KR101997422B1 - Manufacturing system of the organic fertilizer - Google Patents

Abstract

The present invention relates to an organic composite fertilizer manufacturing device using excrement and livestock manure, and more specifically, to an organic composite fertilizer manufacturing device using excrement and livestock manure, which does not directly mold fertilizers obtained by mixing excrement and subsidiary materials and fermenting the same but passes the fertilizers through a storage process of fertilizers to effectively adjust a fertilizer production amount, and produces fertilizers in a good quality through a cooling process after a fertilizer molding. The present invention comprises: a fermenting tank which mixes subsidiary materials in a subsidiary storage tank with manures in a manure storage tank to ferment the same for a predetermined period; a dryer which heats the raw material of the fermenting tank at a high temperature and adjusts moisture; a pulverizing selector which pulverizes the raw materials passed through the dryer to a small size and selects foreign substances; a fertilizer storage tank which stores fertilizers in a powder state manufactured by the pulverizing selector; a molding device which molds powder fertilizers of the fertilizer storage tank into a fertilizer in a solid state with additives; and a cooling conveyor which cools the fertilizers in a solid state produced in the molding device.

Description

{Manufacturing system of the organic fertilizer}

More particularly, the present invention relates to an apparatus for producing an organic compound fertilizer using an axilla meal, and more particularly, to a method for producing an organic compound fertilizer by mixing a shaft manure and a subsidiary material and subjecting the finished fertilizer to a fermentation process, And an apparatus for manufacturing an organic compound fertilizer using a starch to produce a high-quality fertilizer through a cooling process after forming the fertilizer.

In general, fecal matter such as manure or manure has environmental pollution due to odor generation problem, river pollution during river discharge, degradation of coastal coasts during marine dumping, and disposal treatment.

In view of this, conventionally, methods and apparatuses for treating wastes and excrements containing organic matter have been developed, and high quality organic fertilizer is produced by using a large amount of excrement such as barley or manure to produce a large amount of organic wastes And it is also possible to prevent acidification of the soil by using high quality organic fertilizer.

Generally, the method of producing fertilizer using such axes and fractions is performed by mixing fermented product such as rice straw, sawdust, rice husks, shell, briquettes and tree branches with the shiitake, fermenting in a fermenter, Fertilizer molding is performed.

However, since the conventional fertilizer production apparatus enters the fertilizer immediately through the drying apparatus, it has to produce the fertilizer until all the spent raw materials are exhausted, and it is difficult to control the production amount of the fertilizer. If the fermented fertilizer is stored in the drying apparatus without the formation of fertilizer, the condensation will occur due to the temperature difference between the inside of the drying apparatus and the outside, thereby causing the decay of the fermented fertilizer Or the quality of the fertilizer is lowered.

BACKGROUND ART As a prior art related to a fertilizer manufacturing apparatus, a hopper or a chain lift for introducing vegetable residues such as animal litter, food waste, etc., into a registered patent No. 10-0541318 (copper and vegetable residue aerated fermented feed and fertilizer manufacturing apparatus) Plastic bag sorting and eliminator, incinerator, washer, metal detector, storage tank, crusher, roll hopper, mix stabilizer, screw conveyor, oxidizing fermenter, cyclone, pelletizing machine and sorter, packing machine, wastewater treatment plant, A steam boiler is disclosed. However,

The prior art also has a difficulty in controlling the production amount of the fertilizer described above because the powdery fertilizer manufactured through the oxidizing fermentation tank is directly subjected to molding in the ferrite molding machine.

As another prior art, Patent No. 10-1822476 (a pellet-type fertilizer producing apparatus) includes a raw material preparing section for storing raw materials and measuring them; A transfer mixer connected to the raw material preparation part and having a screw agitator for transferring the raw material while heating at a temperature of 40 ° C to 45 ° C and transferring the raw material while stirring; A pulverizing and mixing unit for pulverizing and mixing the raw material transferred from the conveying and mixing unit while heating the raw material at a temperature of 50 ° C to 65 ° C; Mixing the raw materials transferred from the crushing and mixing unit; A pellet forming unit for receiving the raw material and forming the pellet into the pellet; And a conveyor conveying unit for conveying the pellets discharged from the pellet forming unit.

The above-mentioned prior art is a device for post-aging a raw material through a post-mortar and immediately feeding it into a pellet forming part, and it is not possible to immediately adjust the production amount of the fertilizer because all of the raw materials must be molded into pellets.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a fermented feedstuff which can be directly stored without being subjected to a molding process, The present invention provides an apparatus for manufacturing an organic composite fertilizer using shaft fortification that can prevent moisture content from being changed due to condensation in a storage tank and reduce cracking caused by defective or defective forming of fertilizer.

It is another object of the present invention to provide an apparatus for manufacturing an organic composite fertilizer using a potash so that a high-temperature fertilizer immediately after molding is effectively cooled to prevent moisture from rising in the fertilizer and to produce a high quality fertilizer.

The present invention relates to a fermentation tank for fermenting a raw material of a supplementary material storage tank and manure of a manure storage tank for fermentation for a predetermined period of time, a dryer for controlling the moisture of the raw material of the fermentation tank by heating at a high temperature, A pulverizer for storing powdery fertilizer produced through the pulverizer, a molding machine for shaping the powdery fertilizer of the fertilizer storage tank into a solid fertilizer together with the additives, And a cooling conveyor for cooling the solid fertilizer.

In addition, the fertilizer reservoir includes a main body in which a fertilizer input port is formed at an upper portion of the fertilizer reservoir and a fertilizer discharge port at a lower portion thereof is controlled to be discharged by a valve, a heat ray member And a level switch installed at the upper end of the main body.

Further, a heat insulating layer is formed on the outer side of the heat ray member to surround the heat insulating member.

Also, the molding machine may be integrally provided with a blender on an upper part of a molding device for molding a fertilizer, so that powdery fertilizer and additives may be mixed and directly supplied to the molding device. A hopper formed at one side thereof with a feed hopper through which powdered fertilizer is injected and a discharge part formed at the other side of the hopper; a nozzle part formed inside the hopper and injecting the additive in the process of injecting the fertilizer; And a mixing screw provided on the inner side of the mixing screw.

The cooling conveyor further comprises: A fixing bracket that is installed at a predetermined interval on the upper portion of the frame and is bent in a downward inclined shape; and a fixing bracket installed on the fixing bracket And a cooling fan for cooling the fertilizer on the upper portion of the conveyor belt.

The present invention includes a fertilizer reservoir capable of storing fermentation-drying-crushing-foreign matter-containing fertilizer at a stage before molding, and can be controlled to be supplied to a molding machine according to a production amount of the fertilizer, , It is possible to minimize the occurrence of condensation inside the storage tank by providing a heat ray member in the body of the fertilizer storage tank, thereby preventing deterioration of the quality of the fertilizer.

In addition, the invention has an effect of effectively cooling the high-temperature fertilizer produced in the molding machine to prevent a rise in the moisture of the fertilizer, thereby producing a high-quality fertilizer.

1 is a view showing an entire process of an apparatus for manufacturing an organic complex fertilizer using a starch according to the present invention
2 is a view showing a fertilizer reservoir in the fertilizer production apparatus of the present invention
3 is a view showing a molding machine in the apparatus for producing fertilizer of the present invention
4 is an enlarged view of a blender constituting the molding machine in the present invention
5 is a view showing a cooling conveyor in an apparatus for producing fertilizer of the present invention
6 is a side view showing a portion where the front blocking part of the cooling conveyor according to the present invention is installed
7 is a side view showing a portion of the cooling conveyor according to the present invention in which the front blocking part is not installed

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

As shown in FIG. 1, an apparatus for producing organic complex fertilizer using an ax meal according to the present invention comprises a fermentation tank 100 for mixing fermentation materials of subsidiary material storage tank 110 and manure of a manure storage tank 120 for a predetermined period of time, A drying device 200 for heating the raw material of the fermentation tank 100 at a high temperature to regulate moisture, a crushing and sorting device 300 for crushing raw materials having passed through the crushing device 200 and sorting the crushed raw materials, A fertilizer reservoir 400 for storing powdery fertilizer manufactured through the feeder 300, a molding machine 500 for molding the powdery fertilizer of the fertilizer reservoir 400 into solid fertilizer together with additives, And a cooling conveyor 600 for cooling the solid fertilizer produced by the cooling conveyor 600.

In the present invention, the fermentation tank (100) has a composition in which a mixture of an auxiliary material and a starch is subjected to fermentation for a predetermined period of time. The auxiliary material may be a shellfish, lime, rice straw, sawdust, rice hull, or the like, which has been used in an apparatus for producing organic complex fertilizer using common shaft manure, and a manure having a large amount of moisture content is used for the shaft manure.

The moisture content of the fermented raw material is substantially removed through the dryer 200. Through this process, the dried raw material can be used as a fertilizer. However, in order to improve the quality of the fertilizer, do. That is, the raw material dried through the pulverizer 300 is pulverized into a small particle size, and the foreign material is selected. At this time, the pulverizing sorter is applied to a powder sorting apparatus for sorting foreign matters into particle sizes. The powder vibration screening device is capable of sorting regardless of the material of the foreign matter and discharging the powder in the form of a small powder without aggregating the fertilizer because the particles pass through the net by vibration and are discharged.

The feature of the present invention is that the powdery raw material in which the foreign substances are selected is not immediately formed but temporarily stored in the fertilizer storage tank 400 and then supplied to the molding machine 500 in accordance with the production of the fertilizer. The fertilizer reservoir (400) of the present invention must be combined with the preservation function of the reservoir before merely storing the fertilizer.

2, the fertilizer reservoir 400 has a fertilizer inlet 411 formed at an upper portion thereof and a fertilizer outlet 412 at a lower portion thereof. The fertilizer outlet 412 is controlled to be discharged by a valve, A heating wire member 420 installed on an outer circumferential surface of the main body 410 to heat the surface of the main body 410 and a level switch 430). ≪ / RTI >

Since the main body 410 of the fertilizer storage tank 400 is made of a metal material, when the temperature difference between the inside and the outside of the main body 410 occurs, a condensation phenomenon occurs in which water droplets are formed inside the main body 410 . Since the fertilizer filled in the fertilizer reservoir 400 is a powdered fertilizer, the water droplets generated by the condensation phenomenon are directly absorbed by the fertilizer and the moisture content is increased. This increase in moisture content can lead to decay of fertilizer or to cracking of fertilizer after fertilizer molding.

In order to prevent such a problem, the temperature of the main body 410 is raised through the heat ray member 420 provided on the outer circumferential surface of the main body 410 to prevent condensation. The heat ray member 420 does not need to be excessively high in temperature because it only serves as a heat insulating member to prevent condensation, and as shown in the figure, a heat insulating layer 440 The heat loss of the heat ray member 420 can be reduced and the heat insulating effect can be enhanced.

In addition, when the indoor / outdoor temperature sensor (not shown) is further included to measure the internal temperature and the external temperature of the main body 410, The heating temperature of the heater 420 may be controlled in real time.

The level switch 430 is installed inside the main body 410 of the fertilizer storage tank 400 so that the supplied fertilizer does not overflow, and the level switch 430 is installed at the inner upper end of the main body 410, , The pre-process of the fertilizer reservoir 400 is automatically stopped so that no more fertilizer is supplied.

3, the molding machine 500 of the present invention is integrally provided with a blender 520 on the upper part of a molding device 510 for molding a fertilizer and mixes the powdery fertilizer and the additive, As shown in FIG. The additive is made of a material such as glue, and the additive acts as an adhesive so as to maintain the coating effect of the fertilizer and the solid shape in the process of forming the fertilizer.

As shown in FIG. 4, the blender 520 has a body portion 521 having an inlet hopper 521a through which powdered fertilizer is injected and a discharge portion 521b below the other end thereof, A nozzle 522 formed on the inner side of the inlet hopper 521a for spraying the additive in the process of injecting the fertilizer and a mixing screw 523 installed inside the body 521. That is, the fertilizer and the additive are mixed together in the feed hopper 521a while moving along the mixing screw 523.

The cooling conveyor 600 of the present invention is a process of effectively cooling the formed fertilizer to cool the fertilizer quickly so as not to increase the moisture because the solid fertilizer that has been formed is in a high temperature state.

As shown in FIG. 5, the cooling conveyor 600 includes a frame 610 through which a fertilizer having a conveyor belt 611 installed thereon is conveyed along a cooling section, And a cooling fan 630 installed on the fixing bracket 620 and cooling the upper portion of the conveyor belt 611. The cooling fan 630 is installed on the fixing bracket 620, .

The frame 610 may be inclined upward so that the conveyor belt 611 can be installed in an inclined upward direction as shown in the figure. At this time, the inclination angle is preferably about 5 degrees, and should be an angle so that the fertilizer does not roll down in the direction opposite to the traveling direction of the conveyor belt 611. Then, the fixing bracket 620 is installed on the upper part of the frame 610, and the cooling fan 630 is bent in a downward inclined form so that the blowing direction of the cooling fan 630 is the upper direction of the conveyor belt 611. At this time, the bending angle of the fixing bracket 620 is bent to about 25 to 45 degrees than the bending angle of the fixing bracket 620 so that the blowing direction can be diagonal direction, thereby improving the cooling efficiency.

The front shielding part 640 and the side shielding part 650 may be formed in the cooling section of the cooling conveyor 600. The front shielding part 640 may be provided at the starting point of the cooling section, So that the supplied fertilizer can be raised to a proper height on the conveyor belt 611. The conveyor belt 611 is installed at a predetermined height from the upper portion of the conveyor belt 611. [ The side blocking portions 650 are provided on both sides of the frame 610 so as to be supported on the side blocking portions 650 so that the fertilizer placed on the conveyor belt 611 is supported by the side blocking portions 650 So that it can be guided without falling outward.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: fermentation tank 110: auxiliary material storage tank
120: manure storage tank 200: dryer
300: crushing separator 400: fertilizer reservoir
410: main body 411: fertilizer input port
412: Fertilizer discharge port 420:
430: level switch 440: insulating layer
500: molding machine 510: molding machine
520: blender 521: body part
521a: Feed hopper 521b:
522: Nozzle part 523: Mixing screw
600: cooling conveyor 610: frame
611: Conveyor belt 620: Fixing bracket
630: cooling fan 640:
650:

Claims (5)

A fermenter (100) for mixing the auxiliary materials of the auxiliary material storage tank (110) and the manure of the manure storage tank (120) and performing fermentation for a predetermined period of time,
A dryer 200 for heating the raw material of the fermentation tank 100 at a high temperature to regulate moisture,
A crushing separator 300 for crushing the raw material having passed through the dryer 200 to a small size,
A fertilizer storage tank 400 for storing powdered fertilizer manufactured through the crushing and sorting machine 300,
A molding machine 500 for molding the powdery fertilizer of the fertilizer reservoir 400 together with the additive into a solid fertilizer,
And a cooling conveyor 600 for cooling the solid fertilizer produced in the molding machine 500,
The fertilizer reservoir 400 includes a main body 410 having a fertilizer inlet 411 opened at an upper portion thereof and a fertilizer outlet 412 at a lower portion thereof controlled to be discharged by a valve,
A heat ray member 420 installed on an outer circumferential surface of the main body 410 to heat the surface of the main body 410,
And a level switch (430) installed at an upper end inside the main body (410).
delete The method according to claim 1,
And a heat insulating layer (440) is formed on the outer side of the heat ray member (420) to surround the heat insulating material.
The method according to claim 1,
The molding machine 500 is integrally provided with a blender 520 on the upper part of the molding device 510 for molding the fertilizer so that powdered fertilizer and additives can be mixed and fed directly to the molding device 510,
The blender 520 includes:
A body portion 521 formed with a feed hopper 521a through which powdered fertilizer is injected into the upper portion and a discharge portion 521b formed through the lower portion thereof,
A nozzle unit 522 formed inside the injection hopper 521a and injecting the additive in the process of injecting the fertilizer,
And a mixing screw (523) installed inside the body part (521).
The method according to claim 1,
The cooling conveyor (600) comprises:
A frame 610 in which a conveyor belt 611 is installed and the formed fertilizer is conveyed along the cooling section,
A plurality of fixing brackets 620 that are formed at predetermined intervals on the upper portion of the frame 610 and are bent in a downward inclined shape,
And a cooling fan (630) installed on the fixing bracket (620) for cooling the fertilizer on the upper part of the conveyor belt (611).

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