KR101578925B1 - circulating hydroponic culture method using automatic supplying water for cultivating rose - Google Patents

Abstract

The present invention relates to a circulating hydroponic cultivation method for raw water for roses cultivation and includes a raw water tank 10 for cultivating roses, a raw water filling tank 60 connected to the raw water tank 10, a fertilizer concentrate tank 20, And a liquid absorber (30) connected to the raw water tank (10) and the fertilizer concentrate tank (20), characterized in that the raw water supplied from the raw water tank (10) And the nutrient solution 30 is supplied with the concentrate of the fertilizer of the concentrate tank 20 and the nutrient solution is mixed with the nutrient solution. The drainage drained in the crop tray is collected in the drainage collection tank 50 and is collected by the drainage level adjustment sensor 52 into the raw water storage tank 60 and then supplied again to the crop.
The present invention has a remarkable effect of being economical because it is convenient to use, and can save raw water and concentrate of fertilizer.

Description

[0001] The present invention relates to a circulating hydroponic culture method,

The present invention relates to a circulating hydroponic cultivation method for raw rose water for rosewood cultivation, and more particularly, to a circulating hydroponic cultivation method for raw water for rosemary cultivation, in which a raw water filling tank and a drainage / .

In general, a system for cultivating crops with raw water and nutrient solution has been developed. As an example, Registration No. 20-0392369 discloses a raw water tank in which raw water is stored, at least one nutrient solution tank in which nutrient solution is stored, A pump provided on the transfer pipe to suck raw water from the raw water tank and to discharge the raw water from the raw water tank to the venturi pipe installed on the transfer pipe between the raw water tank and the pump; Each of which is connected to each of the nutrient solution tanks so that the nutrient solution is sucked from the nutrient solution tank by the pressure difference generated by the raw water flowing through the Venturi tube and discharged into the raw water flowing through the venturi tube, At least one napkin sucking pipe connected to the venturi pipe, A filter installed on the transfer pipe, a branch pipe connected to the other end of the transfer pipe, piped to the ground to discharge the mixed solution of the raw water and the nutrient solution, which are connected to the branch pipe, At least one outlet pipe buried in the ground, and a controller for controlling the operation of the pump.

     In addition, Japanese Patent Application Laid-Open No. 10-1190139 discloses a nutrient solution which is provided in a supporting structure and has a housing having an open top and an inner hollow, and a cover having a potting hole for opening and closing an upper portion of the housing, A pump for transferring the nutrient solution in the nutrient solution tank to the uppermost nutrient solution reservoir and a nutrient solution reservoir at the lower end of the upper nutrient solution culturing passage and a nutrient solution reservoir in the upper nutrient solution reservoir, A flow pipe installed in the nutrient solution tank and measuring an amount of the nutrient solution; an oxygen blower provided in the nutrient solution cultivation tank for supplying oxygen to the nutrient solution; and a second pipe connected to the nutrient solution tank, , And a pump for feeding the nutrient solution to the nutrient solution cultivation bin is provided for counting the time so that the operation of the pump is performed periodically The present invention relates to a nutrient solution cultivation system comprising an emulsion and an LED lighting for irradiating a nutrient solution cultivated in a nutrient solution cultivation vessel with an LED light, wherein the nutrient solution cultivation is arranged in a transverse direction, The cultivation pails are connected to the third piping pipe and the fourth piping pipe is connected to the third piping pipe so that the nutrient solution of the nutrient solution tank is transferred to the uppermost nutrient solution cultivation basin and the nutrient solution transferred to the nutrient solution cultivation tank is connected to the first piping pipe And then connected to the first piping pipe so as to be transferred to the second-stage fluid-cultivation baskets. The nutrient solution in the second-stage fluid-cultivation basin is passed through the third-stage fluid- And finally connected to the nutrient solution tank by a first piping pipe and installed in multiple stages; A nutrient solution stopper disposed inside the first pipe for suppressing the flow of the nutrient solution contained in the nutrient solution cultivation barrel and adjusting the discharge flow height; And a solar cell installed to supply a power source for operating the pump.

However, the above conventional techniques have disadvantages in that the efficiency of re-use is low because the culture medium used is not uniformly managed even if the culture medium is discarded or recovered.

SUMMARY OF THE INVENTION 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 circulating hydroponic cultivation method which is convenient to use, and can reduce the concentrate of raw water and fertilizer.

The present invention relates to a circulating hydroponic cultivation method for raw water for roses cultivation and includes a raw water tank 10 for cultivating roses, a raw water filling tank 60 connected to the raw water tank 10, a fertilizer concentrate tank 20, And a liquid absorber (30) connected to the raw water tank (10) and the concentrate tank (20), characterized in that the raw water supplied from the raw water tank (10) And the nutrient solution 30 is supplied with the concentrate of the fertilizer of the concentrate tank 20 and the nutrient solution is mixed with the nutrient solution. And the drainage drained in the crop tray is collected in the drainage collection bucket 50 and is then returned to the raw water storage tank 60 by the drainage level adjustment sensor 52 and then supplied again to the crop.

Therefore, the present invention has a remarkable effect in that it is easy to use and economical because raw water and concentrate of fertilizer can be saved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a circulating hydroponic cultivation system

The present invention relates to a circulating hydroponic cultivation method for raw water for roses cultivation and includes a raw water tank 10 for cultivating roses, a raw water filling tank 60 connected to the raw water tank 10, a fertilizer concentrate tank 20, And a liquid absorber (30) connected to the raw water tank (10) and the concentrate tank (20), characterized in that the raw water supplied from the raw water tank (10) And the nutrient solution 30 is supplied with the concentrate of the fertilizer of the concentrate tank 20 and the nutrient solution is mixed with the nutrient solution. When the water level reaches a certain level, the drain is detected by the sensor, and the drain recovery pump is operated to discharge the purified water from the drain recovery tank 50 to the raw water storage tank 60 Is recovered and then fed back to the crop to be circulated The features.

Further, the nutrient balance of the culture liquid is reset every predetermined time.

In addition, when a trouble occurs in the raw water-filling circulation-type hydroponic cultivation system for roses cultivation, the power supply to the raw water supply pump 11 and the drainage recovery pump 51 is cut off and then the system is switched to a non-recycling hydroponic culture system, The hydroponic cultivation system comprises a raw water tank 10, a fertilizer concentrate tank 20 connected to the raw water tank 10, and a humidifier 30 connected to the fertilizer concentrate tank 20, The raw water supplied from the raw water tank 10 is supplied to the fluids supplier 30 and the fertilizer concentrate of the fertilizer concentrate tank 20 is supplied to the fluids supplier 30 so that the raw water and the nutrient solution The mixed culture is supplied to the crop of the crop tray, and the drainage discharged from the crop tray is discharged to the outside.

The present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a system diagram of a circulating hydroponic cultivation system for raw water for rosemaking according to the present invention. FIG.

The present invention consists of a raw water tank, a fertilizer concentrate tank, and a liquid-feeding system connected to the raw water tank and the concentrate tank for growing roses. The raw water supplied from the raw water tank is collected in a raw water filling tank and supplied to the fluid sucker. The nutrient solution is supplied to the crop of the crop tray after the concentrated liquid of the concentrate of the fertilizer is supplied and the nutrient solution is mixed with the raw water .

A raw water supply pump, which is a raw water supply device, is provided between the raw water tank and the raw water filling tank. An internal water level sensor is installed in the raw water filling tank. When the raw water filling tank is below a predetermined water level, The raw water is supplied from the raw water tank, and when the water level reaches a certain level, the sensor senses and stops the pump.

According to the present invention, the drainage drained in the crop tray is collected in the drainage collection tank, and when the water level reaches a certain level, the sensor senses and the drainage recovery pump operates to circulate the drainage from the drainage recovery tank to the raw water storage tank.

A drainage recovery pump, which is a drainage recovery device, is provided between the drainage tank for passing the drainage recovery water and a water level sensor for the drainage water is installed inside the drainage recovery tank. When the water level sensor reaches a certain level, the sensor detects the drainage recovery pump When the drainage is recovered from the drain recovery tank to the raw water filling tank and the water level is below a certain level, the sensor detects the pump and stops the pump.

On the other hand, the drainage drained in the crop tray is collected in the drainage recovery tank by the difference in natural water level because the position of the cropage tray is arranged higher than the position where the drainage recovery tank is located.

In the present invention, the nutrient balance of the culture medium is re-established in a fluid-feeding machine at a predetermined time. The concentration of the culture medium is 1.0-1.2 dS / m, and the concentration of the culture medium in the root portion is 1.8-1.2 dS / m.

Therefore, if the culture concentration of rosaceous root (drainage) drops to 1.8dS / m or less, the level of EC is adjusted to 1.2dS / m, and if the concentration of culture solution of rhizosphere (drainage) increases to 2.2dS / m.

In this way, it is desirable for the growth of the crop to maintain the concentration of the culture medium in the rhizosphere at a certain level, and if the increase or decrease is large, the crop is stressed.

On the other hand, the present invention sets the drainage rate to 30% for roses. The drainage rate refers to the amount of the crop absorbed and discharged when the culture medium is supplied to the crop, and does not mean that it is discharged outside the greenhouse.

If the drainage rate of the roses is less than 30%, the increase in EC of drainage (drainage) increases, and the possibility of moisture and salt stress is increased. If the drainage rate exceeds 30% .

On the other hand, the raw water filling tank capacity of the present invention is set to 3 t / 3, 300 m 2.

Soon, in the winter two times a day, in the summer, three times a day, the enemy tank is filled with raw water.

In addition, 20,000 rose plants are planted per unit area (3,300㎡), and the amount of water that the rose plants absorb during a day is about 5t (winter) to 10t (summer). In winter, 5 times a day, and in summer, 10 times a day. Therefore, the average supply capacity per year is 1t. Considering the case where the raw water filling tank is filled up to 3 times a day at most, the capacity of the raw water filling tank is 3t.

And the present invention treats raw water with 1 ppm of chlorine dioxide as a chemical sterilization method and performs this chlorine dioxide sterilization twice a month.

Soon, sterilize the raw water twice a month with chlorine dioxide treatment at a concentration of 1 ppm.

One of the most important parts in the circulation cultivation of roses according to the present invention is a disinfection problem. When the chlorine dioxide is added at a concentration exceeding 1 ppm or frequently treated more than twice a month, damage of crops due to chlorine is appeared and less than 1 ppm , The sterilization effect will not be maintained if it is less than twice a month.

In the meantime, in the present invention, when a problem arises in the raw water-filling circulation-type hydroponic cultivation system for rosewater, after turning off the power of the raw water supply pump 11 and the drain recovery pump 51, By switching to an acyclic hydroponic cultivation system,

The non-recycling hydroponic culture system comprises a raw water tank 10, a fertilizer concentrate tank 20 connected to the raw water tank 10, and a water tank 30 connected to the fertilizer concentrate tank 20, Wherein the raw water supplied from the raw water tank (10) is supplied to the fluids supplier (30), and the concentrate of fertilizer of the fertilizer concentrate tank (20) is supplied to the fluids supplier (30) And the nutrient solution are mixed and then supplied to the crop of the crop tray, and the drainage discharged from the crop tray is discharged to the outside.

Therefore, the present invention has a remarkable effect in that it is easy to use and economical because raw water and concentrate of fertilizer can be saved.

10: raw water tank 60: raw water filling tank
20: Fertilizer concentrated liquid tank 30:
50: drain recovery tank
11: raw water supply pump 51: drainage recovery pump
12: raw water level control sensor 52: drain level sensor

Claims (3)

A raw water tank 60 connected to the raw water tank 10, a fertilizer concentrate tank 20 and a raw water tank 10 and a fertilizer concentrate tank 20 connected to the raw water tank 10, The raw water supplied from the raw water tank 10 is collected in the raw water filling tank 60 and then supplied to the fluid absorber 30 by using the raw water charging circulation type hydroponic cultivation system for rosewater comprising the fluid supplier 30, The nutrient solution 30 is supplied with the concentrate of fertilizer of the concentrate tank 20 and supplied to the crop of the crop tray after the nutrient solution is mixed with the nutrient solution,
A raw water supply pump 11 as a raw water supply device is installed between the raw water tank 10 and the raw water filling tank 60. A raw water level control sensor 12 is installed in the raw water filling tank 60, When the raw water supply tank 11 is operated and the raw water is supplied from the raw water tank 10 and reaches a predetermined water level, the raw water level control sensor 12 And the raw water supply pump 11 is stopped,
After the drainage drained in the crop tray is collected in the drainage collection bucket 50 and the drainage level adjustment sensor 52 confirms that the drainage of the drainage collection bucket 50 becomes a certain level, In the raw water filling tank 60, the raw water is fed again to the crop and circulated,
Circulation type hydroponic cultivation system for the rose cultivation, the power supply to the raw water supply pump (11) and the drainage recovery pump (51) is shut off, and then the system is switched to a non-recycling hydroponic cultivation system, A fertilizer concentrate tank 20 connected to the raw water tank 10 and a liquid absorber 30 connected to the fertilizer concentrate tank 20 so that the raw water supplied from the raw water tank 10 And the nutrient solution 30 is supplied with the concentrate of the fertilizer of the concentrate tank 20 and supplied to the crop of the crop tray after the nutrient solution and the nutrient solution are mixed with each other, The drainage drained from the tray is discharged to the outside,
In addition, the nutrient balance of the culture medium is reset at a predetermined time in the fluid machine 30, and the concentration of the culture medium is 1.0 to 1.2 dS / m, and the concentration of the culture medium in the root portion is 1.8 to 2.2 dS / m For example,
When the concentration of the roots in the roots drops to 1.8 dS / m or lower, the level of EC is adjusted to 1.2 dS / m and the level of EC in the roots increases to 2.2 dS / m or higher. ,
The drainage rate for roses is set at 30%. The drainage rate means the amount of the crop absorbed and discharged when the culture medium is supplied to the crop. Also, the raw water is sterilized by using 1 ppm of chlorine dioxide, And a sterilization treatment is carried out twice a month. delete delete

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