shape having an inner space layer (u), and a diaphragm 65 is formed in the inner space layer (u) perpendicular to the longitudinal direction of the tank body 10 . However, the diaphragm 65 is alternately formed up and down so that the air passage 67 is formed in a zigzag shape, and is inputted from the inlet side 61 of the air passage 67 to the end side 62 . It is characterized in that the air heated while being discharged to be configured to flow into the inner space of the tank body (10).

In addition, the tank body 10 is installed in at least two stages in the upper and lower stages, and the organic waste (s) injected into the input part 12 of the upper tank main body 10 is transferred to the upper one screw conveyor 31 and the other screw conveyor ( 35) and is put into the lower tank body 10 through the discharge part 14 of the other screw conveyor 35, and passes through the lower one screw conveyor 31 and the other screw conveyor 35 to the other screw conveyor ( 35) characterized in that it is configured to be discharged to the outside of the tank body 10 through the discharge portion 14.

Another aspect of the present invention provides a storage tank 110 into which organic waste (s) having a moisture content of 80 to 90% is input through an input unit in configuring the microbial medium continuous storage type organic waste fermentation reduction treatment system; a dryer 130 for receiving and drying the organic waste (s) from the storage tank 110 through the supply facility (P) to reduce the moisture content from 80 to 90% to 50 to 60%; Fermentation reduction stirring device ( 150); A discharge unit for discharging organic waste (s) having a moisture content of 25 to 30% that has passed through the reduced fermentation and agitation device 150; however, the reduced fermentation and agitation device 150 has an organic waste (s) on one upper side ) of the tank body 10 which is provided with the input part 12 so as to be able to open and close; a partition wall 70 for partitioning the inner space of the tank body 10 into sections on both sides (C1, C2) with respect to the middle section in the longitudinal direction of the tank body 10; a rotating shaft 21 that passes through the partition wall 70 and is rotated by a stirring reducer 25 connected to each of the lower sides of the tank body 10 in parallel and horizontally; A plurality of stirring blades 23 are provided on the outer periphery of the rotary shaft 21 to rotate while alternating with each other on both sides of the rotary shaft 21 to stir the organic waste (s) flowing in from the input unit 12, An air supply 13 for supplying air to the inner space of the tank body 10 is provided on both sides of the upper side of the tank body 10 with the partition wall 70 as a center, and interferes with the rotation radius of the stirring blade 23 A pair of screw conveyors 31 and 35 respectively installed near the inner space of the tank body 10 on both sides of the upper side of the stirring blade 23 that does not work; The pair of screw conveyors 31 and 35 are provided to communicate with both sections C1 and C2 partitioned by the partition wall 70, respectively, and the one side screw conveyor 31 is in the first section C1. The organic waste (s) overflowing to the upper side of the stirring blade 23 by making it rotate forward in the direction of the second section (C2) is moved from the first section (C1) to the second section (C2), and the other side screw conveyor (35) is to rotate forward in the direction of the first section (C1) in the second section (C2), the organic waste (s) overflowing to the upper side of the stirring blade (23) in the second section (C2) in the first By moving to the section (C1), the organic waste (s) in the tank body (10) is circulated in both sections (C1, C2), and the screw conveyor 35 on the other side is the tank of the second section (C2). A protruding extension 37 is provided to the outside of the main body 10, and a discharge portion 14 is formed on the lower side of the protruding extension 37, so that the other screw conveyor 35 is connected to the first section C1. Fermented and dried organic waste (s) rotated on the other side screw conveyor 35 by reverse rotation to the second section part (C2) is discharged through the discharge part 14, and in the tank body 10, a pair The screw conveyors 31 and 35 of the lower side are stirred to keep the organic waste (s) made of a microbial medium filled, and the screw conveyors 31 and 35 are each in an upper open “∪” shape. The upper end p1 and the tank body are provided in the moving pipe 30 of the organic waste (s) to move the organic waste (s) while rotating, and to maintain the filled state in the tank body (10). (10) The interval h1 of the inner ceiling portion p2 is provided in a range of 1 to 1.5 m, and the first section portion C1 and the second section portion C2 within the interval h1 are separated from the air supply unit (13). It is configured to be used as a contact section between the supplied air and the heat generated from the agitated organic waste (s), and the air supplied from the air supply 13 is between the first section section (C1) and the second section section (C2). The upper partition wall 70 of a pair of screw conveyors 31 and 35 to move ) provides a microorganism medium continuous storage type organic waste fermentation reduction treatment system, characterized in that a plurality of communication holes 76 are formed on the.

According to the present invention as described above, a partition wall is provided inside the stirring tank, and screw conveyors are installed on both sides of the upper side of the range that does not interfere with the rotation radius of the stirring blades so that the both sides of the screw conveyors are operated in opposite directions to each other, By causing the organic waste overflowing beyond the rotation radius to be rotated through the screw conveyors on both sides, that is, by replacing the organic waste on both sides with the bulkhead as the center, it is stirred more evenly and the stirring efficiency can be increased.

In addition, if both screw conveyors are operated in opposite directions and one side of the screw conveyor is reversely rotated during discharge, it can be discharged to the outside of the stirring tank, that is, both supply and discharge are made at the upper side of the rotation radius of the stirring blade. By doing this, organic waste with a constant moisture content can always be filled in the stirred tank, and due to this structure, a constant amount of agitated organic waste (microbial medium, moisture content of 35% or less) is always stored in the stirred tank, and new organic waste There is an effect such as being able to continuously perform a stable stirring operation regardless of the moisture content of the input organic waste, that is, no matter what state the organic waste is input.

1 is an exemplary side view showing the operation of the screw conveyor on one side of the microbial medium continuous storage type organic waste horizontal fermentation reduction processing apparatus according to the present invention;
Figure 2 is a plan view of Figure 1
3 is an exemplary side view showing the circulation operation of the other side screw conveyor according to the present invention;
Figure 4 is an exemplary side view showing the discharging operation of the other side screw conveyor according to the present invention
5 is an exemplary view of an interval adjusting plate according to the present invention;
6 is an exemplary view of the lower air supply unit and the heater pipe of the tank body according to the present invention;
7 to 9 are views of another embodiment of the organic waste stirring treatment apparatus according to the present invention
10 is an exemplary view of the process sequence of the microbial medium continuous storage type organic waste fermentation reduction treatment system according to the present invention

Hereinafter, specific contents for carrying out the present invention will be described in more detail with reference to the accompanying drawings.

The present invention is provided with a partition wall inside the stirring tank, and by installing screw conveyors on both sides of the upper side of the range that does not interfere with the rotation radius of the stirring blades to operate the both side screw conveyors in opposite directions, the rotation radius of the stirring blades is increased. Agitation efficiency is increased by rotating the overflowing organic waste through the screw conveyors on both sides, and at the same time, not all organic waste is discharged, but a certain amount of agitated organic waste (microbial medium, moisture content 35%) in the stirring tank at all times. Below), by putting new organic waste in storage, microbial medium continuous storage type organic matter that enables stable stirring operation continuously regardless of the moisture content of the input organic waste, that is, regardless of the organic waste in any state. It relates to a waste horizontal fermentation reduction processing apparatus and an organic waste reduction reduction processing system. Referring to FIGS. 1 to 10, a tank body 10, a bulkhead 70, agitating blades 23 and a pair of screw conveyors 31 , 35) is included.

First, the tank body 10 is provided for the implementation of the microbial medium continuous storage type organic waste horizontal fermentation reduction treatment apparatus of the present invention. The tank body 10 is provided with an inlet 12 of the organic waste (s) on one side upper portion as shown in FIGS. 1 and 2 to be opened and closed, and the tank body 10 is front with reference to FIG. 1 . The side wall 11a, the rear side wall 11b, the floor 11c, and the ceiling 11d are formed to have a “∪” cross section as shown in FIG. 6 .

The inner space of the tank body 10 is provided with a partition wall 70 that divides the inner space into the section portions C1 and C2 on both sides with respect to the middle portion in the longitudinal direction of the tank body 10 . Due to the configuration of the partition wall 70, the organic waste (s) circulates between both sections C1 and C2, and the detailed configuration thereof will be described later.

1 and 2, it has a rotating shaft 21 that is rotated by a stirring reducer 25 connected horizontally and parallel to both sides of the lower side of the tank body 10 while passing through the partition wall 70, and the A plurality of stirring blades 23 are provided on the outer periphery of the rotary shaft 21 to rotate while alternating with each other on both sides of the rotary shaft 21 to stir the organic waste (s) flowing in from the input unit 12 .

At this time, an air supply 13 for supplying air to the inner space of the tank body 10 is provided on both sides of the upper side of the tank body 10 around the partition wall 70, and the organic waste ( s) is supplied, or necessary air is supplied in the process of stirring the organic waste (s) in the tank body (10).

In addition, on both upper sides of the tank body 10 adjacent to the air supply 13, an exhaust 19 for discharging the air supplied through the air supply 13 to the outside is provided.

It is preferable that the air supplied from the air supply unit 13 circulates through both sections C1 and C2. For this purpose, as shown in FIG. A plurality of communication holes 76 are formed on the upper partition wall 70 of the pair of screw conveyors 31 and 35 to move between the C1) and the second section C2.

At this time, the first section (C1) is a section in which 80 to 90% of organic waste (s) is added and stirred, and the first section section (C1) performs a dilution stirring fermenter function, The second section (C2), in which the organic waste (s) stirred in the section (C1) is moved and moved to each other while being stirred again, performs the post-ripening stir fermenter function.

Although not shown in order to increase the movement speed of air through the communication hole 76, a blower is provided on the partition wall 70 in which the communication hole 76 is formed, and air is rapidly blown into the communication hole 76 through the blower. It can be configured to be moved.

In addition, at this time, only air can be supplied through the air supply unit 13, but when the temperature of the organic waste (s) in the tank body 10 drops due to cold outside weather, it is necessary to inject hot air, As shown in FIG. 1, the heater 17 is connected on the air supply 13 and configured to be selectively used when necessary.

The heater 17 is not only supplied from the upper side of the tank body 10 through the air supply 13, but also a heater pipe 85 on the bottom body 11c of the tank body 10 as shown in FIG. It can be configured to be directly supplied to the organic waste (s) during stirring operation by providing a.

In addition, the lower air supply unit 80 may be further installed on the bottom body 11c of the tank body 10 on both lower sides of the stirring blade 23 that does not interfere with the rotation radius of the stirring blade 23, respectively. At this time, the lower air supply part 80 is connected to the blower 83 provided on the outside of the tank body 10 and provided in parallel with the rotation shaft 21 and the supply pipe 81 and the supply pipe 81 on the It is to be composed of a plurality of injection holes 82 formed at regular intervals.

On the other hand, as in FIGS. 2 and 6, a pair of screw conveyors (31, 35) is installed. The pair of screw conveyors 31 and 35 are provided to communicate with both sections C1 and C2 partitioned by the partition wall 70, respectively. Preferably, the screw conveyor 31 on one side has a first section section ( C1) to be located only on a part of the phase, and the other screw conveyor 35 is located on the entire second section portion (C2).

This is because the first section (C1) is in communication with the input section (12) side of the organic waste (s), when the organic waste (s) is introduced, the amount of organic waste (s) in the second section (C2) is greater than This is to ensure that the amount of organic waste (s) in both sections (C1, C2) is evenly maintained since this is filled.

More specifically, first, the screw conveyors 31 and 35 are provided in the moving pipe 30 of the upper open “∪” shape, respectively, as in FIG. 6 and configured to move the organic waste (s) while rotating, 1 and 2, the one side screw conveyor 31 is rotated forward in the direction from the first section (C1) to the second section (C2) to overflow the organic waste (s) to the upper side of the stirring blade (23) ) to move from the first section part (C1) to the second section part (C2), and as in FIGS. 2 and 3, the other screw conveyor 35 is moved from the second section part (C2) to the first section By moving the organic waste (s) overflowing to the upper side of the stirring blade (23) from the second section (C2) to the first section (C1) by rotating it forward in the direction of the section (C1), the organic matter in the tank body (10) Waste (s) is configured to circulate in both sections (C1, C2).

At this time, the other screw conveyor 35 extends the protruding extension 37 to the outside of the tank body 10 of the second section C2 as shown in FIG. 4 , and the lower portion of the protruding extension 37 . By forming the discharge part 14 on the side, the other side screw conveyor 35 is reversely rotated from the first section section (C1) to the second section section (C2) to rotate on the other side screw conveyor (35) Fermented dried organic matter Waste (s) is configured to be discharged through the discharge unit (14).

In more detail, as shown in FIG. 1, the one side screw conveyor 31 is connected to the motor 34 so that only one-way forward rotation is operated, and as shown in FIGS. 3 and 4, the other side screw conveyor 35 is a motor It is connected to 38 so that forward rotation and reverse rotation are operated in both directions, and an inverter 39 is connected to the motor 38 of the screw conveyor 35 on the other side so that the rotation speed of the motor 38 is adjusted. By controlling the amount of movement of the organic waste (s) moved in the screw conveyor 31, it is possible to maintain the same.

Although not shown as a modified embodiment of the pair of screw conveyors 31 and 35, organic waste ( By configuring so that s) falls to the lower side, it is configured to secure time and space for air and heat to contact the organic waste (s) during stirring of the organic waste (s). This can also be applied to the other screw conveyor (35).

As another way to evenly maintain the amount of organic waste (s) moving in the both sections C1 and C2, as shown in FIG. It may be provided with an interval adjusting plate 91 for adjusting the entry interval (h2) of the organic waste (s) to enter and move.

The gap control plate 91 is provided in the form of a horizontal plate so as to cover the upper open side of the moving pipe 30 in the shape of “∪”, and a fixed plate horizontally fixed inside the rear side wall 11b of the tank body 10 . It is connected to the lower side of the 92 by a guide pin 94 and is configured to be horizontally movable by the operation of a controller (not shown).

As described above, the inside of the tank body 10 is stirred at the lower side of the pair of screw conveyors 31 and 35 to maintain the state in which the organic waste (s) made of the microbial medium is filled, and as a result, the tank body (10) Since the organic waste (s) is not completely discharged from This makes it possible to perform a stable stirring operation.

The most suitable moisture content for fermentation of the organic waste (s) that is continuously filled in the tank body 10 is 50 to 60%. The organic waste (s) having the above moisture content becomes a microbial medium for fermentation, and in this state, even if the organic waste (s) in a porridge state with a moisture content of 80 to 90% is added, organic waste maintaining a moisture content of 35% or less By stirring while mixing with (s), it is possible to significantly reduce the time required to make the total moisture content to 50 to 60%.

And, in a state in which the water content in the tank body 10 is continuously filled to 35% or less, an appropriate temperature in the tank body 10 is 45 to 60°C. In order to maintain such a temperature, a separate temperature maintenance device is not required, which is that even if the temperature drops at an appropriate temperature of 45 to 60 ° C, when new organic waste (s) is added and stirred, the organic matter of the organic waste (s) is This is because the temperature rises above the proper temperature as it decomposes.

In addition, in the present invention, as shown in FIG. 1, the gap h1 between the filling upper part p1 of the organic waste (s) maintaining the filled state in the tank body 10 and the ceiling part p2 in the tank body 10 ) in the range of 1 to 1.5 m, the first section (C1) and the second section (C2) within the interval (h1) are in the organic waste (s) stirred with the air supplied from the air supply unit (13). It is configured to be used as a contact section for generated heat.

As another embodiment of the present invention, as shown in FIG. 7, on the lower frame of the tank body 10, a discharge path for discharging all of the organic waste (s) for cleaning and maintenance of the inside of the tank body 10 ( 89) is formed. At this time, the opening and closing door 88 is provided in the discharge path 89 .

As another embodiment, as shown in FIG. 8, the frame of the tank body 10 is formed in a double shape having an inner space layer u, and the inner space layer u has a length of the tank body 10. The diaphragm 65 is formed perpendicular to the direction, and the diaphragm 65 is alternately formed up and down so that the air passage 67 is formed in a zigzag shape, and the entrance side of the air passage 67 ( 61 ) and discharged to the distal side 62 , the heated air may be configured to flow into the inner space of the tank body 10 .

Due to this structure, it is possible to reduce the use of energy required to increase the temperature of the air.

As another embodiment, in order to increase efficiency in a small installation area, the tank body 10 is installed in at least two stages as shown in FIG. (s) is put into the lower tank body 10 through the discharge part 14 of the other screw conveyor 35 through the upper one screw conveyor 31 and the other screw conveyor 35, and the lower one screw conveyor ( 31) and the other side screw conveyor 35, through the discharge part 14 of the other side screw conveyor 35 can be configured to be discharged to the outside of the tank body 10.

As another embodiment, the microbial medium continuous storage type organic waste reduced-fermentation processing apparatus of the present invention described above may be applied to a Compost.

Compost refers to fertilizer that is naturally fermented by mixing general waste or industrial waste with straw or livestock excrement and stacking them. The type compost is installed and operated. Due to its vertical structure, not only agitation load is generated during operation, but also there is difficulty in treating high specific gravity/high viscosity wastewater sludge, etc., there is a risk of contents leaking through the lower shaft gap, It had to be added after adjusting the moisture content and the input amount using a regulator. In addition, it was difficult to increase the daily throughput due to the increase in the stirring load due to the single-axis stirring function. On the other hand, the horizontal fermentation reduction processing apparatus of the present invention reduces the stirring load by adopting a two-stage axial stirring structure, includes a crushing function, and the frame of the tank body 10 has an inner space layer (u). By making it possible to have a double-walled structure formed in a shape and a structure through two-stage fermentation, it is possible to reduce energy consumption and increase processing efficiency, and there is no need to use a moisture control agent such as sawdust.

The organic waste agitation treatment system using the microbial medium continuous storage type organic waste horizontal fermentation reduction processing apparatus of the present invention as described above, as shown in FIG. storage tank 110; a dryer 130 for receiving and drying the organic waste (s) from the storage tank 110 through the supply facility (P) to reduce the moisture content from 80 to 90% to 50 to 60%; Fermentation reduction stirring device ( 150); A discharge unit for discharging organic waste (s) having a moisture content of 25 to 30% that has passed through the reduced fermentation and agitation device 150; however, the reduced fermentation and agitation device 150 has an organic waste (s) on one upper side ) of the tank body 10 which is provided with the input part 12 so as to be able to open and close; a partition wall 70 for partitioning the inner space of the tank body 10 into sections on both sides (C1, C2) with respect to the middle section in the longitudinal direction of the tank body 10; a rotating shaft 21 that passes through the partition wall 70 and is rotated by a stirring reducer 25 connected to each of the lower sides of the tank body 10 in parallel and horizontally; A plurality of stirring blades 23 are provided on the outer periphery of the rotary shaft 21 to rotate while alternating with each other on both sides of the rotary shaft 21 to stir the organic waste (s) flowing in from the input unit 12, An air supply 13 for supplying air to the inner space of the tank body 10 is provided on both sides of the upper side of the tank body 10 with the partition wall 70 as a center, and interferes with the rotation radius of the stirring blade 23 A pair of screw conveyors 31 and 35 respectively installed near the inner space of the tank body 10 on both sides of the upper side of the stirring blade 23 that does not work; The pair of screw conveyors 31 and 35 are provided to communicate with both sections C1 and C2 partitioned by the partition wall 70, respectively, and the one side screw conveyor 31 is in the first section C1. The organic waste (s) overflowing to the upper side of the stirring blade 23 by making it rotate forward in the direction of the second section (C2) is moved from the first section (C1) to the second section (C2), and the other side screw conveyor (35) is to rotate forward in the direction of the first section (C1) in the second section (C2), the organic waste (s) overflowing to the upper side of the stirring blade (23) in the second section (C2) in the first By moving to the section (C1), the organic waste (s) in the tank body (10) is circulated in both sections (C1, C2), and the screw conveyor 35 on the other side is the tank of the second section (C2). A protruding extension 37 is provided to the outside of the main body 10, and a discharge portion 14 is formed on the lower side of the protruding extension 37, so that the other screw conveyor 35 is connected to the first section C1. The fermentation-dried organic waste (s) rotated on the other side screw conveyor 35 by rotating it in reverse to the second section part C2 is discharged through the discharge part 14, and a pair in the tank body 10 is It is agitated on the lower side of the screw conveyors (31, 35) of the microbial medium and is configured to keep the organic waste (s) filled.

At this time, it is preferable that the supply facility (P) uses a pump, a screw conveyor, etc. selectively according to the type or state of the organic waste (s).

In addition, the fermentation reduction and agitation device 150 is to apply the configuration of the organic waste stirring treatment device described above, and to reduce the organic waste (s) having a moisture content of 80 to 90% in the normal dryer 130 to a moisture content of 25 to 30% However, in this system, the moisture content of the organic waste (s) in the dryer 130 is first reduced from 80 to 90% to 50 to 60%, and the organic waste in the fermentation reduction and stirring device 150 is By reducing the moisture content of the waste (s) from 50 to 60% to 25 to 30%, it is possible to reduce the consumption of electrical energy, thereby increasing the overall working efficiency.

According to the microbial medium continuous storage type organic waste reduced fermentation treatment system and the organic waste reduced fermentation treatment system of the present invention as described above, a partition wall is provided inside the stirring tank, and the rotation radius of the stirring blade is not interfered with. By installing screw conveyors on both sides of the upper part of the shaft, the screw conveyors on both sides are operated in opposite directions, and the organic waste overflowing beyond the rotation radius of the stirring blades is rotated through the screw conveyors on both sides to increase the stirring efficiency. , rather than discharging all of the organic waste, it is related to the moisture content of the input organic waste by adding new organic waste while always keeping a certain amount of agitated organic waste (microbial medium, moisture content less than or equal to 35%) in the stirred tank. In other words, it is possible to continuously and stably agitate no matter what state of organic waste is put in.

Although the present invention described above has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art. should be made clear. Accordingly, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

10: tank body 12: input part
14: discharge part 21: rotation shaft
23: stirring blade 25: stirring reducer
31,35: screw conveyor 37: protruding extension
70: bulkhead s: organic waste

Claims (10)

In configuring the microbial medium continuous storage type organic waste horizontal fermentation reduction processing device,
a tank body 10 having an input unit 12 for opening and closing the organic waste (s) on one side of the upper portion;
a partition wall 70 for partitioning the inner space of the tank body 10 into sections on both sides (C1, C2) with respect to the middle section in the longitudinal direction of the tank body 10;
a rotating shaft 21 that passes through the partition wall 70 and is rotated by a stirring reducer 25 connected to each of the lower sides of the tank body 10 in parallel and horizontally; A plurality of stirring blades 23 are provided on the outer periphery of the rotary shaft 21 to rotate while alternating with each other on both sides of the rotary shaft 21 to stir the organic waste (s) flowing in from the input unit 12, An air supply 13 for supplying air to the inner space of the tank body 10 is provided on both sides of the upper side of the tank body 10 around the partition wall 70,
A pair of screw conveyors 31 and 35 respectively installed near the inner space of the tank body 10 on both sides of the upper side of the stirring blade 23 not to interfere with the rotation radius of the stirring blade 23; The pair of screw conveyors 31 and 35 are provided to communicate with both sections C1 and C2 partitioned by the partition wall 70, respectively, and the one side screw conveyor 31 is in the first section C1. The organic waste (s) overflowing to the upper side of the stirring blade 23 by allowing it to rotate forward in the direction of the second section (C2) is moved from the first section (C1) to the second section (C2), and the other side screw conveyor (35) is to rotate forward in the direction of the first section (C1) in the second section (C2), the organic waste (s) overflowing to the upper side of the stirring blade (23) in the second section (C2) in the first By moving to the section (C1), the organic waste (s) in the tank body (10) is circulated in both sections (C1, C2),
The screw conveyor 35 on the other side is provided with a protruding extension 37 to the outside of the tank body 10 of the second section C2, and a discharge portion 14 on the lower side of the protruding extension 37. Formed, the other side screw conveyor 35 is rotated in reverse from the first section section (C1) to the second section section (C2), and the fermentation-dried organic waste (s) rotated on the other side screw conveyor 35 is discharged ( 14), and the tank body 10 is stirred on the lower side of a pair of screw conveyors 31 and 35 to keep the organic waste (s) made of a microbial medium filled, including is made,
The screw conveyors 31 and 35 are respectively provided in the upper open “∪”-shaped moving tube 30 and configured to move the organic waste (s) while rotating,
The interval (h1) between the filling upper end (p1) of the organic waste (s) maintaining the filled state in the tank body (10) and the ceiling (p2) in the tank body (10) is 1 to 1.5 m, The first section (C1) and the second section (C2) within the interval (h1) are configured to be used as a contact section for heat generated from the air supplied from the air supply 13 and the agitated organic waste (s). ,
On the upper partition wall 70 of the pair of screw conveyors 31 and 35 so that the air supplied from the air supply 13 moves between the first section C1 and the second section C2, a plurality of Microbial medium continuous storage type organic waste horizontal fermentation reduction processing device, characterized in that the communication hole (76) is formed.
delete delete delete According to claim 1,
a lower air supply unit 80 installed on the bottom body 11c of the tank body 10 on both lower sides of the stirring blade 23 not to interfere with the rotation radius of the stirring blade 23; The lower air supply part 80 is connected to the blower 83 provided on the outside of the tank body 10 and is provided with a supply pipe 81 parallel to the rotation shaft 21 and a predetermined interval on the supply pipe 81 . Microbial medium continuous storage type organic waste horizontal fermentation reduction processing apparatus, characterized in that it is composed of a plurality of injection holes (82) formed as a.
6. The method of claim 5,
The one side screw conveyor 31 is connected to the motor 34 so that only one-way forward rotation is operated, and the other screw conveyor 35 is connected to the motor 38 to operate forward and reverse rotation in both directions. An inverter 39 is connected to the motor 38 of the other screw conveyor 35 so that the rotation speed of the motor 38 is adjusted, so that the organic waste (s) moved in the one screw conveyor 31 is equally moved. Microbial medium continuous storage type organic waste horizontal fermentation reduction processing device, characterized in that it is configured to be maintained.
7. The method of claim 6,
On the upper side of the other screw conveyor 35, an interval control plate 91 for adjusting the entry interval h2 of the organic waste (s) that enters and moves toward the other side screw conveyor 35 is horizontally provided, but the interval control plate ( 91) is provided in the form of a horizontal plate so as to cover the upper open side of the moving pipe 30 in the form of “∪”, and the fixed plate 92 horizontally fixed inside the rear side wall 11b of the tank body 10. Microbial medium continuous storage type organic waste horizontal fermentation reduction processing device, characterized in that it is connected to the lower side so as to be movable horizontally.
8. The method of claim 7,
The frame of the tank body 10 is formed in a double shape having an inner space layer u, and a diaphragm 65 is formed in the inner space layer u perpendicular to the longitudinal direction of the tank body 10. , the diaphragm 65 is alternately formed up and down so that the air passage 67 is formed in a zigzag shape, and is input from the inlet side 61 of the air passage 67 and discharged to the end side 62 . Microbial medium continuous storage type organic waste horizontal fermentation reduction processing device, characterized in that configured so that the heated air is introduced into the inner space of the tank body (10).
9. The method of claim 8,
The tank body 10 is installed in at least two or more steps vertically, and the organic waste (s) injected into the input part 12 of the upper tank body 10 is transferred to the upper one screw conveyor 31 and the other screw conveyor 35. It is put into the lower tank body 10 through the discharge part 14 of the other screw conveyor 35, and the other screw conveyor 35 through the lower one screw conveyor 31 and the other screw conveyor 35. Microbial medium continuous storage type organic waste horizontal fermentation reduction processing apparatus, characterized in that it is configured to be discharged to the outside of the tank body (10) through the discharge part (14) of the.
In configuring the microbial medium continuous storage type organic waste fermentation reduction processing system,
a storage tank 110 into which organic waste (s) having a moisture content of 80 to 90% is input through the input unit;
a dryer 130 for receiving and drying the organic waste (s) from the storage tank 110 through the supply facility (P) to reduce the moisture content from 80 to 90% to 50 to 60%;
Fermentation reduction stirring device ( 150);
A discharge unit for discharging organic waste (s) having a moisture content of 25 to 30% that has passed through the fermentation reduction and stirring device 150;
The fermentation reduction and agitation device 150 includes: a tank body 10 having an input part 12 of organic waste (s) on one side upper portion to be opened and closed;
a partition wall 70 for partitioning the inner space of the tank body 10 into sections on both sides (C1, C2) with respect to the middle section in the longitudinal direction of the tank body 10;
a rotating shaft 21 that passes through the partition wall 70 and is rotated by a stirring reducer 25 connected to each of the lower sides of the tank body 10 in parallel and horizontally; A plurality of stirring blades 23 are provided on the outer periphery of the rotary shaft 21 to rotate while alternating with each other on both sides of the rotary shaft 21 to stir the organic waste (s) flowing in from the input unit 12, An air supply 13 for supplying air to the inner space of the tank body 10 is provided on both sides of the upper side of the tank body 10 around the partition wall 70,
A pair of screw conveyors 31 and 35 respectively installed near the inner space of the tank body 10 on both sides of the upper side of the stirring blade 23 not to interfere with the rotation radius of the stirring blade 23; The pair of screw conveyors 31 and 35 are provided to communicate with both sections C1 and C2 partitioned by the partition wall 70, respectively, and the one side screw conveyor 31 is in the first section C1. The organic waste (s) overflowing to the upper side of the stirring blade 23 by making it rotate forward in the direction of the second section (C2) is moved from the first section (C1) to the second section (C2), and the other side screw conveyor (35) is to rotate forward in the direction of the first section (C1) in the second section (C2), the organic waste (s) overflowing to the upper side of the stirring blade (23) in the second section (C2) in the first By moving to the section (C1), the organic waste (s) in the tank body (10) is circulated in both sections (C1, C2),
The screw conveyor 35 on the other side is provided with a protruding extension 37 to the outside of the tank body 10 of the second section C2, and a discharge portion 14 on the lower side of the protruding extension 37. Formed, the other side screw conveyor 35 is rotated in reverse from the first section section (C1) to the second section section (C2), and the fermentation-dried organic waste (s) rotated on the other side screw conveyor 35 is discharged ( 14), and the tank body 10 is stirred at the lower side of a pair of screw conveyors 31 and 35 to keep the organic waste (s) made of a microbial medium filled.
The screw conveyors 31 and 35 are respectively provided in the upper open “∪”-shaped moving tube 30 and configured to move the organic waste (s) while rotating, and are filled in the tank body (10). The interval (h1) between the upper end (p1) of the organic waste (s) to maintain and the ceiling (p2) in the tank body (10) is 1 to 1.5 m, and the first section ( C1) and the second section portion (C2) are configured to be used as a contact section between the air supplied from the air supply unit 13 and the heat generated from the agitated organic waste (s), and the air supplied from the air supply unit 13 A plurality of communication holes 76 are formed on the upper partition wall 70 of the pair of screw conveyors 31 and 35 to move between the first section C1 and the second section C2. Microbial medium continuous storage type organic waste fermentation reduction treatment system.

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