KR20180002236A - Apparatus for manufacturing compost and method of the same - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing compost. The apparatus for manufacturing compost of the present invention includes: a fermentation tank (1); a rotary shaft (5) connected to a shaft of a motor (3) installed on the upper side of the fermentation tank (1); a plurality of stirring stands (7) stirring compost materials stored therein when rotating by protruding from the rotary shaft (5) in a radial direction; and an air tube (9) connected to the lower side of the fermentation tank (1) for injecting air and fermenting the compost materials.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a compost manufacturing apparatus,

The present invention relates to an apparatus and a method for producing composts, and more particularly, to a method and apparatus for producing composts by adding sludge, The present invention relates to a technique capable of effectively fermenting.

Generally, compost refers to fertilizer that has been sedimented and ripened by straw, weed, and leaves. In the farmhouse, straw is deposited in the yard and water is poured or nitrogenous fertilizer such as lime nitrogen is added. Then fermented compost is fast and good quality compost. When you make a compost, you can make a good compost with less nitrogen or potassium loss than if you put it in a simple hut.

These composts are usually water, nitrogen, phosphoric acid and potassium, and nitrogen and potassium are ineffective.

These composts are typically prepared by storing in a fermenter and then drying the waste with fermentation heat generated when aerobic fermentation conditions are met.

However, the compost produced in this way is mainly anaerobic fermentation, and various kinds of spoilage bacteria propagate abnormally, resulting in bad odor, and especially, compost is not completely corroded.

When the fertilizer is applied to the soil in a state where the compost is not completely corroded as described above, the compost fed into the soil meets the fermentation conditions and the secondary fermentation occurs, resulting in nitrogen starvation and harmful gas. There is a problem.

Patent application 10-2007-75497 (name: fermentation chamber assembly of organic waste composting system)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a compost manufacturing apparatus capable of improving the fermentation efficiency of compost by improving the structure.

According to an aspect of the present invention,

A fermentation tank (1) into which a raw material for compost is charged and fermented;

A rotary shaft 5 connected to an axis of the motor 3 mounted on the upper part of the fermentation tank 1;

A plurality of shafts (7) projecting in the radial direction on the rotary shaft (5) to stir the compost material stored at the time of rotation; And

And an air tube (9) connected to the lower portion of the fermentation tank (1) to inject air to ferment the compost raw material.

The apparatus and method for producing compost according to the embodiment of the present invention have an advantage that the fermentation efficiency can be improved by adding sludge, auxiliary fin and hair member to compost and injecting air.

Further, fermentation can be more effectively performed by controlling the amount of air injected and the stirring speed according to the concentration value of carbonic acid gas generated during fermentation.

1 is a perspective view of a compost manufacturing apparatus according to an embodiment of the present invention.
FIG. 2 is a view showing the internal structure of the compost manufacturing apparatus shown in FIG. 1. FIG.
FIG. 3 is an enlarged view showing the overhang shown in FIG. 2. FIG.
Fig. 4 is a schematic view showing the structure of the control unit shown in Fig. 1. Fig.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a compost manufacturing apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, a compost manufacturing apparatus according to an embodiment of the present invention includes a fermenter 1; A motor 3 mounted on the upper part of the fermentation tank 1; A rotary shaft 5 connected to the shaft of the motor 3; A plurality of shafts (7) projecting in the radial direction on the rotary shaft (5) to stir the compost stored during rotation; And an air tube 9 connected to a lower portion of the fermenter 1 to inject air.

In the compost producing apparatus having such a structure, a space is formed in the fermentation tank 1, and the compost raw material is charged and fermented. At this time, the compost raw material may be added with sludge, subsidiary material, and hair material.

At this time, the sludge includes food or animal residues. The fusible material includes sawdust and cocopeat, and the hair member includes animal hair such as pig hair or fur.

The sludge, the sludge, the sludge, and the hair member are mixed at a certain ratio, for example, the sludge, the sludge, and the hair member can be mixed at a ratio of 6: 2: 2. Alternatively, only sludge and molten material may be mixed at a ratio of 5:10.

The fermentation tank 1 is provided with a motor 3 at an upper portion thereof. A rotary shaft 5 is integrally connected to a lower end of the shaft of the motor 3.

Therefore, when the motor 3 is driven, the rotary shaft 5 is rotatable. At this time, the motor 3 is preferably a forward / reverse motor 3, and the rotary shaft 5 is capable of forward rotation or reverse rotation.

A plurality of transversely opposite protrusions 7 protrude in the radial direction on the rotary shaft 5. [ Therefore, when the rotating shaft 5 is rotated by the motor 3, a plurality of agitating and agitating portions 7 agitate the stacked compost.

One side of the bridge 7 is connected to the outer surface of the rotary shaft 5 by a bearing B and a plate 11 is provided on the other side. At this time, one or more plates 11 are mounted on only one side of the bridge 7.

Therefore, when the rotary shaft 5 rotates, the compost is brought into contact with the plate 11 when the crosshead 7 passes through the compost, and at this time, the plate material protrudes only on one side of the crosshead 7, And the bridge 7 is connected to the rotary shaft 5 by the bearings B. As shown in Fig.

Since a plurality of such crossing points 7 are arranged vertically on the rotary shaft 5, it is possible to effectively stir the compost stored in the fermentation tank 1 at the upper and lower portions when the rotary shaft 5 rotates.

On the other hand, when the compost is stirred, air can be introduced into the fermentation tank 1 through the air tube 9 connected to one side to ferment.

One side of the air tube 9 is connected to an air supply device such as a blower, and the other side is connected to the inside of the fermenter 1.

Therefore, the air supplied from the outside can be injected into the fermentation tank 1 through the air tube 9, thereby promoting fermentation of the compost.

The air tube 9 is preferably connected to the lower portion of the fermenter 1. The air tube 9 is disposed below the fermenter 1 to be injected into the fermenter 1, The fermentation efficiency can be further increased by increasing the contact time with the compost.

On the other hand, since the fermentation progresses with time in the fermentation tank 1, it is necessary to adjust the amount of air to be injected and the rotation speed of the crosshead 7 in accordance with the efficiency of the plant.

That is, the fermentation tank 1 is provided with the control unit 20, so that it can control the air adoption and rotation speed.

More specifically, the control unit 20 includes: a sensor 22 for sensing the carbonic acid gas generated in the fermenter 1; An air control module (24) for controlling the air supply amount according to the concentration value measured by the sensor (22); A rotation speed control module (26) for controlling the rotation speed of the rotation shaft (5) by controlling the motor (3) according to the concentration value of the sensor (22); And a CPU 28 for interlocking with the sensor 22, the air control module 24, and the rotation speed control module 26 and controlling the air injection amount and the rotation speed according to the concentration value of the carbonic acid gas.

The sensor 22 is for measuring the concentration of carbon dioxide gas generated during compost fermentation and is mounted inside the fermentation tank 1. The sensor 22 measures the concentration of the carbonic acid gas, and then transmits the concentration value to the CPU 28.

The CPU 28 analyzes the received density value, and then compares the stored density value with a previously stored reference value. Then, the air injection amount and the rotation speed corresponding to each reference value are controlled.

For example, when the degree of fermentation is divided into five levels, when the concentration value of the carbon dioxide gas corresponds to the concentration value of the carbon dioxide gas generated in the second step, the CPU 28 calculates And fetches the rotational speed of the motor 3 from the data base.

Then, the CPU 28 sends a signal to the air supply device according to the value to inject air, and controls the motor 3 so that the overhang 7 can rotate according to the set number of revolutions.

As described above, the control unit 20 controls the amount of air injected and the rotational speed of the motor 3 according to the progress of the fermentation so that the fermentation can proceed more effectively.

Hereinafter, a method of manufacturing compost using a compost manufacturing apparatus according to an embodiment of the present invention will be described in detail.

In case of producing compost, the compost material is first put into the inner space of the fermenter (1). At this time, the compost raw material may be added with sludge, secondary raw material and hair raw material and mixed at a certain ratio.

In this state, when the motor 3 is driven, the rotary shaft 5 rotates.

When the rotating shaft 5 is rotated by the motor 3, a plurality of agitating and agitating portions 7 agitate the stacked compost.

At this time, since the plate material protrudes on one side of the bridge 7, resistive force acts due to contact with the compost, and the bridge 7 is connected to the rotary shaft 5 by the bearing B.

Therefore, the bridge 7 can effectively stir the compost stored in the fermentation tank 1 at the upper and lower portions.

On the other hand, when the compost is stirred, air can be introduced into the fermentation tank 1 through the air tube 9 connected to one side to ferment.

That is, the air supplied from the outside air supply device or the like is injected into the fermentation tank 1 through the air tube 9, so that the fermentation of the compost can be promoted.

At this time, the air tube 9 is injected into the lower portion of the fermentation tank 1, and after the injection, the fermentation efficiency can be further increased by increasing the contact time with the composting.

When stirring and fermentation are carried out in this manner, the carbonic acid gas sensor 22 installed in the fermenter 1 measures the concentration of carbonic acid gas generated in the fermentation process, and then transmits the concentration value to the CPU 28 .

The CPU 28 analyzes the received density value, and then compares the stored density value with a previously stored reference value. Then, the air injection amount and the rotation speed corresponding to each reference value are controlled.

Therefore, the control unit 20 adjusts the amount of air injected and the rotational speed of the motor 3 according to the progress of the fermentation so that the fermentation can proceed more effectively.

Claims (6)

A fermentation tank (1) into which a raw material for compost is charged and fermented;
A rotary shaft 5 connected to an axis of the motor 3 mounted on the upper part of the fermentation tank 1;
A plurality of shafts (7) projecting in the radial direction on the rotary shaft (5) to stir the compost material stored at the time of rotation; And
And an air tube (9) connected to a lower portion of the fermentation tank (1) and injecting air to ferment the compost raw material. The method according to claim 1,
Characterized in that the bridge (7) is connected to the outer surface of the rotary shaft (5) by means of a bearing (B) and the plate (11) is provided on the other side. The method according to claim 1,
Wherein the compost raw material is a mixture of compost, sludge, secondary raw material and hair raw material. The method according to claim 1,
The control unit 20 includes a sensor 22 for sensing carbon dioxide gas generated in the fermenter 1; An air control module (24) for controlling the air supply amount according to the concentration value measured by the sensor (22); A rotation speed control module (26) for controlling the rotation speed of the rotation shaft (5) by controlling the motor (3) according to the concentration value of the sensor (22); And a CPU (28) for interlocking with the sensor (22), the air control module (24), and the rotation speed control module (26) and controlling the air injection amount and the rotation speed according to the concentration value of the carbonic acid gas. 5. The method of claim 4,
The CPU 28 compares the carbonic acid concentration value inputted from the carbonic acid gas sensor 22 with a preset reference value for each stage and then controls the air supplier and the motor 3 so as to correspond to the reference value of the step. Manufacturing apparatus. A compost raw material in which compost, sludge, secondary raw material and hair raw material are mixed is introduced into the inner space of the fermentation tank (1)
As the rotary shaft 5 is rotated by the motor 3, a plurality of agitating and agitating portions 7 are agitated in a stacked compost,
Air is injected into the fermenter (1) through the air tube (9) connected to one side during agitation of the compost and is fermented,
After the concentration of the carbonic acid gas measured from the carbonic acid gas sensor 22 mounted in the fermentation tank 1 is measured and the concentration value is transmitted to the CPU 28, the CPU 28 analyzes the received concentration value , Comparing the stored reference value with a previously stored reference value, and controlling the air injection amount and the rotation speed corresponding to each reference value to improve the fermentation efficiency.

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