KR102105909B1 - Manufacturing system of the organic fertilizer - Google Patents

Abstract

The present invention relates to a producing apparatus of a composite organic fertilizer using livestock and human excrement and, more specifically, to a producing apparatus of a composite organic fertilizer using livestock and human excrement, wherein a mixture of excrement and subsidiary materials can be sent to a fermentation tank after removing moisture therefrom in a moisture adjustment tank, and a liquid separated in the moisture adjustment tank can be re-supplied to a mixing tank where manure and subsidiary materials are mixed, so that raw materials can be saved. That is, the present invention comprises: a mixing tank for being supplied with and mixing subsidiary materials of a subsidiary material storage tank, and livestock and human excrement of an excrement storage tank; a moisture adjustment tank for receiving a mixture discharged from the mixing tank to remove moisture contained in the mixture; a fermentation tank for being supplied with the mixture with an adjusted moisture content from the moisture adjustment tank, and performing fermentation for a predetermined period of time; a dryer for drying fermented raw materials of the fermentation tank at a high temperature; and a molding device for forming a fertilizer discharged through the dryer into a solid fertilizer form. In the moisture adjustment tank, a separated liquid mixture is re-supplied to the mixing tank through a collecting pipe path, and the mixing tank controls the supply amount of livestock and human excrement supplied from the excrement storage tank according to the supply amount of a liquid mixture supplied from the moisture adjustment tank.

Description

Organic compound fertilizer manufacturing system using livestock servings {Manufacturing system of the organic fertilizer}

The present invention relates to an organic complex fertilizer manufacturing apparatus using livestock servings, specifically to remove the water from the manure and subsidiary material mixture in a moisture control tank and then to the fermentation tank, the liquid separated from the moisture control tank It relates to an organic compound fertilizer manufacturing apparatus using one serving of manure so that the manure and auxiliary materials can be fed back to the mixing tank to be mixed to save raw materials.

In general, excrement (manure), such as manure or manure, causes odor, environmental pollution during river discharge, desolation of coastal shores during ocean dumping, and environmental pollution due to waste disposal problems.

In consideration of this, a method and apparatus for treating wastes and excrements containing organic matters have been developed in the past to produce high-quality organic fertilizers using a large amount of excrement such as condensed matter or manure to produce a large amount of organic waste such as condensed matter or manure that is a source of environmental pollution. In addition to being able to be treated with, high-quality organic fertilizer is used to prevent acidification of the soil.

Fertilizer manufacturing apparatus using such conventional shaft meal is generally fermented by mixing auxiliary ingredients such as rice straw, sawdust, rice husk, shellfish, briquettes, and twigs in a large tank and then transferring them to a fermenter.

However, in the conventional fertilizer manufacturing apparatus, since the mixture containing a large amount of water is filled in the fermenter as it is, the space efficiency of the fermenter decreases, and most of the manure is discarded in the process of controlling the moisture, so there is a problem that raw materials are wasted.

If, due to these problems, the manure input is excessively reduced in the initial stage, the fermentation efficiency is lowered because the subsidiary materials and manure are not properly mixed, and the mixture with less moisture has another problem of raising the operating load of the stirring device in the fermentation tank. Occurs.

As a related prior art, the registered patent No. 10-1796725 (a fertilizer manufacturing apparatus using shaft meal) is supplied with shaft and meal to the inside, and when pressed downward by a pressing means installed at the top, moisture in the shaft and serving is placed on the floor. Waste water is discharged through the through-hole of the formed support plate, and a certain amount of water is removed, and then the dehydration supply device is discharged to the discharge unit, and the shaft, phosphorus and other auxiliary ingredients transferred from the dehydration supply device are mixed, and then supplied with air. The fermentation is carried out, the mixing member and the mixing screw are installed respectively, the mixing fermentation device and the fermentation material transferred from the mixing fermentation device and the mixing fermentation device that stops the operation of the mixing screw and operates only the stirring member during fermentation. It includes a drying device for heating and controlling moisture at a high temperature, and a fertilizer forming device for molding the dried fermentation material into a solid fertilizer form. And it consists of the disclosure.

However, the prior art has a problem in that the moisture is removed from the shaft and the servings as wastewater before being mixed with the supplementary raw materials because the moisture control of the shaft and the servings is first made and then mixed with the secondary raw materials. Shafts and servings can increase the load on the stirring member, which can cause failure of the stirring member of the mixed fermentation device.

The present invention has been devised to solve the above problems, and in the process of mixing manure and subsidiary materials, the mixing efficiency is increased with a high moisture content, and the moisture in the mixture is adjusted before the process for fermenting the mixture to It is an object of the present invention to provide a fertilizer manufacturing apparatus using one shaft and one serving so as to minimize the volume and allow the liquid separated in the moisture control process to be returned to the mixing tank to save raw materials.

In the present invention, the auxiliary material of the auxiliary material storage tank, the mixing tank in which the shaft and manure of the manure storage tank are supplied and mixed, and the moisture control tank for receiving the mixture discharged from the mixing tank to remove moisture contained in the mixture, and in the moisture control tank A fermenter that undergoes fermentation for a period of time after receiving a mixture having a controlled moisture content, a dryer for drying the fermented raw material of the fermenter at high temperature, and a molding machine for forming the fertilizer discharged through the dryer into a solid fertilizer form; It is made to include, the water control tank is supplied to the separated liquid mixture through the recovery pipe back to the mixing tank, the mixing tank is supplied from the manure storage tank according to the supply amount of the liquid mixture supplied from the moisture control tank, serving It is characterized by controlling the supply amount.

In addition, the moisture control tank is filled with a mixture of subsidiary materials, shafts, and servings supplied to the supply unit formed on one side of the main body, and the mixture is supported by a support plate having a plurality of through holes at a position spaced apart from the floor, and the upper body The compressed air supplied through the pressurized air pipe formed on the mixture pushes the mixture toward the support plate so that moisture can be removed, and the mixture with a reduced water content is discharged to the discharge portion formed on one side of the support plate, and the liquid is separated into the lower portion of the support plate. The mixture is characterized in that it is connected to the recovery pipe through a drain pipe formed at the bottom of the body.

In addition, the fermentation tank; It is installed in a form spaced from the ground and filled with a mixture to a certain height therein, and is installed in a form arranged in plural at the bottom of the body part, and a stirring cylinder that mixes the mixture while vertically reciprocating from the inner bottom; Consisting of, the stirring cylinder is composed of a reciprocating rod and a head portion formed on the upper end of the rod for agitating action; and the plurality of installed agitating cylinders can be moved up and down at different positions of the head portion. Each stirring cylinder is characterized in that it cross-operates with each other.

In addition, support portions connected to one rotational shaft are installed on both sides so that the body portion can be installed in a rotatable form, and supply discharge pipes for supplying the mixture and discharging the fermentation raw material are formed at the upper portion of the body portion. The body part maintains a fixed position so as to be positioned at the top, and when discharging the fermented raw material, the fermented raw material discharged through the supply and discharge pipe is rotated by a driving means installed on one side of the support to drop into the discharge conveyor installed at the lower part of the body. It is characterized by being transferred to the next process.

In the present invention, the mixing tank is supplied with auxiliary materials and manure, and the manure is supplied for the first time, so that the mixing can be easily performed with a high moisture content. There is an effect that the capacity of the fermentation tank can be used efficiently by receiving and fermenting.

And the present invention is to supply the mixture in the liquid state separated from the water control tank to the mixing tank again, and by controlling the supply amount of the shaft and servings supplied from the manure storage tank according to the amount of the liquid mixture recovered, the shaft, serving raw material There is an effect that can be saved.

1 is a view showing the entire process of the organic compound fertilizer manufacturing apparatus using the axial phosphorus of the present invention
Figure 2 is a view showing the connection configuration of the mixing tank and the moisture control tank of the present invention
Figure 3 is a view showing the configuration of the moisture control tank of the present invention
4 is a view showing the process of removing water by pressurizing the mixture with compressed air supplied through a pressurized air pipe in the moisture control tank of the present invention
5 is a view showing the composition of the fermenter of the present invention
6 is a view showing a process in which the mixture is filled in the fermentation tank of the present invention is made
7 is a view showing a process of discharging the fermentation raw material by rotating the body portion of the fermenter of the present invention
8 is an embodiment in which the stirring projection is further formed on the head portion of the stirring cylinder according to the present invention.
9 is an embodiment in which the stirring plate is further formed in the head portion of the stirring cylinder according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. And in the description of the present invention, if it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

Organic compound fertilizer manufacturing apparatus using the axial phosphorus of the present invention, as shown in Figure 1, the auxiliary material of the auxiliary material storage tank (A) and the manure storage tank (B) of the shaft, serving is supplied to the mixing tank 100 to mix, and It is supplied with a mixture discharged from the mixing tank 100 to provide moisture control tank 200 for removing moisture contained in the mixture, and a mixture having a moisture content adjusted in the moisture control tank 200 to ferment for a certain period of time. A fermentation tank 300 for mounting, a dryer 400 for drying the fermented raw material of the fermentation tank 300 at high temperature, and a molding machine 500 for forming fertilizer discharged through the dryer 400 into a solid fertilizer form; Including,

The moisture control tank 200 is supplied to the separated liquid mixture through the recovery pipe 250 again to the mixing tank 100, the mixing tank 100 is the supply amount of the liquid mixture supplied from the moisture control tank 200 According to the manure storage tank (B), it is characterized in that it controls the supply amount of the shaft, servings.

In the organic compound fertilizer manufacturing apparatus using the axial phosphorus of the present invention, a great feature in the process is that the auxiliary material and the manure and nutrients in the manure state are first supplied in the mixing tank 100 so that mixing can be easily performed with a high moisture content. , In the fermentation tank 300, the capacity of the fermentation tank 300 can be effectively used by first receiving the mixture in a state in which the water content is reduced through the moisture control tank 200 and fermenting it.

In addition, the liquid mixture separated from the water control tank 200 is supplied to the mixing tank 100 again, and the amount of shaft and serving supplied from the manure storage tank B is controlled according to the amount of the liquid mixture collected. By doing so, it is possible to save the raw materials for shaft and serving.

Below, each configuration of the present invention will be described in turn.

Subsidiary material storage tank (A) of the present invention is a configuration in which subsidiary materials such as shellfish and lime are input and stored, and of course, rice straw, sawdust, rice husk, etc. may be added. And the manure storage tank (B) is a configuration in which the shaft, servings are filled to a certain level and stored therein. At this time, the manure stored in the manure storage tank (B) is mostly liquid, and is supplied to the mixing tank 100 through a pump.

2, the mixing tank 100 of the present invention is provided with a subsidiary material introduction part 110 and a manure introduction part 120 at the top, respectively, as shown in FIG. 2, and a mixture of liquids recovered from the moisture control tank 200 The mixed liquid injection unit 140 to be supplied is formed. Then, the auxiliary material, the shaft, and the servings are mixed through the mixing screw 130 installed inside the mixing tank 100, and the mixture is completed and then discharged.

In addition, the supply ratio of the subsidiary material injecting part 110 and the manure injecting part 120 of the mixing tank 100 decreases the supply amount of the manure injecting part 120 as the amount of the liquid mixture supplied to the mixed liquid injecting part 140 increases. Ratio control is done in the form of The reason is that the liquid mixture recovered from the moisture control tank 200 may contain subsidiary materials, but since the amount of subsidiary materials contained is mostly axial and serving, negligible, only the axial serving input is controlled and mixed at an appropriate ratio. Is to do.

The moisture control tank 200 of the present invention is configured to primarily remove moisture contained in the mixture by receiving the mixture discharged from the mixing tank 100. The configuration of the moisture control tank 200 is filled with a mixture of subsidiary materials, shafts, and servings supplied to the supply part 211 formed on the upper side of the main body 210 as shown in FIGS. Silver is supported on the support plate 220 in which a plurality of through holes 221 are formed at a position spaced from the floor, and compressed air supplied through the pressurized air pipe 230 formed on the main body 210 directs the mixture to the support plate 220 Press to be made to remove moisture, the mixture having a reduced water content is discharged to the discharge part 212 formed on one side of the support plate 220, and the liquid mixture separated under the support plate 220 is the main body 210 ) It is connected to the recovery pipe line 250 through the drain pipe 240 formed at the bottom.

A feature of the moisture control tank 200 is the pressure of compressed air supplied through the pressurized air pipe 230 to press the mixture filled in the main body 210 in the direction of the support plate 220 so that the moisture contained in the mixture passes through the hole of the pressurized plate (221).

In addition, an opening / closing valve 260 is installed in the supply part 211 and the discharge part 212 of the moisture control tank 200, so that when the compressed air is supplied into the main body 210, compressed air is supplied to the supply part 211. Prevent the mixture from draining while preventing it from escaping. After the water removal is completed, the discharge unit 212 is opened. At this time, by supplying compressed air, the discharge can be made more smoothly.

The fermentation tank 300 of the present invention is characterized by being configured to continuously stir the mixture having a controlled moisture content.

In the conventional fermenter type, since the stirring blade is formed on the vertically installed shaft and the stirring blade is immersed in the mixture, it may be suitable for a mixture having a high moisture content, but the stirring blade is used to stir the mixture having a relatively low moisture content. This is not suitable because of the large operating load.

Therefore, the fermentation tank 300 of the present invention; 5 to 6, the body part 310 is installed in a form spaced apart from the ground and filled with a mixture to a certain height therein, and is installed in a form arranged in plural at the bottom of the body part 310 It consists of a stirring cylinder (320) to mix the mixture while performing a vertical reciprocating motion from the inner bottom, it is possible to stir the mixture with a low moisture content.

And the stirring cylinder 320 is composed of a rod 321 that reciprocates, and a head part 322 that is formed on the upper end of the rod 321 to perform a stirring action; and a plurality of installed stirring cylinders 320 is Each of the stirring cylinders 320 is configured to cross-operate with each other so that the height of the head portion 322 moves up and down at different positions to increase the stirring efficiency.

In addition, the body portion 310 of the fermentation tank 300 is installed on each side of the support 330 connected by a rotating shaft 331 to be installed in a rotatable form, the upper portion of the body portion 310 of the mixture A supply discharge pipe 340 for discharging supply and fermentation raw materials is formed.

That is, at the time of supplying the mixture, the mixture is supplied in a state where the body portion 310 maintains a fixed position such that the supply discharge pipe 340 is positioned at the top as shown in FIG. At this time, the height of the mixture is preferably filled to the operating range of the head portion 322 of the stirring cylinder 320, as shown in FIG. In the fermentation process, it is preferable to attach a cover 341 to the supply and discharge pipe 340 of the fermentation tank 300 to maintain temperature and humidity optimized for fermentation.

When the fermentation raw material is discharged after fermentation for a period of time, the supply discharge pipe 340 is rotated by rotating the body portion 310 by the driving means 332 installed on one side of the support 330 as shown in FIG. 7. The fermented raw material discharged through it is dropped to the discharge conveyor 350 installed at the bottom of the body portion 310 and transferred to the next process. Then, through the driving means 332, the body portion 310 is rotated as shown in FIG. 5 to receive the mixture to undergo fermentation again.

8 to 9 is an embodiment according to the shape of the head portion 322 of the stirring cylinder 320 installed in the fermentation tank 300 of the present invention. Since the head portion 322 is configured to promote agitation while strongly stirring the mixture that undergoes the fermentation process, as shown in FIG. 8, the agitation protrusions 322a are further formed on the outer circumferential surface and the upper portion of the head portion 322. The agitation efficiency may be further increased, and as shown in FIG. 9, the agitation plate 322b may be further extended to the outside of the top of the head portion 322 to increase the agitation efficiency in the form of pumping up the mixture.

The fermentation raw material discharged from the fermentation tank 300 is removed from the high temperature through the dryer 400, and finally molded into a solid fertilizer form in the molding machine 500 to discharge the packaging.

In the above, the present invention has been described with reference to the above embodiments, but it is of course possible to perform various modifications within the technical scope of the present invention.

A: Subsidiary material storage tank B: Manure storage tank
100: mixing tank 110: auxiliary material input part
120: manure input unit 130: mixing screw
140: mixed liquid injection unit 200: moisture control tank
210: main body 211: supply unit
212: outlet 220: support plate
221: through hole 230: pressurized air pipe
240: drain pipe 250: recovery pipe
260: opening and closing valve 300: fermentation tank
310: body portion 320: stirring cylinder
321: rod 322: head portion
322a: stir projection 322b: stir plate
330: support 331: rotating shaft
332: driving means 340: supply discharge pipe
341: cover 350: discharge conveyor
400: dryer 500: molding machine

Claims (4)

The auxiliary tank of the auxiliary material storage tank (A) and the shaft and serving of the manure storage tank (B) are supplied to mix the mixing tank 100 and the mixture discharged from the mixing tank 100 to remove moisture contained in the mixture. The water control tank 200 and the fermentation tank 300 undergoing fermentation for a certain period of time after receiving the mixture having the water content adjusted in the water control tank 200 and the fermented raw materials of the fermentation tank 300 are dried at high temperature. The dryer 400 and the molding machine 500 for forming the fertilizer discharged through the dryer 400 into a solid fertilizer form; and the moisture control tank 200 recovers the separated liquid mixture. It is supplied to the mixing tank 100 through the pipeline 250 again, and the mixing tank 100 is formed of the shaft and servings supplied from the manure storage tank B according to the supply amount of the liquid mixture supplied from the moisture control tank 200. Control the supply,
The fermentation tank 300;
The body portion 310 is installed in a form spaced from the ground and filled with the mixture to a certain height therein,
It is installed in a form arranged in plural at the bottom of the body portion 310, agitating cylinder 320 to mix the mixture while performing a vertical reciprocating motion from the inner bottom;
The stirring cylinder 320 is composed of a rod 321 for reciprocating motion, and a head part 322 formed on the upper end of the rod 321 to perform a stirring action; and a plurality of installed stirring cylinders 320 is a head Each stirring cylinder 320 is cross-operated with each other so that the height of the portion 322 can move up and down at different positions,
The body 310 is provided with a support 330 connected to each of the rotating shaft 331 so that it can be installed in a rotatable form on each side, the upper portion of the body 310 to supply the mixture and discharge the fermentation raw material The supply discharge pipe 340 is formed, and when the mixture is supplied, the body portion 310 maintains a fixed position so that the supply discharge pipe 340 is positioned at the top, and when discharging the fermented raw material, the drive is installed on one side of the support 330 The fermentation raw material discharged through the supply and discharge pipe 340 by rotating the body portion 310 by means 332 is dropped to the discharge conveyor 350 installed in the lower portion of the body portion 310 and is transferred to the next process. Organic compound fertilizer manufacturing apparatus using axial serving.
According to claim 1,
The moisture control tank 200 is filled with a mixture of subsidiary materials, shafts, and servings supplied to the supply part 211 formed on the upper side of the main body 210, and the mixture is provided with a plurality of through-holes at a position spaced apart from the floor. (221) is supported on the support plate 220 is formed, the compressed air supplied through the pressurized air pipe 230 formed on the main body 210 is pressed to the mixture in the direction of the support plate 220 to remove moisture, the support plate The mixture having a reduced water content is discharged to the discharge portion 212 formed on one side of the 220, and the liquid mixture separated under the support plate 220 is recovered through the drain pipe 240 formed under the main body 210. Organic compound fertilizer manufacturing apparatus using axial serving, characterized in that it is connected to the pipeline (250).
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