KR101824370B1 - Fertilizer production system using excretion - Google Patents

Abstract

The present invention relates to a fertilizer production system using excretion, and more specifically, to a fertilizer production system using excretion which effectively removes the moisture in the initially inserted excrement to minimize the use of a moisture control agent and uniformly removes the moisture by primarily drying the raw material through high-temperature heating and secondarily drying the raw material through a conveyor dryer, thereby producing a fertilizer of good quality. According to the present invention, the fertilizer production system includes: a dehydration tank which receives the excretion containing a large amount of moisture from one side, discharges the moisture of the excretion through a discharge hole of a wastewater filter plate by a presser installed on an upper side, and includes an opening/closing device on a discharge part, wherein the opening/closing device operates automatically according to the degree of pressure of the presser to discharge only the excretion from which a certain amount of moisture was removed; a moving device which stores the excretion discharged from the dehydration tank and moves a fixed amount of the excretion; a supplementary material mixing tank which mixes the excretion moved by the moving device with a supplementary material to control the moisture; a fermentation tank which receives a mixture of the excretion and the supplementary material from the supplementary material mixing tank and ferments the received mixture; a high-temperature dryer which primarily dries the mixture moved from the fermentation tank at high temperatures; a conveyer dryer which secondarily dries the mixture dried in the high-temperature dryer; and a fertilizer forming device which forms the mixture received from the conveyer dryer to sold fertilizer.

Description

[0001] Fertilizer production system using excretion [0002]

The present invention relates to an apparatus for producing fertilizer using shaft manure, more particularly, to effectively minimize the use of moisture control agent by first removing water from the shaft manure put in the first stage, The present invention relates to a fertilizer manufacturing apparatus using a shaft mill to produce a high quality fertilizer by allowing the water to be uniformly removed through the secondary drying process.

Generally, manure [manure] and manure [manure] are common organic wastes. Such axis and manure are the main cause of air pollution caused by odor as well as soil pollution and water pollution. As a proper solution to such a pollution problem, there is proposed a method of being used as a nutrient for crops by fermenting and fertilizing axes and fractions.

Conventionally, a fertilizer production apparatus using a shaft manure mixes a separate auxiliary material (sawdust, rice husk, shell, briquette material, etc.) together in order to control the moisture content of the shaft and the manure supplied at the beginning. At this time, since the initial axis and the starch containing a large amount of water are controlled to adjust the moisture to meet the fermentation conditions only by mixing the additives, there is a problem that the additive is wasted when the water content of the supplied shaft and the starch is high.

The drying process, which is commonly used in conventional fertilizer production apparatuses, is a drying process in which a large amount of shaft and flour materials are dried in a furnace so that the drying of the raw materials is not uniform and the moisture content is varied. If the drying is not performed properly, there is a problem that the packed fertilizer after the formation of the fertilizer is aggregated with each other and the fertilizer is cracked.

As a related art, Japanese Patent No. 1276399 (an apparatus for producing an organic fertilizer using an axilla) is provided with a storage tank for agitating and crushing manure by a stirring blade; A first sprayer for spraying a probiotics using organic acid in the manure over the inside of the storage tank to reduce odor; A sub-material mixing tank for mixing and pulverizing the manure of the storage tank while mixing with the sub-raw material; A fermentation tank for fermenting the mixed manure material while stirring the mixed manure material transferred from the auxiliary material mixing tank; A moisture regulating device for controlling the moisture by sequentially performing hot air drying and cooling drying on the fermented mixed manure; And a fertilizer-shaping device for shaping the dried fermented manure into a solid fertilizer form.

However, in the prior art, there is a problem that the amount of the sub-raw material is increased because the moisture is controlled only by mixing the sub-raw material with the manure having a high water content, and the hot air drying and the cooling drying are sequentially performed. However, There is a problem in that it is not uniformly performed.

Disclosure of the Invention The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for rapidly adjusting a first shaft and a flour containing a large amount of water in a dewatering tank, The present invention is directed to a fertilizer production apparatus using shaft stock which can minimize the use of additives used for moisture control.

The present invention also relates to a method for drying a primary raw material in a high-temperature drying apparatus by secondary drying in a conveyor drying apparatus to uniformly dry a raw material having a low moisture content to prevent aggregation or cracking of the formed fertilizer Another object of the present invention is to provide a fertilizer production apparatus using an ax meal.

In the present invention, a shaft containing a large amount of water is supplied to the inside of the shaft and the water of the shaft is discharged to the discharge hole of the septic tank by the pressing means installed on the upper side, A dewatering tank provided with an opening / closing device that is automatically opened and closed in accordance with the degree of pressure of the pressurizing means on the discharge portion so as to discharge only the dewatered liquid from the dewatering tank, a conveying device for storing a predetermined amount of the shaft, A fermentation tank provided with a raw material of the raw material mixture tank and subjected to a fermentation process; a fermentation tank which is supplied with raw materials of the raw material mixture tank and which is heated at a high temperature And a conveyor gun for secondarily drying the raw material dried in the high temperature drying apparatus on a conveyor Fertilizer molding apparatus for molding the device, and drying device for said conveyor magazine raw material as a fertilizer in the form of a solid; And the like.

In addition, the drainage tank is formed at a lower central portion of the discharge portion, and the drainage plate around the discharge portion is formed in a downward inclined shape toward the discharge portion.

The dewatering tank is characterized in that a water collecting space for collecting the water introduced through the discharge hole and discharging the water to the outside is integrally formed in the lower part of the sewage platelet.

The opening / closing device may further comprise: A door which is opened and closed by a hinge at a lower end of the discharge portion, and an elastic member which is installed on the door and which holds the pulling force in a closing direction.

The conveyor drying apparatus may further comprise: A lower conveyor for conveying the raw material supplied from the quantitative charging unit and discharging the raw material in a discharging direction; and a lower conveyor And an absorbent pad attached to an outer circumferential surface of the belt of the upper conveyor and the lower conveyor to remove moisture of the raw material.

Further, the lower conveyor and the belt of the upper conveyor are formed with a plurality of through holes.

Further, an air supply device is further provided on the lower portion of the lower conveyor and the upper portion of the upper conveyor to blow dry air in the direction of the absorbent pad, thereby continuously drying the absorbent pad.

The present invention minimizes the use of additives used for moisture control by quickly adjusting the first shaft containing a large amount of water in the dehydration tank and automatically adjusting the water content of the shafts and scales to be supplied to the next process There is an effect that can be done.

In addition, the present invention enables the moisture content of the entire raw material to be uniform through the conveyor drying device corresponding to the secondary drying device, so that the fertilizer can be produced with high quality without causing the phenomenon of clustering or cracking do.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the overall configuration of a fertilizer production apparatus using a shaft mill of the present invention
2 is a view showing a configuration of a dehydrating tank and a transfer device of the present invention
3 is an enlarged view of a discharge portion provided with an opening / closing device in the dehydration tank of the present invention
4 is a view showing a state in which the water of the shaft and the flour is removed by the pressurizing device of the dewatering tank and the opening and closing device is opened
5 is an enlarged view showing a state in which the opening and closing device is opened by the pressurizing device of the dewatering tank according to the present invention
6 is a view showing a conveyor drying apparatus of the present invention
7 is a perspective view showing the structure of a belt and an absorbent pad in the conveyor apparatus of the present invention.

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, the apparatus for producing fertilizer according to the present invention comprises a shaft 110 containing a large amount of water, The automatic opening and closing control is performed on the discharge unit 130 in accordance with the pressure of the pressurizing unit 110 so that only the shaft and the phosphorus from which the constant moisture is removed after being discharged into the discharge hole 121 of the waste water purifier plate 120 can be discharged. A transfer device 200 for storing a shaft and manure discharged from the dewatering tank 100 and then transferring the transferred shaft 200 in a fixed amount; A fermentation tank 400 which receives raw materials of the raw material mixture tank 300 and undergoes a fermentation process; and a fermentation tank 400 in which the raw materials of the raw material mixture tank 300 are supplied, The transferred raw materials are heated in the heating furnace under high temperature conditions. A conveyor drying apparatus 600 for drying the raw material dried in the high temperature drying apparatus 500 on a conveyor and a conveyor drying apparatus 600 for drying the dried raw material in a solid fertilizer A fertilizer forming apparatus 700 for forming a fertilizer; And the like.

The dewatering tank 100 of the present invention has a structure for quickly and effectively removing only the water of the shaft and the phosphorus into which the shaft and the phosphorus (moisture content of about 90 to 95%) containing a large amount of water are charged, A predetermined amount of water is discharged to the discharge hole 121 of the sewage squeeze plate 120 formed at the lower part while the shaft 110 supplied to the inside of the dehydration tank 100 is pressed by the pressure means 110 installed at the upper part . At this time, the discharge part 130 is provided with an opening / closing device 150 so that it can be automatically opened and closed according to the pressure of the pressing device 110 . That is, the opening / closing device 150 is normally closed, and is opened when the pressure of the pressurizing means 110 becomes higher in a state where the moisture of the shaft and the phosphorus is removed to some extent, So that it can be discharged only.

The dewatering tank 100 has a structure in which the discharge part 130 is formed at the lower center and the drainage plate 120 around the discharge part 130 is formed to be inclined downward toward the discharge part 130 The shaft and the phosphorus from which moisture is removed to some extent by the pressurizing means 110 are discharged to the discharge portion 130 along the inclined surface of the sewage squeeze plate 120. The pressurizing unit 110 includes a hydraulic cylinder, a pressurizing shaft, and a pressurizing plate.

In addition, a water collecting space 140 is formed at a lower portion of the sewage squeeze plate 120 to collect moisture introduced through the discharge hole 121 and discharge the water to the outside, do. The waste water collecting space 140 and the discharging unit 130 are integrally formed at the lower part of the dewatering tank 100 and can be separated and discharged.

The opening / closing device 150 includes: A door 151 which is opened and closed by a hinge at the lower end of the discharge part 130 as shown in FIG. 3, And an elastic member 152 installed on the door 151 and maintaining a pulling force in a closing direction. The elastic member 152 may be a spring and is fixed to the inner side of the door 151 and the inner side wall of the discharge unit 130, respectively.

The operation of the opening / closing device 150 will be described in more detail. As shown in FIGS. 2 to 3, when the shaft 151 and the door handle 150 are supplied with the force, the elastic member 152 The door 151 is closed and the shaft and the phosphorus are not discharged. Then, when the shaft and the phosphorus are pressed downward by the pressing means 110, as shown in FIGS. 4 to 5, the moisture contained in the shaft and the phosphorus is discharged to the discharge hole 121 of the septic tank 120 And a strong pressure is applied to the door 151 after a certain amount of discharge is performed. At this time, the pressing force of the pressing means 110 becomes stronger than the pulling force of the elastic member 152, so that the door 151 is opened, and the shaft and the rinsing water are dropped onto the conveying device 200. Then, when the pressing means 110 rises and no further pressure is applied, the door 151 is closed again by the restoring force of the elastic member 152.

As a result, the moisture content of the shaft and the rinse through the dewatering tank 100 is reduced to about 60 to 70% by controlling the degree of descent of the pressing means 110 and the spring tension of the elastic member 152 Of course.

The transfer device 200 is installed at a lower portion of the dewatering tank 100 and collects axes and fractions that are irregularly discharged from the dewatering tank 100 so that they can be transferred in a fixed amount. The reason why such a transfer device 200 is required is that the shaft and the flushing discharge of the dewatering tank 100 are formed so as to fall rapidly only when the pressurizing means 110 is pressurized, will be.

The sub-raw material mixing tank 300 is configured to mix the auxiliary raw material supplied separately from the shaft and the raw material supplied from the transfer device 200. Said subsidiary material is used to control the water content (water content) of the shafts and flour, and mainly used is sawdust, rice hull, shell, briquette, etc., and the additives are mixed to adjust the moisture content to 45 to 55% do. The fermentation tank 400 is provided with the raw materials of the sub-raw material mixture tank 300 and undergoes a fermentation process, and may be fed with an odor reducing agent or a fermentation accelerator.

The high-temperature drying apparatus 500 is configured to primarily dry the raw material transferred from the fermentation tank 400 in a heating furnace under a high-temperature condition. At this time, the moisture content of the raw material can be removed to about 10%.

The present invention further includes a conveyor drying apparatus 600 for secondarily drying the primary dried material on the conveyor in the high temperature drying apparatus 500, Since the raw material is almost completely dried, but the drying state is not uniform, a certain amount of moisture is contained in the raw material. Therefore, the raw material is dried to have a uniform moisture content throughout the raw material through the conveyor drying device 600 The process is to go through again.

6, a conveyor drying apparatus 600 according to the present invention includes a fixed amount input unit 610 for inputting a predetermined amount of the dried material in the high temperature drying apparatus 500, A lower conveyor 620 for conveying the raw material in the discharging direction and a top conveyor 630 installed parallel to the upper portion of the lower conveyor 620 at a predetermined interval and conveying the raw materials in a state of being engaged with each other, And an absorption pad 640 attached to the outer circumferential surfaces of the belts 621 and 631 of the upper conveyor 630 and the lower conveyor 620 to remove moisture of the raw material.

The dosing unit 610 is installed on the lower conveyor 620 to feed the raw material onto the lower conveyor 620. Further, it is preferable that the dosing unit 610 is formed as long as the width of the conveyor so as to be supplied in a wide spread form on the conveyor.

The lower conveyor 620 and the upper conveyor 630 are installed parallel to each other and the traveling direction of the belts 621 and 631 is the same so that the raw material is interposed between the lower conveyor 620 and the upper conveyor 630 To the discharge direction. At this time, the starting point of the upper conveyor 630 may be located behind the starting point of the lower conveyor 620 so that the material can fall into the lower conveyor 620. Therefore, the installation section of the upper conveyor 630 is shorter than the installation section of the lower conveyor 620 as shown in FIG.

The absorbent pad 640 is attached to the outer circumferential surfaces of the upper conveyor 630 and the belts 621 and 631 of the lower conveyor 620 so that the absorbent pad 640 in a dry state absorbs moisture The moisture of the raw material is immediately removed while being in direct contact. The absorbent pad 640 is preferably made of a fabric material that easily sucks moisture and is easy to dry. In addition, the absorbent pad 640 is also applicable to a sponge-like structure.

7, when a plurality of through holes 650 are formed through the belts 621 and 631 of the lower conveyor 620 and the upper conveyor 630, So that the drying can be performed more easily. Even if a plurality of vents 650 are formed on the belts 621 and 631 as described above, if the absorbing pad 640 is capable of supporting the absorbing pad 640 because the absorbing pad 640 carries the material for substantially conveying the raw material There is no problem.

In addition, an air supply device 660 may be further installed on the lower portion of the lower conveyor 620 and the upper portion of the upper conveyor 630 to blow dry air toward the absorbent pad 640, 660, the absorbent pad 640 can be continuously dried. At this time, the air supplied from the air supply device 660 is preferably dried dry air in which there is almost no moisture, and hot air of high temperature may be supplied to enhance the drying effect.

According to the present invention, the water content of the entire raw material can be uniformly made through the conveyor drying apparatus 600, so that the fertilizer can be produced with high quality without generating the phenomenon of clustering or cracking of the fertilizer.

In this way, the secondarily dried raw material through the conveyor drying apparatus 600 is formed into a solid fertilizer form through the fertilizer forming apparatus 700, and the final production of the fertilizer is completed.

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: Dewatering tank 110: Pressurizing means
120: sewage platelet 121: discharge hole
130: discharging part 140: sewage collecting space
150: opening and closing device 151: door
152: elastic member 200: conveying device
300: additive material mixing tank 400: fermentation tank
500: high temperature drying apparatus 600: conveyor drying apparatus
610: Quantitative input section 620: Lower conveyor
621: Belt 630: Top conveyor
631: Belt 640: Absorbent pad
650: Trough 660: Air supply
700: fertilizer molding device

Claims (7)

The shaft and the flour containing a large amount of water are supplied to the inside and the moisture of the shaft and the flour is discharged into the discharge hole 121 of the flue 120 by the pressing means 110 installed on the upper side, A dewatering tank 100 in which an opening / closing device 150, which is automatically opened and closed according to the degree of pressure of the pressurizing means 110, is installed on the discharge unit 130 so as to discharge only the removed shaft,
A transfer device 200 for storing the shaft and the phosphorus discharged from the dewatering tank 100,
A subsidiary material mixing tank 300 in which water and moisture are mixed by mixing the shaft, the manure and the subsidiary material transferred from the transfer device 200,
A fermentation tank 400 for receiving a raw material of the raw material mixing tank 300 and undergoing a fermentation process,
A high temperature drying apparatus 500 for primarily drying the raw material transferred from the fermentation tank 400 in a heating furnace under a high temperature condition,
A conveyor drying apparatus 600 for secondarily drying the dried material on the conveyor in the high temperature drying apparatus 500,
A fertilizer molding apparatus 700 for shaping the raw material in the conveyor drying apparatus 600 into a solid fertilizer form; ≪ / RTI >
The drainage tank 100 is formed at a central lower end of the drainage tank 100 and the drainage plate 120 around the drainage unit 130 is formed to be inclined downward toward the discharge unit 130 Fertilizer production equipment using shaft manure
delete The method according to claim 1,
Wherein the dewatering tank 100 is integrally formed with a sewage collecting space 140 in which the water introduced through the discharge hole 121 is collected in the lower portion of the sewage platelet 120 and discharged to the outside. Fertilizer production equipment using
The shaft and the flour containing a large amount of water are supplied to the inside and the moisture of the shaft and the flour is discharged into the discharge hole 121 of the flue 120 by the pressing means 110 installed on the upper side, A dewatering tank 100 in which an opening / closing device 150, which is automatically opened and closed according to the degree of pressure of the pressurizing means 110, is installed on the discharge unit 130 so as to discharge only the removed shaft,
A transfer device 200 for storing the shaft and the phosphorus discharged from the dewatering tank 100,
A subsidiary material mixing tank 300 in which water and moisture are mixed by mixing the shaft, the manure and the subsidiary material transferred from the transfer device 200,
A fermentation tank 400 for receiving a raw material of the raw material mixing tank 300 and undergoing a fermentation process,
A high temperature drying apparatus 500 for primarily drying the raw material transferred from the fermentation tank 400 in a heating furnace under a high temperature condition,
A conveyor drying apparatus 600 for secondarily drying the dried material on the conveyor in the high temperature drying apparatus 500,
A fertilizer molding apparatus 700 for shaping the raw material in the conveyor drying apparatus 600 into a solid fertilizer form; ≪ / RTI >
The opening / closing device 150 includes:
A door 151 opened and closed by a hinge at a lower end of the discharge part 130 and an elastic member 152 installed on the door 151 and holding the pulling force in a closing direction. Used fertilizer production equipment
The shaft and the flour containing a large amount of water are supplied to the inside and the moisture of the shaft and the flour is discharged into the discharge hole 121 of the flue 120 by the pressing means 110 installed on the upper side, A dewatering tank 100 in which an opening / closing device 150, which is automatically opened and closed according to the degree of pressure of the pressurizing means 110, is installed on the discharge unit 130 so as to discharge only the removed shaft,
A transfer device 200 for storing the shaft and the phosphorus discharged from the dewatering tank 100,
A subsidiary material mixing tank 300 in which water and moisture are mixed by mixing the shaft, the manure and the subsidiary material transferred from the transfer device 200,
A fermentation tank 400 for receiving a raw material of the raw material mixing tank 300 and undergoing a fermentation process,
A high temperature drying apparatus 500 for primarily drying the raw material transferred from the fermentation tank 400 in a heating furnace under a high temperature condition,
A conveyor drying apparatus 600 for secondarily drying the dried material on the conveyor in the high temperature drying apparatus 500,
A fertilizer molding apparatus 700 for shaping the raw material in the conveyor drying apparatus 600 into a solid fertilizer form; ≪ / RTI >
The conveyor drying apparatus 600 includes:
A quantitative charging unit 610 for charging a dried material in the high temperature drying apparatus 500 by a predetermined amount,
A lower conveyor 620 for conveying the raw material supplied from the quantitative charging unit 610 in the discharging direction,
A top conveyor 630 installed parallel to the upper portion of the lower conveyor 620 at a predetermined interval and conveying the raw materials in a state of being engaged with each other,
And an absorbent pad (640) attached to an outer circumferential surface of the belts (621, 631) of the upper conveyor (630) and the lower conveyor (620) to remove moisture of the raw material. Device
6. The method of claim 5,
Wherein a plurality of through holes (650) are formed in belts (621, 631) of the lower conveyor (620) and the upper conveyor (630)
6. The method of claim 5,
An air supply device 660 is further provided on the lower portion of the lower conveyor 620 and the upper portion of the upper conveyor 630 to blow dry air in the direction of the absorbent pad 640 so that the absorbent pad 640 continuously Which is characterized in that it can be dried.

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