KR102079294B1 - Nutrient supply equipment of greenhouse cultivation crop - Google Patents

Abstract

The present invention relates to a nutrient solution supply device of crops cultivated in a greenhouse, which supplies a nutrient solution at the temperature for minimizing stress of crop roots cultivated when supplying a nutrient solution to crops cultivated in a greenhouse, and maximizes harvests as well as promotion of crop growth. The nutrient solution supply device of crops cultivated in a greenhouse comprises: a raw water tank which has a temperature adjusting means for adjusting the temperature of water and a water level adjusting means installed therein; a nutrient solution device which receives raw water from the raw water tank and liquid fertilizers from a liquid fertilizer tank, and mixes the raw water with the liquid fertilizer; and a nutrient solution supply means which receives a nutrient solution from the nutrient solution device to supply the same to crops cultivated in a crop cultivating means. The nutrient solution supply means has a nutrient solution supply pipe connected to the nutrient solution device and having a filter and a flowing meter installed in one side thereof. A plurality of nutrient solution branch pipes having a valve installed thereto are installed in an end portion of the nutrient solution supply pipes. A plurality of columns of nutrient solution supply local pipes are installed in an end portion of each nutrient solution branch pipe, and in a rear end portion of each nutrient solution supply local pipe, installed is a nutrient solution drainage pipe through which a nutrient solution staggered in the nutrient solution supply local pipes is discharged when exceeding a target temperature. In a discharging side of the nutrient solution supply local pipe or any one side of the nutrient solution drainage pipe, installed is a temperature sensor which senses whether the temperature of a nutrient solution in the nutrient solution supply local pipe or the nutrient solution drainage pipe exceeds or falls short of the target temperature.

Description

Nutrient supply equipment of greenhouse cultivation crop

The present invention by supplying the nutrient solution to the cultivated crops grown in the greenhouse to minimize the stress of the cultivated crop roots by supplying the nutrient solution to promote the growth of the crop, as well as maximize the harvest of the greenhouse crops It relates to a nutrient solution supply device.

In general, nutrient cultivation is also known as solution culture (Solution Culture) or hydroponic cultivation (Water Culture), is a method of cultivating the nutrients necessary for the growth of the crop in an aqueous solution.

Nutrient cultivation as described above includes hydroponic cultivation such as NFT (Nutrient Film Technique), immersion hydroponic, spraying, capillary hydroponic, etc. Apart from the supply of water, it may include tank farming and bed farming, which artificially create an environment in which crops are grown by using a solid medium.

Nutrient cultivation has the advantage of being able to cultivate a large amount of crops in a short period of time and cultivate even where it is impossible to farm because it is much less controlled by the natural environment than soil cultivation.

However, nutrient cultivation has no buffering capacity of the soil, so it is susceptible to changes in nutrient concentrations and pH, and requires cultivation management based on nutritional physiology and chemistry.

In particular, when feeding the nutrient solution to the crop, the temperature of the nutrient solution is required to minimize the stress on the root of the crop (15-25 °), so the temperature management of the nutrient solution is more important than anything else.

Recently, the summer temperature in our country is over 35 °, and thus the greenhouse temperature is over 40 °, and if the nutrient solution is supplied to the crop above 40 °, the root stress of the crop is severe, There is a problem that the yield is reduced and the resulting farm income is also affected.

Especially, when supplying nutrient solution with a temperature over 40 ° in a greenhouse for a certain period of time to the cultivated crop, the nutrient solution stagnated in the greenhouse is drained and the liquid fertilizer is mixed with the water of the raw water tank. Nutrient solution should be supplied to the crop.

However, there is no conventional technology for managing the temperature of the nutrient solution as described above has had a lot of difficulties in growing crops in the greenhouse in the summer.

Republic of Korea Patent Publication No. 10-2012-0109044 Republic of Korea Patent Publication No. 10-1456369

The present invention has been invented to solve the above problems, the object is to supply the nutrient solution to the cultivated crops grown in the greenhouse by supplying the temperature of the nutrient solution to minimize the stress on the root of the cultivated crops It is to provide a nutrient supply device for greenhouse crops that promotes growth and maximizes farm income by maximizing harvest.

The problem solving means configuration of the present invention for achieving the above object,
Raw water tank 100 is installed with a temperature control means 110 and a water level control means 120 for controlling the temperature of the water, the raw water is supplied from the raw water tank and the liquid ratio is supplied from the liquid fertilizer tank 300 to mix the raw water and the liquid ratio In the nutrient supply device of the greenhouse cultivation crop consisting of a nutrient solution supply unit 200 and the nutrient solution supply means 400 for supplying nutrient solution to the crops grown in the crop cultivation means 500 by receiving the nutrient solution from the nutrient solution,
The water level control unit 120 installed in the raw water tank, the first water level detection bar to stop the operation of the first pump (P1) when the water in the raw water tank reaches the highest target point to stop the water filling into the raw water tank ( 121) and the second water level detection bar 122 for replenishing the water in the raw water tank to the first water level detection bar by operating the first pump P1 due to lack of water in the raw water tank, and there is no water in the raw water tank. Consists of a third water level detection bar 123 to notify the sound or other signals,

The nutrient solution supply means 400 is connected to the nutrient solution and the nutrient solution supply pipe 410 is provided with a filter 420 and a flow meter 430 on one side, a plurality of valves 610 is installed at the end of the nutrient solution supply pipe Nutrient dispensing pipe 600 is installed, the nutrient solution supply pipe 700 of a plurality of rows is installed at the end of each nutrient solution distributor pipe, the nutrient solution stagnant in the nutrient solution supply pipe at the rear end of each nutrient solution supply pipe When the excess nutrient solution drainage pipe 800 is installed, either the discharge side of the nutrient solution supply pipe or the nutrient solution drainage pipe to detect whether the nutrient solution temperature of the nutrient solution supply pipe or the nutrient solution draining pipe exceeds or below the target temperature It is made by installing a temperature sensor (S).

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The nutrient solution supply device of the greenhouse crop according to the present invention having the configuration as described above can minimize the stress on the root of the crop crop in supplying the nutrient solution to the cultivated crop grown in the greenhouse as described above. In this way, it is possible to increase the farm income by maximizing the harvest as well as promoting the growth of crops.

1 is a schematic view showing a whole nutrient solution supply device of greenhouse crops according to the present invention,
Figure 2 is a schematic diagram showing the arrangement of the nutrient solution supply pipe in the nutrient solution supply device of greenhouse greenhouse crop according to the present invention,
Figure 3 is a side schematic view of the crop cultivation means in the nutrient solution supply of greenhouse crops according to the present invention,
Figure 4 is a nutrient supply device control block diagram of greenhouse crops according to the present invention.

The nutrient solution supply device of the greenhouse crop according to the present invention, when supplying the nutrient solution to the cultivated crop grown in the greenhouse, by supplying a nutrient solution at a temperature that can minimize the stress of the cultivated crop root, as well as promoting the growth of the crop, harvesting In order to maximize the, it will be described below with reference to the accompanying drawings an embodiment.

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1 is a schematic view showing the entire nutrient solution supply device of the greenhouse crop according to the present invention, Figure 2 is a schematic diagram showing the arrangement of the nutrient solution supply pipe in the nutrient solution supply device of the greenhouse crop according to the present invention, Figure 3 Is a side schematic view of the crop cultivation means in the nutrient supply device of the greenhouse crop according to the present invention, Figure 4 is a nutrient supply device control block diagram of the greenhouse crop according to the present invention.

The nutrient solution supply device of the greenhouse cultivation crop according to the present invention, as shown in Figure 1, the raw water tank 100 is installed with a temperature control means 110 and a water level control means 120 for adjusting the temperature of the water, and the raw water tank ( The raw water is supplied from the 100 and the liquid solution from the liquid fertilizer tank 300, the nutrient solution 200 is mixed with the raw water and the liquid ratio, and the nutrient solution is supplied from the nutrient solution 200 is cultivated in the crop cultivation means 500 It consists of a nutrient solution supply means 400 for supplying nutrient solution to the crop.

The raw water tank 100 is preferably filled with groundwater by the pumping of the first pump (P1), but may be filled by pumping tap water or other external water, if necessary.

The temperature control means 110 and the water level control means 120 is installed in the raw water tank 100, the temperature control means 110 is any one or both of the cooler 111 and the heater 112 is Is installed, the cooler 111 is to serve to cool the target temperature range (15-25 ℃) when the water temperature in the raw water tank 100 exceeds the target temperature, the heater 112 is the raw water tank If the water temperature in the 100 is less than the target temperature serves to heat to the target temperature range, the cooler 111 is mainly used in the summer, the heater 112 is mainly used in the winter.

And the water level adjusting means 120 is composed of a first water level detection bar 121, the second water level detection bar 122 and the third water level detection bar 123, the first water level detection bar 121 is raw water When the water in the tank 100 reaches the highest target point stops the operation of the first pump (P1) serves to stop the water supply to the raw water tank 100, the second water level detection bar 122 is the raw water tank Since the water in the 100 is insufficient to operate the first pump (P1) serves to replenish the water in the raw water tank 100 to the first water level detection bar 121, the third water level detection bar 123 is It plays a role of informing the sound or other signal that there is no water in the raw water tank 100, the first to third water level detection bar (121, 122, 123) is connected to the control unit (C) and controlled by the control unit (C) do.

In addition, the nutrient solution 200 is supplied to the raw water from the raw water tank 100 and received the liquid ratio from the liquid fertilization tank 300 to mix the raw water and the liquid ratio and to supply the nutrient solution to the nutrient solution supply means 400, such a nutrient solution The apparatus 200 may be used by installing a pH measuring sensor for measuring the pH of the mixer and nutrient solution supplied with the plurality of liquid ratios, if necessary, pH measuring sensor for measuring the pH of the mixer and nutrient solution It can also be used without installation.

When used without installing a pH measuring sensor for measuring the pH of the mixer and the nutrient solution, the amount of liquid supplied from the raw water tank 100 and the liquid ratio supplied from each liquid tank 300 and the pH water supply tank 310 When the amount of pH water is supplied in the required amount.

The reason why the pH measuring sensor is installed in the nutrient solution 200 is that, when the nutrient solution is supplied to the cultivated crop, the supply of the super acidic nutrient solution or the supply of the hyper alkaline nutrient solution adversely affects the growth of the crop. This is to check the pH that helps to adjust the pH to a concentration close to neutral.

In addition, the reason why the mixer is installed in the nutrient solution 200, the plurality of liquid ratio and the pH control water when the plural liquid tank 200 and the pH water supply tank 310 when entering the nutrient solution 200 This is to evenly mix the liquid ratio and pH control water of the species.

Meanwhile, a connection pipe is installed between the raw water tank 100 and the nutrient solution 200, and a second pump P2 is installed at the connection pipe so that the water in the raw water tank 100 is pumped by the second pump P2. And is supplied to the nutrient solution 200.

In addition, each connecting pipe is installed between the nutrient solution 200 and the plurality of liquid fermentation tanks 300 and a pump is installed in each of the connecting pipes so that the liquid ratio of each liquid fermentation tank 300 can be supplied to the nutrient solution 200. At this time, it is preferable to be supplied by the operation of the pump, but if necessary, the liquid fertilizer tank 300 may be installed higher than the nutrient solution 200 so that the liquid ratio may be automatically supplied to the nutrient solution 200.

The reason why the plurality of liquid fermentation tanks 300 is formed is to supply mixed liquid fertilizers to the cultivated crops by supplying various liquid fertilizers to the cultivated crops. This is to mix the different nutrient solution to supply to the crop.

On the other hand, each of the plurality of liquid fertilizer tank 300 is provided with a stirrer to prepare a liquid fertilizer by mixing the solid fertilizer and water when the solid fertilizer is dissolved quickly in water, of course, liquid fertilizer and Even when water is mixed, quick and even mixing is achieved.

The nutrient solution supply means 400 of the present invention is one end of the nutrient solution supply pipe 410 is connected to the nutrient solution 200 and the nutrient solution supply pipe 410 is formed of a filter 420 and the flow meter 430, the bar The reason why the filter 420 is installed is to filter foreign matters from the nutrient solution supplied from the nutrient solution 200, and the reason for installing the flow meter 430 is the nutrient solution distributor 600 through the nutrient solution supply pipe 410. This is to measure the amount of nutrient solution supplied to).

The nutrient solution distributor 600 is connected to a plurality of end portions of the nutrient solution supply pipe 400, a valve 610 is installed in each of the plurality of nutrient solution distributors 600, each valve 610 ) Is connected to the control unit (C) as a solenoid valve.

Also, as shown in FIG. 2, a plurality of rows of nutrient solution supply tubes 700 are installed at the ends of the nutrient solution distributors 600 for the purpose of quickly and evenly supplying nutrient solution to a wide range of cultivated crops.

When the nutrient solution supplied from the nutrient solution 200 to the nutrient solution supply means 400 is supplied to the nutrient solution supply pipe 700 of a plurality of rows through the nutrient solution distributor 600 at a time, the water pressure is weak and applied to all the crops. Since it is impossible to supply the nutrient solution evenly, the nutrient solution distributor 600 is sequentially supplied to each of the plurality.

This is done by a method for controlling the on / off time of the solenoid valve installed in each nutrient solution distributor (600), the on / off time control of the solenoid valve is made in the control unit (C).

1 and 2, the nutrient solution is supplied to the cultivation crop for 10 minutes to the nutrient solution supply pipe 700 of the first zone through the nutrient solution distributor 600 of the first zone. Turn off the solenoid valve of the nutrient solution distributor 600 of the first zone, and at the same time, turn on the solenoid valve of the nutrient solution distributor 600 of the second zone, and then feed the nutrient solution to the cultivated crop with the nutrient solution supply pipe 700 of the second zone. 10 minutes, then turn off the nutrient solution distributor (600) solenoid valve of the second zone, and at the same time turn on the solenoid valve of the nutrient solution distributor (600) of the third zone, then supply the nutrient solution to the third zone By supplying the nutrient solution to the cultivated crop for 10 minutes to the branch pipe 700, the nutrient solution is to be sequentially supplied to the cultivated crop in each zone.

Each solenoid valve control mentioned above is performed by the control part C shown in FIG.

In addition, the rear end of each of the nutrient solution supply pipe 700 is provided with a nutrient solution drainage pipe 800 for collecting and draining the drainage nutrient solution drained from the nutrient solution supply pipe 700, the exit or nutrient solution drainage pipe of the nutrient solution supply pipe 700 One side of the 800 is a temperature sensor (S) is installed.

The drainage nutrient solution drained to the nutrient solution drainage pipe 800 is to drain the nutrient solution stagnant in each of the nutrient solution supply pipes 700, which is mainly used in summer, and the nutrient solution supply pipe to supply the nutrient solution to the cultivated crop in the summer season. When the nutrient solution waiting at (700) has a high temperature in the greenhouse and becomes a temperature at which the temperature of the greenhouse is equal to that of the greenhouse, that is, a temperature adversely affecting the roots of the crop, the nutrient solution is drained and the water in the raw water tank 100 is drained. After supplying and mixing the liquid ratio of the liquid fermentation tank 300 to the nutrient solution 200 and cultivated by supplying the cultivation crop with a nutrient solution having a temperature comparable to that of the raw water tank 100, that is, a temperature that does not adversely affect the roots of the cultivation crops. Do not stress the roots of the crop.

On the other hand, by installing a temperature sensor (S) on either side of the nutrient solution supply pipe 700 or the nutrient solution drainage pipe 800, the nutrient solution temperature of the nutrient solution supply pipe 700 or the nutrient solution temperature of the nutrient solution drainage pipe 800 If the target temperature is higher than the nutrient solution of each of the nutrient solution distributor 600 and the nutrient solution supply pipe 700 through the nutrient solution drainage pipe 800 and the drainage of the temperature of the temperature sensor (S) reaches the target temperature The nutrient solution may be sequentially supplied to each of the zones through the nutrient solution supply pipes 700.

In addition, by installing a timer (T) in the nutrient solution drainage pipe 800, the nutrient solution drainage may be replaced with a certain amount of time drained by the timer (T) instead of the temperature detected by the temperature sensor (S).

On the other hand, the raw water tank 100 is to maintain the target temperature so that the temperature of the water does not always stress the root of the crop because the cooler 111 is installed.

In winter, the heater 112 heats the water in the raw water tank 100 to maintain the target temperature of the water temperature of the raw water tank 100 so as not to stress the roots of the cultivated crops.

"자 형상의 지지틀(510)이 마련되고, 그 지지틀(510)의 상부에는 내부에 작물재배토가 채워지고 하부에는 배수공이 형성된 재배토슬라브(520)가 안착되며, 상기 재배토슬라브(520)의 상부에는 작물이 심어진 포토(530)가 안착되고 상기 안착부(511)에 안착된 양액공급지관(700)에는 상기 작물로 양액을 공급하는 선단에 노즐(541)이 설치된 양액공급호스(540)를 일정간격으로 설치하여 된 것으로 이루어진다.Crop cultivation means 500 of the present invention has a seating portion 511 is formed on the lower one side, the nutrient solution supply pipe 700 is seated in the longitudinal direction on the lower side, the drainage passage along the longitudinal direction on the other bottom ( 512 formed "

"Shaped support frame 510 is provided, the top of the support frame 510 is filled with planting soil in the inside and the bottom of the planting slab 520 formed with a drain hole, the planting slab ( A nutrient solution supply hose having a nozzle 541 installed at the tip of the nutrient solution supply pipe 700 seated on the seating portion 511 is mounted on the top 520 of the crop planted on the top of the 520, the nutrient solution supply ( 540 is made by installing at a predetermined interval.

Since the nutrient solution supply pipe 700 is seated on the seating portion 511 of the crop cultivation means 500 configured as described above, the nutrient solution supply pipe 700 is protected, and the cultivation of crop cultivation soil is filled with the drainage channel 512. The nutrient solution that is drained through the drain hole formed in the lower portion of the cultivated toe slab 520 when the toslave 520 is over-humidified.

In addition, the crop planted photo 530 is stably supported by the cultivated soil slab 520.

And the end of the nutrient solution drainage pipe 800 is provided with a discharge tank for receiving and storing the drainage drainage drained through the nutrient drainage pipe 800 can be reused without discarding the drainage nutrient solution.

As described above, the nutrient solution supplying device for greenhouse crops provides the nutrient solution to the cultivated crops grown in the greenhouse, so that the temperature of the nutrient solution is adjusted to minimize the stress on the root of the crop, thereby promoting crop growth. In addition, there is an advantage in increasing farm income by maximizing harvesting.

100: raw water tank 110: temperature control means
111: cooler 112: heater
120: level control means 200: nutrient solution
300: liquid tank 310: pH water supply tank
400: nutrient solution supply means 410: nutrient solution supply pipe
420: filter 430: flow meter
500: crop cultivation means 510: support frame
511: seating portion 512: drainage
520: Planting Slavic 530: Photo
540: nutrient solution supply pipe 541: nozzle
600: nutrient solution hose 610: valve
700: nutrient solution supply pipe 800: nutrient solution drainage pipe
900: discharge tank
C: control unit P1, P2: pump
S: Temperature sensor T: Timer

Claims (8)

Raw water tank 100 is installed with a temperature control means 110 and a water level control means 120 for controlling the temperature of the water, the raw water is supplied from the raw water tank and the liquid ratio is supplied from the liquid fertilizer tank 300 to mix the raw water and the liquid ratio In the nutrient supply device of the greenhouse cultivation crop consisting of a nutrient solution supply unit 200 and the nutrient solution supply means 400 for supplying nutrient solution to the crops grown in the crop cultivation means 500 by receiving the nutrient solution from the nutrient solution,
The water level control unit 120 installed in the raw water tank, the first water level detection bar to stop the operation of the first pump (P1) when the water in the raw water tank reaches the highest target point to stop the water filling into the raw water tank ( 121) and the second water level detection bar 122 for replenishing the water in the raw water tank to the first water level detection bar by operating the first pump P1 due to lack of water in the raw water tank, and there is no water in the raw water tank. Consists of a third water level detection bar 123 to notify the sound or other signals,
The nutrient solution supply means 400 is connected to the nutrient solution and a nutrient solution supply pipe 410 is provided with a filter 420 and a flow meter 430 on one side, a plurality of valves 610 is installed at the end of the nutrient solution supply pipe Nutrient dispensing pipe 600 is installed, the nutrient solution supply pipe 700 of a plurality of rows is installed at the end of each nutrient solution distributor pipe, the nutrient solution stagnant in the nutrient solution supply pipe at the rear end of each nutrient solution supply pipe When the excess nutrient solution drainage pipe 800 is installed, either the discharge side of the nutrient solution supply pipe or the nutrient solution drainage pipe to detect whether the nutrient solution temperature of the nutrient solution supply pipe or the nutrient solution draining pipe exceeds or below the target temperature Nutrient supply device for greenhouse crops, characterized in that the temperature sensor (S) installed. The method of claim 1,
The temperature control means 110 installed in the raw water tank 100, the cooler 111 for cooling to the target temperature range when the water temperature in the raw water tank exceeds the target temperature and a heater for heating to the target temperature range (less than the target temperature) 112. A nutrient supply device for greenhouse crops, characterized in that any one or both of them are installed. delete The method of claim 1,
The liquid fermentation tank 300 is provided with a plurality of each to store a plurality of liquid fertilizers, greenhouse cultivation, characterized in that the pH water supply tank 310 for adjusting the pH of the nutrient solution in the adjacent position of the plurality of liquid fertilization tanks Nutrient supply of crops. The method of claim 1,
The nutrient solution supply device for greenhouse cultivation crops, characterized in that a pH measuring sensor for measuring the pH of the nutrient solution and the mixer to receive and mix a plurality of liquid ratio supplied. The method of claim 1,
The crop cultivation means 500 has a seating portion 511 is formed in which the nutrient solution supply pipe is seated along the longitudinal direction on one side of the lower side, the drainage passage 512 is formed along the longitudinal direction on the other side of the lower ".

"Shape support frame 510 is provided, the top of the support frame is filled with crop cultivation soil inside, the bottom of the cultivated soil slab 520 is formed, the top of the cultivated soil slab is placed The planted photo 530 is seated in the nutrient solution supply pipe seated on the seating portion is characterized in that the nutrient solution supply hose 540 is installed at a predetermined interval with a nozzle 541 at the tip for supplying nutrient solution to the crop Nutrient supply device for greenhouse crops. The method of claim 1,
The nutrient solution supply device for greenhouse cultivation crops, characterized in that the end of the nutrient solution drainage pipe 800 is provided with a discharge tank for receiving and reusing the nutrient solution drained through the nutrient drainage pipe. The method of claim 1,
The nutrient solution supply means 400 is provided with a nutrient solution supply pipe 410, one end of which is connected to the nutrient solution, and the nutrient solution supply pipe has a filter 420 for filtering foreign substances supplied from the nutrient solution, and the nutrient solution through the nutrient solution supply pipe. A nutrient supply device for greenhouse crops, characterized in that the flow meter for measuring the amount of nutrient solution supplied to the engine is installed.

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