KR20120024352A - Hydroponics waste water recycling apparatus - Google Patents

Abstract

PURPOSE: A recycling apparatus for hydroponic drain water is provided to recycle drain water discharged from hydroponic culturing process for preventing the environmental contamination. CONSTITUTION: A recycling apparatus for hydroponic drain water comprises the following: a drain water tank(10) connected to a culture medium(1) for storing the hydroponic drain water discharged from the culture medium; a stirring tank(20) connected to the drain water tank and the culture medium; a raw water supply device(30) connected to the stirring tank for supplying raw water; a nutrient solution supply device(40) supplying fertilizer elements to crops by being connected to the stirring tank; an acidity regulator supply device(50) supplying an acidity regulator to the stirring tank; a measuring sensor(22) checking the pH and the EC value of the hydroponic drain water in the stirring tank; and a controller(23) controlling electronic control valves(32,42,52) installed on the raw water supply device, the nutrient solution supply device, and the acidity regulator supply device.

Description

Hydroponics waste water recycling apparatus

The present invention relates to a nutrient cultivation wastewater recycling apparatus of a new structure to be able to recycle the effluent inevitably generated during nutrient cultivation.

In general, nutrient solution cultivation device or hydroponic cultivation device widely used when growing crops is fertilizer management by supplying nutrient fertilizer to artificial medium (rock wool, perlite, coco peat, slope, etc.). Easily and less polluted, it is widely used for growing various crops such as roses, chrysanthemums, tomatoes, cucumbers, paprika and strawberries.

However, when cultivating crops using such a nutrient cultivation device, only 20-30% of the nutrients supplied are absorbed by the crops, and the remaining 70-80% of the nutrients are discharged to the effluent. There was a big problem that environmental pollution occurs. In particular, there is a problem that eutrophication of the river by nutrients occurs even when the wastewater is discharged by water treatment.

Therefore, in order to solve this problem, it is possible to propose an apparatus or method for analyzing the composition of the wastewater by using various sensors, and additionally supplying fertilizer components that are insufficient for the wastewater to recycle the wastewater. The increase and the cost of operating and maintaining the device has been increased, there is a problem that is difficult to use in a typical farmhouse.

An object of the present invention is to provide a new nutrient cultivation wastewater recycling apparatus capable of preventing environmental pollution or eutrophication by recycling the effluent generated during nutrient cultivation.

The present invention for achieving the above object is connected to the cultivation medium of the nutrient cultivation apparatus, nutrient cultivation wastewater recycling apparatus for recycling the discharged from the cultivation medium, the effluent discharged from the cultivation medium connected to the cultivation medium A storage tank, a stirring tank connected between the discharge tank and the cultivation medium, a raw water supply device connected to the stirring tank to supply raw water, and a fertilizer component connected to the stirring tank to supply fertilizer components necessary for the growth of crops. A nutrient solution supply device and a pH adjuster supply device connected to the stirring tank to supply a pH adjuster for adjusting the acidity of the effluent, supplying the effluent stored first in the effluent tank to the stirrer tank and the After supplying raw water, fertilizer components and acidity regulators according to pH and EC values and stirring the mixture, the medium is circulated to the medium. The liquid cultivation toesu recycling apparatus.

According to another feature of the present invention, there is provided a nutrient solution cultivation wastewater recycling apparatus further comprises a microbial purification means for purifying the contaminants contained in the effluent into the wastewater tank.

According to another feature of the present invention, the effluent tank is provided with a nutrient cultivation wastewater recycling apparatus, characterized in that the temperature control device is provided.

According to another feature of the invention, the nutrient solution cultivation wastewater recycling apparatus is characterized in that the sterilization device for sterilizing microorganisms is provided in the middle portion of the discharge tank or the circulation line through which the water is circulated.

According to another feature of the present invention, in the nutrient cultivation wastewater recycling method for recycling the effluent discharged from the cultivation medium connected to the cultivation medium of the nutrient cultivation device, according to the pH and EC value of the effluent discharged from the cultivation medium and After the fertilizer component and the acidity regulator are added and stirred, the nutrient solution cultivation wastewater recycling method is characterized in that it is recycled by cultivation medium.

According to another feature of the present invention, there is provided a nutrient cultivation wastewater recycling method characterized in that to supply various minerals or useful microorganisms to the wastewater or culture medium.

According to the nutrient solution cultivation wastewater recycling apparatus according to the present invention, by measuring the pH and EC value of the effluent discharged from the cultivation medium by supplying and recycling the insufficient amount of raw water, fertilizer components and acidity regulator, preventing the discharge of effluent, nutrient solution There is an advantage to reduce the amount of labor and labor used to make various drugs.

In addition, it is possible to increase safer and more accurate nutrient solution and crop fertilizer absorption from the increase of the discharge water temperature due to the repeated reuse of the water and damage caused by excessive growth of various microorganisms. By supplying dozens of various minerals in addition to ~ 16 kinds of fertilizer components, there is an advantage that can be smoothly grown crops.

1 is a block diagram showing a nutrient cultivation wastewater recycling apparatus according to the present invention.

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

Nutrient cultivation wastewater recycling apparatus according to the present invention is connected to the cultivation medium (1) of the nutrient cultivation device to be able to recycle the discharged water from the cultivation medium (1), as shown in Figure 1, the cultivation medium A discharge tank 10 connected to (1) and storing the discharge water discharged from the cultivation medium 1, a stirring tank 20 connected between the effluent tank 10 and the cultivation medium 1, and the stirring Raw water supply device 30 is connected to the tank 20 to supply the raw water, nutrient solution supply device 40 is connected to the stirring tank 20 to supply the fertilizer components necessary for the growth of the crop, and the stirring tank 20 ) Is connected to the acidity control material supply device for supplying the acidity control material for controlling the acidity of the wastewater is composed of, the discharge water discharged from the cultivation medium (1) cultivation medium (1) through the circulation line (60) Iteratively configured to be repeated.

At this time, the circulation line 60 is configured to connect the outlet and the inlet of the cultivation medium (1), the discharge tank 10 and the stirring tank 20 is connected to the middle portion.

In addition, the front end of the culture medium 1 is provided with a useful microorganism supply device 70 for supplying a useful microorganism. The useful microorganisms collectively refer to microorganisms that are beneficial to the environment or have various useful functions, such as photosynthetic bacteria or lactic acid bacteria, and have various functions such as hydrolysis, hydrogenolysis, crop growth hormone secretion, and antibacterial bacteriostatic function, depending on the type. It may be in the form of a powder or a liquid, depending on the type or processing condition. In particular, when the useful microorganism is dominantly multiplied in the nutrient solution supplied to the cultivation medium (1), in addition to the above-described effects, it is possible to prevent other microorganisms (harmful microorganisms) from growing so that the crop can grow healthy without disease. There is an action. In addition, the useful microorganism supply device 70 uses a quantitative supply device connected to the circulation line 60 to be located at the front end of the cultivation medium 1, and the predetermined amount of the useful microorganism through the circulation line 60. It is designed to provide a continuous supply of continuous circulating sewage. At this time, the configuration or supply method and the connection position of the useful microorganism supply device 70 may be variously changed according to the type of the useful microorganism.

In addition, the discharge tank 10 is divided into a primary storage tank 11 connected to the cultivation medium 1 and a secondary storage tank 12 connected to the rear of the primary storage tank 11. In addition, the primary storage tank 11 is provided with a microbial purification means (11a) for purifying the contaminants contained in the discharge by using the microorganisms. Various microorganism purification means (11a) is developed and used, preferably using a ceramic ball or a microorganism trap attached to a plurality of microorganisms in the pores of the circumferential surface, installed in the primary storage tank (11) And decomposes and cleans the contaminants contained in the discharge water flowing through the primary storage tank (11). At this time, since the microorganism purification means 11a has been developed and used in various kinds, a detailed description thereof will be omitted.

In addition, the secondary storage tank 12 is provided with a temperature control device 12a and a sterilizer 12b for sterilizing microorganisms. The temperature control device (12a) by using a heater and a cooler to maintain the proper temperature for the growth of the crops stored in the secondary storage tank 12, while suppressing the excessive growth of the microorganisms contained in the discharge. do. The sterilization apparatus 12b is configured by fixing the UV lamps waterproofed inside the secondary storage tank 12, respectively, and the useful microorganisms supplied to the cultivation medium 1 by the useful microorganism supply device 70. Sterilizes to inhibit excessive growth of useful microorganisms. In other words, useful microorganisms, when excessively multiplied, decompose and consume fertilizer components to be supplied to the crop, or inside the circulation line 60 through which the water is circulated and the supply lines 31, 41, 51, which will be described later. , A dripper, a button, or a drop tap, etc., are attached to various mechanical elements provided in the circulation line 60 or the supply lines 31, 41, and 51 in the form of sludge to prevent the flow of the discharge. Therefore, in the state of storing the effluent in the secondary storage tank 12, using the temperature control device 12a and the sterilization device 12b to suppress or sterilize the growth of useful microorganisms to suppress the growth of useful microorganisms, fertilizer It is possible to prevent the components from being consumed or clogging the circulation line 60 or the various supply lines 31, 41, 51.

At this time, the sterilization device 12b is provided in the middle of the circulation line 60, in addition to the secondary storage tank 12.

The stirring tank 20 is connected to the secondary storage tank 12 to collect the discharged water after the temperature control and sterilization process, the stirrer 21 is provided with the raw water supply device 30 and the nutrient solution supply device 40 ) And the raw water and the fertilizer component and acidity regulator supplied by the acidity control material supply device 50 is stirred and then supplied to the cultivation medium (1). At this time, the stirring tank 20 is provided with a measuring sensor 22 for measuring the pH (acidity) and EC (measurement of salt concentration, amount of fertilizer components) of the discharge water, and the measuring sensor 22 is provided with a control unit (23) is connected, the control unit 23 controls the electronic control valve (32, 42, 52) to be described later to automatically adjust the amount of raw water and fertilizer components and acidity regulator supplied to the stirring tank (20) It is configured to be.

The raw water supply device 30 stores raw water, that is, water containing pure water or basic nutrients (various nutrients generated by photosynthesis of various minerals and crops) to the stirring tank 20 through a supply pipe 31. It is configured to be able to supply.

The nutrient solution supply device 40 is a crop containing calcium nitrate, potassium nitrate, first ammonium phosphate, first potassium phosphate, magnesium sulfate, potassium sulfate, zinc, manganese, boron, iron, sodium molybdate, copper, ammonium nitrate By supplying the fertilizer components necessary for the growth of, each of the ricin components are configured to be supplied to the stirring tank 20 through the supply pipe 41 in a different tank according to the type. In this case, the nutrient solution supply device 40 may supply various nutrients, which are various minerals and photosynthetic products necessary for the growth of crops, in addition to general fertilizer components. In addition, the nutrient supply device 40 is configured to supply nutrients, which are various minerals and photosynthetic products necessary for the growth of crops, in addition to the general nutrients described above.

The acidity control material supply device 50 is configured to supply the nitric acid or phosphoric acid and potassium bicarbonate stored in a separate tank to the stirring tank 20 through the supply pipe 51 to adjust the acidity of the discharge.

At this time, each of the supply pipe (31, 41, 51) is provided with an electronic control valve (32, 42, 52) actuated by the signal of the control unit 23, the control unit 23 is a stirring tank 20 And control the respective electronic control valves (32, 42, 52) while detecting the pH and EC values of the discharged water stored in real time, until the discharged water in the stirring tank 20 reaches the set PH and EC values. The fertilizer component and acidity regulator are supplied, and when the discharge reaches the set PH and EC values, the supply of raw water, fertilizer component and acidity regulator is cut off.

13, which is not described, illustrates an auxiliary measuring sensor installed in the discharge tank 10 to measure the pH and EC values of the discharged water contained in the discharge tank 10. The measured PH and EC values are wirelessly measured. It is configured to transmit to the control unit 23. In addition, reference numeral 80 shows a pump provided in an intermediate portion of the circulation line 60.

Therefore, when the discharge from the cultivation medium (1) is discharged discharged through the primary and secondary storage tanks 12 of the discharge tank 10, the contaminants are removed, and the microorganisms contained in the discharge grow excessively. It is processed so that the pH and EC values are monitored after being fed to the stirring tank 20, and if the PH and EC values are different from the set values, the raw water and fertilizer components and acidity regulators are selectively supplied to the PH and EC values. Adjust the value. Then, after additionally supplying various minerals and useful microorganisms to the effluent adjusted PH and EC, it is supplied again to the culture medium (1) and continuously circulated.

According to the nutrient cultivation wastewater recycling apparatus and method configured in this way, by measuring the pH and EC value of the effluent discharged from the nutrient cultivation system, and supplementing only the fertilizer components and water used in the growth of the crop, the appropriate amount of acidity as needed By adding a regulator, the recycled wastewater having the adjusted PH and EC values is recycled to the cultivation medium 1, so that the wastewater can be completely recycled without discharging the wastewater.

Therefore, it is possible not only to prevent the environmental pollution or eutrophication of the river by the discharged discharge, but also because the structure is simple, there is an advantage that it can be cheaply manufactured and widely supplied to many farms.

In particular, the nutrient cultivation wastewater recycling system supplies only the raw water and fertilizer components that are insufficient according to the pH and EC values of the leachate, thereby greatly reducing the cost and labor required for nutrient cultivation. There are advantages to it.

In addition, by using the measuring sensor 22 and the control unit 23 provided in the stirring tank 20 while allowing the discharge to circulate along the circulation line 60, the pH and EC value of the discharge is measured in real time and accordingly The valves 32, 42 and 52 are controlled to supply the raw water, the fertilizer component and the acidity regulator in real time, so that the pH of the mixed water and raw water mixture stored in the stirring tank 20 without stopping the flow of the water. The EC value can be always maintained at a constant value, there is an advantage that the nutrient solution supplied to the cultivation medium (1) can be always maintained in the best state by continuously circulating the discharge.

In particular, by using the nutrient solution supply device 40, in addition to the general fertilizer components, by supplying various minerals necessary for the growth of crops and various nutrients, photosynthetic products, to protect the crops from stress of nutrition balance and to promote the growth of crops There are advantages to it.

In addition, the discharge tank (10), in particular, the first storage tank is supplied with microbial purification means (11a) for purifying the waste water using microorganisms, the culture medium (1) is provided with a useful microorganism supply device 70 Since useful microorganisms are continuously supplied, there is an advantage that crops can be effectively and quickly grown without becoming sick.

In particular, as useful microorganisms are supplied to the discharge or cultivation medium, the growth of harmful fungi in the cultivation medium 1 can be suppressed, and the absorption of the supplied fertilizer components can be promoted, This has the advantage of minimizing destruction.

In addition, the discharge tank 10 or the circulation line 60 through which the discharge water is circulated is provided with a temperature control device 12a and a sterilization device 12b for sterilizing microorganisms, and useful microorganisms supplied to the cultivation medium 1 are provided. It does not excessively proliferate and maintains an appropriate level, and has the advantage of suppressing the growth of harmful bacteria.

In the present embodiment, the measurement sensor 22 is illustrated to be installed inside the stirring tank 20, but if necessary, the measurement sensor 22 in the middle of the circulation line 60, or the circulation line 60 It is also possible to connect to a separate bypass line connected to).

In addition, the temperature control device 12a may be omitted.

And, in the present embodiment, the useful microorganisms can be automatically supplied using the useful microorganism supply device 70, but if necessary, the administrator directly supply the useful microorganisms to the culture medium (1), or the sterilization It is also possible to supply useful microorganisms to the cultivation medium 1 through the circulation line 60 by supplying useful microorganisms to the discharge tank 10 while the apparatus 12b is turned off.

10. Drainage tank 20. Stirring tank
30. Raw water supply device 40. Nutrient supply device
50. Acidity regulator

Claims (5)

In the nutrient cultivation wastewater recycling apparatus connected to the cultivation medium (1) of the nutrient cultivation device to recycle the effluent discharged from the cultivation medium (1),
A discharge tank 10 connected to the cultivation medium 1 to store the effluent discharged from the cultivation medium 1, and a stirring tank 20 connected between the effluent tank 10 and the cultivation medium 1; A raw water supply device 30 connected to the stirring tank 20 to supply raw water, a nutrient solution supply device 40 connected to the stirring tank 20 to supply a fertilizer component necessary for growth of a crop, and the PH adjustment material supply device 50 is connected to the stirring tank 20 to supply the acidity regulator for adjusting the acidity of the discharge, and the pH of the discharge water provided in the stirring tank 20 supplied to the stirring tank 20 And a measuring sensor 22 measuring EC values, and connected to the measuring sensor 22 and provided in the raw water supply device 30, the nutrient solution supply device 40, and the acidity control material supply device 50. It includes a control unit 23 for controlling the valves (32, 42, 52),
After supplying the first stored water to the water tank 10 to the stirring tank 20 and supplying and stirring raw water, fertilizer components and acidity regulators according to the pH and EC value of the water discharged, and then circulated to the medium Nutrient cultivation wastewater recycling apparatus, characterized in that.
The nutrient cultivation wastewater recycling apparatus according to claim 1, further comprising a microbial purifying means (11a) which is introduced into the wastewater tank (10) to purify contaminants contained in the wastewater.
The nutrient solution cultivation wastewater recycling apparatus according to claim 1, wherein a medium for supplying useful microorganisms is provided at an intermediate portion of the cultivation medium 1 or the circulation line 60 through which the wastewater is circulated. .
The nutrient cultivation wastewater recycling apparatus according to claim 1, wherein the effluent tank (10) is provided with a temperature control device (12a).
The nutrient solution cultivation wastewater recycling apparatus according to claim 1, wherein a sterilization apparatus (12b) for sterilizing microorganisms is provided at an intermediate portion of the discharge tank (10) or the circulation line (60) through which the water is circulated.

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