KR200273315Y1 - Device for producing liquid manure - Google Patents

Abstract

The present invention relates to a device for fermenting organic by-products in a heated aerobic state to produce liquid fertilizers. Using a reaction tank (10) having a funnel-shaped bottom surface 12, the air supply unit 23 is connected to the air supply unit (21) and the air diffuser (25) inside the reaction tank (10) Install it. The wire mesh 15, 16 is spaced apart and installed above the diffuser 25 of the air supply means, and the heater 30 between the wire mesh 15, 16 of the reaction vessel 10 has a radius of the reaction vessel 10. It is detachably installed from the outside in the extended state. The temperature controller 32 and the controller 40 which detect the internal temperature of the reactor 10 and perform the operation of the heater 30 are used.

Accordingly, there is an effect that can ensure the stability of the quality while fermenting with a liquid fertilizer at a low cost in a relatively short time.

Description

Liquid fertilization apparatus {Device for producing liquid manure}

The present invention relates to a liquid fertilizer manufacturing apparatus, and more particularly, to a liquid fertilizer manufacturing apparatus capable of fermenting various natural materials, including organic substances easily obtained from the surroundings with liquid fertilizer at a relatively low cost in a relatively short time.

The production of liquid fertilizers in general farms are mainly anaerobic, so they have to be left for a long time, and they often rot or remain fermented.

As a result, individual farmhouses use the simplest type of liquid fertilizer manufacturing equipment to store by-products such as manure, salt, rice bran, fish meal, and blood meal in the mantle. Not only does it take three months, but because of the lack of dissolved oxygen, which can rot through the fermentation stage, there is a high risk of killing crops by toxic components.

In order to improve this, a device has been proposed to install a heater in the reactor and warm it and introduce external air, so that the organic by-products can be fermented quickly and appropriately with the heated water to produce a liquid fertilizer. By the way, since the flow of air in the reaction tank is not smooth and the proper aerobic state is not maintained, the quality of the fertilizer is different depending on the user's skill.

In general, organic fertilizers, unlike inorganic fertilizers, which are chemical fertilizers, are absorbed by plants by the decomposition of bacteria. Therefore, fermented organic fertilizers should be used. Less fermentation may adversely affect the roots such as harmful gases.

Accordingly, the present invention is intended to solve the above-described waste, a liquid fertilizer manufacturing apparatus that can ensure the stability of the quality while fermenting various natural materials, including organic substances easily obtained from the surroundings with liquid fertilizer at a relatively low cost in a relatively short time Its purpose is to provide.

1 is a schematic view showing the main configuration of the apparatus according to the present invention from the front,

2 is a plan view showing the internal configuration of the apparatus according to the present invention,

3 is a configuration diagram showing a main portion of a mechanism according to a modification of the present invention.

Explanation of symbols on the main parts of the drawings

10: reactor 11: lid

12: bottom 13: legs

15, 16: Wire Mesh 17: Supports

18: expansion tank 19, 29, 39: valve

21: air pump 23: air supply pipe

25: diffuser 30: heater

32: thermostat 36: drain pipe

In order to achieve the above object, the present invention provides a device for fermenting organic by-products in a heated aerobic state to produce a liquid fertilizer, comprising: a reactor (10) having a funnel-shaped bottom (12); Air supply means for supplying outside air by connecting the diffuser 25 inside the reactor 10 and the external air pump 21 to the air supply pipe 23; Wire meshes 15 and 16 spaced apart above the air diffuser 25 of the air supply means; A heater 30 detachably installed from the outside in a state in which the radius of the reaction vessel 10 extends between the wire meshes 15 and 16 of the reaction vessel 10; And a temperature controller 32 that detects the internal temperature of the reactor 10 and performs the operation of the heater 30.

As another feature of the present invention, the air diffuser 25 of the air supply means is installed in the form of a head of the shower head and the injection hole is directed upward.

As another feature of the present invention, as shown in FIG. 3, the bottom of the reactor 10 has a flat configuration, and the air diffuser 25 of the air supply means in the form of a head of the shower may be installed so that the injection hole is directed downward. have.

Accordingly, in farms, high-quality organic fertilizers that combine high quality oil meal, bone meal, fish meal, etc. under optimum conditions according to the embodiments described below, are added to the reactor 10 to improve soil physical properties and chemical properties and activate soil microorganisms. Is generated. Animal bone meal and fishmeal supplement the phosphate and kali that may be lacking in vegetable oils to provide balanced nutrition.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

1 is a schematic view showing the main configuration of the device according to the present invention from the front, Figure 2 is a plan view showing the internal configuration of the device according to the present invention.

As can be seen in the drawing, the present invention relates to a device for fermenting organic by-products in a heated aerobic state to produce liquid fertilizer, which is mainly formed on a reactor 10 having a cylindrical shape and having a lid 11 on top. The functional product is mounted. Four legs 13 are welded to the lower part of the reactor 10 via the reinforcement plate 14.

At this time, the reaction tank 10 of the present invention is configured by the bottom surface 12 of the funnel shape so that the air evenly supplied into the reaction tank 10.

A valve 19 is installed at one of the bottom center 12 of the bottom surface 12 of the reactor 10 so that the liquid fertilizer can be easily discharged.

Another valve 39 is provided at a portion near the bottom surface 12 from the side of the reactor 10 to install a drain pipe 36.

In addition, according to the present invention there is provided an air supply means for supplying the outside air by connecting the air diffuser 25 and the external air pump 21 in the reaction tank 10 to the supply pipe 23. The air supply means consists of the air pump 21, the air supply pipe 23, and the diffuser 25. The air pump 21 is fixed to the outer upper end of the reaction tank 10 by using a bracket. The diffuser 25 is installed in the center of the bottom surface 12 in the reaction tank 10. The air pump 21 and the diffuser 25 are piped using the air supply pipe 23.

At this time, the air diffuser 25 of the air supply means is installed in the form of a head of the shower head so that the injection hole is directed upward. The diffuser 25 is funnel-like, like a head of a shower, and has a plurality of injection holes. It is preferable for the even flow of air to keep the cone angle of the bottom 12 and the diffuser 25 the same.

In addition, according to the present invention, the wire meshes 15 and 16 are spaced apart above the diffuser 25 of the air supply means. The upper wire mesh 15 is mounted to a portion slightly below the center of the reaction vessel 10 as a portion on which various organic by-products are seated. The upper wire mesh 15 is seated on the support 17 welded strip-shaped plate in a lattice shape to prevent sagging or damage by the load of the by-product. The lower wire mesh 16 uses a larger mesh than the upper wire mesh 15 and rests slightly above the diffuser 25 at the bottom surface 12. The lower wire mesh 16 prevents foreign matter from being deposited on the diffuser 25 while allowing the air of the diffuser 25 to be evenly sprayed.

In addition, according to the present invention, the heater 30 is detachably installed from the outside in a state in which the heater 30 extends more than the radius of the reaction tank 10 between the wire meshes 15 and 16 of the reaction tank 10. The heater 30 is filled with water or fruit so that indirect heating is performed, and extends to a sufficient length so that the temperature distribution inside the reactor 10 is evenly maintained. According to the structure of mounting the heater 30 from the outside all the work is made safely outside the reactor 10 during repair or replacement.

In addition, according to the present invention, a temperature controller 32 is installed to detect the internal temperature of the reactor 10 to perform the operation of the heater 30. The temperature controller 32 detects a temperature change of the reactor 10 as an electrical signal through a sensor. The sensor is installed to be introduced into the reaction tank 10 through the stainless steel pipe 34. Control to control the operating power of the heater 30 may be performed by the temperature controller 32, or may be performed using a controller 40, which is separately installed.

Reference numeral 18 is an expansion tank, which is piped to absorb volume increase due to expansion during fermentation. The valve of reference numeral 19 provided on the air supply pipe 23 can adjust the air supply amount of the reaction vessel 10.

3 is a block diagram showing the main part of the mechanism according to a modification of the present invention, the bottom surface of the reaction tank 10 is configured in a flat plane and the air diffuser 25 of the air supply means is a head of the shower head and the injection hole is lowered It is installed so that the air can be distributed evenly in every corner from the lower side inside the reaction tank (10).

The configuration in which the valve 29 is provided in the air supply pipe 23 is as shown in FIG. 2, and the wire mesh 16 may be placed at a position higher than the injection hole of the diffuser 25.

On the wire mesh 16 in the configuration shown in Figures 1 to 3 is laid a stone or gravel, such as granite, to maximize the nutritional state of the liquid fertilizer by dissolving a large amount of minerals during liquid fertilizer production.

In addition, the valve 19 is installed at the bottom of the bottom of the funnel type, but installed to be located below the diffuser 25 to facilitate the discharge of the liquid fertilizer.

In operation, the controller 40 includes a panel for controlling the user and a power supply, and is connected to input from the temperature controller 32 and output to the air pump 21 and the heater 30. The valves 19, 29 and 39 may be opened and closed using the controller 40 when the solenoid valves are used in combination. Accordingly, when the organic by-products and water are put into the reactor 10 of the present invention for fermentation and the controller 40 is operated, the aerobic state of high temperature is achieved by the air injection by the air pump 21 and the self-heating by the heater 30. maintain. Since the flow path of the air is simplified, the user can properly maintain the dissolved oxygen amount and temperature of the water regardless of the state in which the user loads the by-product into the wire mesh 15 of the reactor 10 to generate a high-quality liquid ratio.

For example, when the capacity of the reaction tank 10 of 200 L as a reference, it is possible to prepare the liquid ratio by adding the following components.

Example 1 Example 2 Example 3 Bacterial culture chair powder bone flour molasses 20 kg3 kg3 kg3 kg5 kg Yu-bak fish flour dry flour flour Urea Lactobacillus 8 kg 4 kg 20 kg 4 kg 4 kg 4 kg 5 kg Cheongcho Migang 50㎏3㎏5㎏5㎏

When the apparatus of the present invention is used, the fermentation is completed in about 1 to 7 days at a temperature condition of 60 to 70 ° C by shortening the period for generating a high quality liquid ratio. If food waste is introduced, the optimum fermentation conditions with the most active microorganisms are at a temperature of 35-40 ° C, 60-70% moisture, and pH 6-7.

On the other hand, when manure and livestock wastewater are used, pathogens and parasites contained therein are killed by high temperature aerobic fermentation conditions, and optimal fermentation proceeds in a short period of time. It can be used as an environmentally friendly organization.

It is apparent to those skilled in the art that the present invention is not limited to the embodiments described, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or modifications will have to belong to the utility model registration claims of the present invention.

According to the above configuration and action, the present invention has the effect of ensuring the stability of the quality while fermenting into a liquid fertilizer at a relatively low cost within a relatively short time.

In addition, the use of such liquid fertilizer can not only harvest the high-quality crops due to the improvement of color and sweetness without heat and phenomenon, and also improve the shelf life of the crops, thereby contributing to the increase of income of the farm.

Claims (3)

Apparatus for fermenting organic byproducts in a heated aerobic state to produce liquid fertilizers: Reactor 10 having a funnel bottom surface 12; An air diffuser 25 installed at an inner lower portion of the reactor 10 and having a configuration similar to a head of a shower head and having a spray hole directed upward; Air supply means for supplying outside air by connecting the diffuser 25 inside the reactor 10 and the external air pump 21 to the air supply pipe 23; Wire meshes 15 and 16 spaced apart above the air diffuser 25 of the air supply means; A heater (30) installed detachably from the outside in a state extending beyond a radius of the reaction tank (10) between the wire nets (15, 16) of the reaction tank (10) and using fruit oil or water as a heat medium; And Liquid ratio manufacturing apparatus characterized in that it comprises a temperature controller (32) for performing the operation of the heater (30) by detecting the internal temperature of the reactor (10). According to claim 1, Liquid fertilizer manufacturing apparatus characterized in that the mineral leaching is made by laying a stone or gravel such as granite on the wire mesh (16). The method of claim 1, The lower portion of the reaction tank is formed in a planar configuration, the air diffuser 25 of the air supply means is formed in the form of the head of the shower, liquid jet manufacturing apparatus, characterized in that the injection hole is installed to the lower side.