KR20150106736A - Nutrient solution supply system of crops - Google Patents

Abstract

The present invention relates to a nutrient solution supply system, comprising: a raw water tank being supplied with raw water; a first pipe connected to the raw water tank and having a first filter for filtering foreign matters and having a first pump for controlling a liquid flow; a nutrient tank being supplied with a nutrient solution; a second pipe having a second filter connected to the nutrient tank and for filtering foreign matters, and having a second value for controlling a liquid flow; a nutrient solution controlling unit connected to the second pipe and for controlling a flow of a nutrient solution; a mixing tank into which raw water and a nutrient solution stored in the raw water tank and the nutrient solution tank, respectively, flow to be mixed and stirred and thereby, nutrients are stored therein; a third pipe for spraying nutrients stored in the mixing tank to crops; and a circulation value connected to the third pipe and for controlling a portion of nutrients flowing into the third pipe to flow back to the mixing tank. The present invention allows raw water and a nutrient solution, which flow to the mixing tank through the nutrient solution controlling unit and the circulation pipe, to be mixed and stirred while having a predetermined pressure such that raw water and a nutrient solution get mixed consistently, thereby a stirring time can be reduced, a pressure of a liquid flowing to the first, the second and the third pipe connected to the mixing tank can be controlled uniformly, thereby, a concentration of nutrients stirred in the mixing tank can be easily controlled, and accordingly there is an advantage in that a user is able to supply nutrients to crops easily.

Description

[0002] Nutrient solution supply system of crops [

The present invention relates to a nutrient solution supply system for a crop, and more particularly to a nutrient solution supply system for a crop, more specifically, By preventing nutrients from being discharged backward, nutrients can be properly supplied to crops, preventing damage to pipes and the like by preventing the load from being applied to pipes, etc., and supplying nutrients to crops .

Generally, in order to cultivate the crops while supplying the nutrients, the raw water and the nutrient solution are mixed in a mixed tank as disclosed in Korean Patent Laid-Open No. 10-2005-0012459, and the nutrients at a constant pH concentration are mixed with the crops through the solenoid valve .

However, even if the nutrients of a certain pH concentration are supplied at an accurate ratio through the solenoid valve as described above, the raw water and the nutrient solution stored in different tanks are mixed and stirred, and the piping connected to the mixing tank discharges nutrients to the outside Irregular pressure is generated in the piping or the mixed tank through the blocking of the flow of air to the inside of the mixing tank and the piping through which the nutrients are moved, so that the nutrients are not mixed properly or the raw water and the nutrient solution are mixed and stirred for a long time, There is a problem that a high load is generated by the piping.

Even if the flow of nutrients is controlled only by the solenoid valve, nutrients flow backward due to the flow velocity or pressure when the nutrients are discharged to the outside. As a result, the nutrients are not properly supplied to the crops, And the like are damaged.

A nutrient solution supply system for a crop according to the present invention comprises a raw water tank to which raw water is supplied, a first filter connected to the raw water tank for filtering out foreign matter, a first pump for moving the liquid and a first valve for controlling the flow of the liquid A second pipe connected to the nutrient solution tank and provided with a second filter for filtering the foreign matter and a second valve for controlling the flow of the liquid, and a second pipe connected to the nutrient solution tank, A mixed tank in which raw water stored in the raw water tank and the nutrient solution tank is mixed with nutrient solution and nutrients are mixed and stirred and nutrients are stored and a nutrient tank And a circulation pipe connected to the third pipe and having a circulation valve for controlling a part of the nutrients flowing to the third pipe to flow back to the mixing tank, The raw water and the nutrient solution flowing into the mixing tank through the nutrient control part and the circulation pipe are mixed and stirred with a constant pressure so that the raw water and the nutrient solution are constantly stirred and the stirring time can be reduced, , 2, and 3 pipes, the concentration of the nutrients to be stirred in the mixing tank can be easily controlled, and the user can conveniently supply the nutrients to the crops.

In the present invention, the raw water and the nutrient solution flowing into the mixing tank through the nutrient control part and the circulation pipe are mixed and stirred while having a constant pressure so that the raw water and the nutrient solution are constantly stirred and the stirring time can be reduced, The concentration of the nutrients to be stirred in the mixing tank can be easily controlled by controlling the pressure of the liquid flowing through the first, second and third pipelines uniformly, so that the user can conveniently supply the nutrients to the crops.

The nutrients are not properly controlled by the height difference between the ground and the mixing tank through the height control pipe and the auxiliary height control pipe connected to the third pipe, and it is possible to reduce the phenomenon that they are all flowed back to the soil or backward to the mixing tank, It is possible to reduce the damage of the crops by preventing the excessive nutrients from flowing into the crops, to prevent damage to the backwash phenomenon, and to prevent the concentration of the nutrients from affecting the user, so that the user can easily manage the crops and devices.

In addition, raw water and nutrient solution flowing into the mixing tank through the nutrient solution control unit and the third piping, nutrients mixed with the nutrient solution and the nutrient solution move at a constant pressure, and nutrients can be uniformly supplied to the crops. By mixing raw water and nutrient solution at a constant concentration, it is possible to help the growth of crops smoothly. Depending on the purpose of the user, the raw water and nutrient solution can be mixed with each other at every moment in the mixed tank in the mixed tank, And the nutrient solution can be supplied after the nutrient solution is mixed.

In addition, it is possible to easily control the flow of the nutrients flowing into the raw water, the nutrient solution, and the mixed tank introduced into the mixing tank, and to easily maintain each component connected to the mixing tank, Can be reduced, and the user can conveniently cultivate crops.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a nutrient solution supply system for a crop according to the present invention. FIG.
2 is a schematic view showing another embodiment of the third piping formed in the nutrient solution supply system of the crop according to the present invention.
3 is a schematic view showing another embodiment of circulation piping formed in the nutrient solution supply system of crops of the present invention.

In order to achieve the above object, the present invention is as follows.

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

1 to 3, the nutrient solution supply system 100 for a crop according to the present invention includes a raw water tank 10, a first pipe 20, a nutrient solution tank 30, a second pipe 40, (50), a mixing tank (60), a third pipe (70), and a circulation pipe (80).

First, the raw water tank 10 generally stores moisture to supply moisture to the crops, and the shape of the raw water tank 10 can be variously formed according to the user's purpose.

It should be noted that the raw water tank 10 can be selected and used in any form that is generally used at present, and the detailed description thereof will be omitted.

The first pipe 20 is connected to the raw water tank 10 at one side and is formed to flow the raw water stored in the raw water tank 10 and includes a first filter 21 for filtering out foreign substances contained in the raw water, A first pump 22 for smoothly flowing raw water and a first valve 23 for controlling the flow of raw water are combined.

Here, the first filter 21 acts to filter out foreign substances contained in the raw water and has a similar action to a filter generally used at present, and various types of filters can be appropriately selected and used according to the purpose of the user It is self-explanatory and the detailed explanation is omitted.

In addition, the first pump 22 can be selected from various pumps of various kinds generally used at present.

The first valve 23, which controls the flow of raw water, can be selected and used in any form according to the purpose of the user in a variety of ways and various shapes, such as an electrically operated or mechanically operated type .

In addition, the first auxiliary pipe 24 may be further combined with the first pipe 20 so as to more smoothly control the flow of raw water flowing through the first pipe 20.

Meanwhile, the nutrient solution tank 30 stores nutrients in order to provide various nutrients to the crops for smooth growth of the nutrient solution. Any nutrient solution such as the raw water tank 10 may be used.

It is obvious that the nutrient solution tank 30 can be set to one or more quantities so that the user can supply nutrient solutions of various kinds of crops, and detailed description thereof will be omitted.

The second pipe 40 is connected to the nutrient solution tank 30 so that the nutrient solution stored in the nutrient solution tank 30 flows and includes a second filter 41 for filtering the foreign substances contained in the nutrient solution, And a second valve (42) for controlling the flow of the nutrient solution discharged to the nutrient solution tank (30) is formed.

Here, the second filter 41 and the second valve 42 may be of any type, such as the first filter 21 and the first valve 23, depending on the purpose of the user.

The nutrient solution controller 50 is connected to the other side of the second pipe 40 and controls the nutrient solution flowing through the second pipe 40.

The nutrient solution controller 50 includes a static valve 51 for controlling the flow of the nutrient solution flowing through the second pipe 40 and a flow rate sensor 52 for sensing the nutrient solution flow rate through the static valve 51, And a venturi 53 for controlling the flow of the nutrient solution and the air introduced from the second pipe 40.

In addition, the venturi 53 controls the flow of liquid and air. The venturi 53 is generally used at present, such as a general vehicle or a boiler. Any venturi 53 may be used depending on the purpose of the user. And the detailed description thereof will be omitted.

A nutrient circulation pump 54 may be additionally provided to control the flow of the nutrient solution so that the nutrient solution flowing through the second conduit 40 can flow more smoothly.

In addition, when a user inputs various kinds of nutrient solutions into the nutrient solution control unit 50 by installing a plurality of nutrient solution tanks 30 in order to supply nutrient solutions of various kinds, the flow of the nutrient solutions can be controlled individually (Not shown in the figure) such as a solenoid valve (not shown in the figure), which can be additionally provided in accordance with the quantity of the nutrient solution, is obvious and will not be described in detail.

The other end of the first pipe 20 is connected to the mixing tank 60 and the raw water stored in the raw water tank 10 connected to the first pipe 20 flows into the mixing tank 60, And the other side is connected so that the nutrient solution stored in the nutrient solution tank 30 flows through the second conduit 40 and the nutrient solution control unit 50.

In the mixing tank 60, the raw water stored in the raw water tank 10 and the nutrient solution tank 30 is mixed with various kinds of nutrient solutions, mixed while stirring, and nutrients mixed with the raw water and the nutrient solution are stored.

Also, the mixing tank 60 may be of any type, such as the raw water tank 10 and the nutrient solution tank 30, depending on the purpose of the user.

One side of the third pipe 70 is connected to the mixing tank 60 so that the nutrients stored in the mixing tank 60 flow into the third pipe 70 to supply nutrients to crops for user's cultivation.

Here, when the nutrients are sprayed onto the other side of the third pipe 70, a spraying device (not shown) such as a nozzle (not shown) is connected so that the nutrients are more smoothly sprayed by the crops It is self-explanatory and the detailed explanation is omitted.

In addition, the other side of the third pipe 70 may be divided into a plurality of pieces so that nutrients can be supplied by a plurality of crops.

In addition, the third piping 70 is connected to the injection pump 71 so that the nutrients discharged from the mixing tank 60 can flow more smoothly, and the pH concentration of the nutrients discharged from the mixing tank 60 A pH electrode 72 and an EC electrode 73 capable of detecting electrical conductivity are coupled.

In addition, a pressure sensing part 74 for controlling the pressure of nutrients flowing to the third pipe 70 is coupled to the third pipe 70.

As shown in FIG. 2, the flow of nutrients is controlled to compensate for the height difference between the soil where crops are planted at any point of the third pipe 70 and the height of the soil of the soil where the mixing tank 60 is placed A height adjusting pipe 75 to which a height adjusting valve 75a capable of adjusting the height can be additionally connected.

In order to circulate a portion of the nutrients flowing through the third pipe 70 to the mixing tank 60 through the height control pipe 75 and the circulation pipe 80, An auxiliary height adjusting pipe 76 to which the adjusting valve 76a is coupled may be additionally formed.

When the height-adjusting pipe 75 is connected to the third pipe 75, the height of the height-adjusting pipe 75 is higher than that of the mixing tank 60.

It is obvious that the liquid moves from a high place to a low place, and a detailed description thereof will be omitted.

The circulation pipe 80 is connected to the third pipe 70 and the other is connected to the mixing tank 60 so that a portion of the nutrients injected into the third pipe 70 through the third pipe 70 can be re- A circulation valve 81 for controlling the flow of nutrients to be circulated to the circulation valve 60 is connected.

3, when the nutrients flowing through the third pipe 70 flow into the circulation pipe 80, the third pipe 70 is connected to the mixing tank 60 to smoothly flow into the mixing tank 60, It is preferable to further connect the auxiliary circulation pipe 82 coupled with the auxiliary circulation valve 82a for controlling the flow of nutrients that can keep the pressure of the nutrients flowing through the auxiliary circulation valve 82a constant.

The first valve 23 formed in the first pipe 20, the second valve 42 formed in the second pipe 40, the valve 51 formed in the nutrient solution control unit 50, The height regulating valve 75a, the auxiliary height regulating valve 76a and the circulation valve 81 and the auxiliary circulation valve 82a formed in the circulation pipe 80 may be connected to any of the valves Or any of various types of valves may be selected and used.

In addition, the first pump 22 of the first pipe 20, the nutrient solution circulation pump 54 of the nutrient solution control unit 50, and the injection pump 71 of the third pipe 70, Any of the commonly used pumps may be used.

Hereinafter, the operation according to the preferred embodiment of the present invention will be described.

First, the user stores water in the raw water tank 10 to give nutrients to the crops, and the nutrient solution tank 30 stores various kinds of nutrients the user wants to supply as crops.

When the nutrients are supplied to the crops, the raw water stored in the raw water tank 10 flows to the first pipe 20.

The first pump 22 coupled to the first pipe 20 operates to allow the raw water stored in the raw water tank 10 to flow through the first filter 20 easily while flowing into the first pipe 20 .

When the raw water passes through the first filter 21, the foreign substances contained in the raw water are filtered, and the raw water from which the foreign matter is removed flows into the mixing tank 60.

The raw water flowing through the first pipe 20 flows into the mixing tank 60 while the flow rate and the amount of the raw water flowing through the first pipe 20 are controlled by the first valve 23.

A first auxiliary valve 24 is formed in the first pipe 20 so that the amount of raw water flowing through the first pipe 20 and the flow rate of the raw water flowing into the first pipe 20 can be easily controlled to flow into the mixing tank 60 do.

When the raw water flows through the first pipe 20, the order in which the raw water passes through the second filter 21, the first valve 23, and the first auxiliary valve 24 may vary according to the purpose of the user Can be set.

Raw water flows into the mixing tank 60 from the raw water tank 10 and the nutrient solution stored in the nutrient solution tank 30 flows into the mixing tank 60 in the nutrient solution tank 30 as described above.

To explain this in detail, the user stores one or more nutrients in the nutrient solution tank 30 in accordance with various kinds of nutrients to supply the nutrient solution to the crops.

Then, the nutrient solution stored in the nutrient solution tank 30 flows through the second pipe 40, passes through the second filter 41 connected to the second pipe 40, and the foreign matter contained in the nutrient solution is filtered State.

The nutrient solution flowing through the second pipe 40 flows through the second valve 42 while controlling the flow rate and the flow rate.

In addition, the order of the second filter 41 and the second valve 42 through which the nutrient solution flowing through the second pipe 40 passes may be variously selected according to the purpose of the user.

The nutrient solution flowing through the second pipe 40 flows through the static valve 51 of the nutrient control part 50 while the flow rate and the flow rate are controlled and flows through the nutrient control part 50 And the flow rate of the nutrient solution flowing into the mixing tank 60 is sensed.

The user can control the amount of the nutrient solution flowing into the nutrient solution controller 50 and the flow rate by controlling the static valve 51 according to the value detected by the flow sensor 52.

Then, the nutrient solution flowing through the flow rate sensing unit 52 flows to the venturi 53.

Then, the pressure of the nutrient solution flowing into the venturi 53 is regulated so that the nutrient solution flows into the mixing tank 60 from the nutrient solution controller 50 while maintaining a constant pressure and flow rate.

In addition, in order to supply various kinds of nutrient solutions to the crops, a user may install a plurality of nutrient tanks 30 in the nutrient solution tank 30 and transfer the nutrient solution from the nutrient solution tank 30 to the nutrient solution control unit 50 through the second pipe 40 The amount of the nutrient solution flowing into the mixing tank 60 can be adjusted by the nutrient solution controller 50. [

For example, if a nutrient solution, b nutrient solution, and c nutrient solution are stored in the three nutrient tanks 30 and flow into the nutrient solution controller 50 through the second conduit 40, The nutrient solution is controlled so that only about 50cc is introduced into the mixing tank 60. The b nutrient solution is controlled so that only 100cc is introduced into the mixing tank 60 and the c nutrient solution is fed so that only 10cc is fed into the mixing tank 60 Control.

This may be accomplished by attaching a solenoid valve or the like which is currently generally used in the nutrient solution controller 50 according to the purpose of the user and controlling the flow of the nutrient solution as described above.

In addition, the nutrient solution circulation pump 54 is formed in the nutrient solution control unit 50, so that the nutrient solution flowing from the nutrient solution tank 30 to the nutrient solution control unit 50 can flow more smoothly into the mixing tank 60.

Meanwhile, when the raw water and the nutrient solution flow into the mixing tank 60 from the raw water tank 10 and the nutrient solution tank 30, raw water and nutrient solution are mixed and stirred in the mixing tank 60, Lt; / RTI >

Here, the concentration of the nutrients according to the amount of the constant and the amount of the nutrients can be set to any value according to the purpose of the user, and a detailed description thereof will be omitted.

Also, the nutrient solution circulation pump 54 increases the pressure of the nutrient solution, flows into the mixing tank 60, and the raw water and the nutrient solution are smoothly mixed and agitated in the mixing tank 60 to stir the nutrient solution and the nutrient solution. The circulation efficiency of the raw water and the nutrient solution is increased in the mixing tank 60 so that the raw water and the nutrient solution can be mixed more smoothly.

As described above, nutrients mixed and stirred in the raw water and the nutrient solution in the mixing tank 60 flow to the third pipe 70 connected to the mixing tank 60 to be supplied to the crop as set by the user.

At this time, the nutrient discharged from the mixing tank 60 flows smoothly through the third pipe 70 while the jet pump 71 connected to the third pipe 70 is operated, It is sprayed.

The nutrient flowing through the third pipe 70 passes through the pH electrode 72 and the EC electrode 73 connected to the third pipe 70 and detects the concentration and the electrical conductivity of the nutrient, And outputs it so that the user can visually confirm it.

Then, the user can easily check the concentration of nutrients by checking the values detected by the pH electrode 72 and the EC electrode 73.

The pressure sensing unit 74 coupled to the third pipe 70 senses the pressure of the nutrients flowing through the third pipe 70 and outputs a value of the nutrient, The nutrients flowing through the third pipe 70 are easily discharged while maintaining a constant pressure.

The sequence of the injection pump 71, the pH electrode 72, the EC electrode 73, and the pressure sensing unit 74 through which the nutrients flowing through the third pipe 70 flows can be changed as much as the user desires It is self-explanatory, and detailed explanation is omitted.

In addition, when nutrients are supplied to the crops through the third pipe 70, the difference in height between the soil in which the crops are planted and the mixing tank 60 or the third pipe 70 may occur, This can lead to backflow of nutrients or poor supply.

The mixing tank 60 is connected to the third pipe 70 through a height adjusting pipe 75 which is higher than the water level of the mixing tank 60, The nutrients are discharged to the outside of the third pipe 70 only by the force generated when the injection pump 71 of the third pipe 70 connected to the tank 60 is operated, It is possible to reduce the waste of nutrients while supplying nutrients to the crops smoothly.

The height regulating valve 75a coupled to the height regulating pipe 75 discharges air that may be contained in the nutrient flowing through the height regulating pipe 75 or controls the flow rate or flow rate of nutrients, The nutrients can easily flow into the height-adjusting pipe 75.

The pressure or flow rate of the nutrient flowing into the height control pipe 75 through the auxiliary height control pipe 76 connected to the height control pipe 75 at one side and connected to the circulation pipe 80 at the other side So that it can be smoothly adjusted.

This has the same effect as the auxiliary circulation pipe 82 connected to the circulation pipe 80 to be described later.

In addition, as described above, the auxiliary height control valve 76a is also formed in the auxiliary height control pipe 76, so that the air contained in the nutrients flowing through the auxiliary height control pipe 76 through the auxiliary height control valve 76a The nutrients can be easily moved to the circulation pipe 82 while flowing through the auxiliary height control pipe 76. [0064] As shown in FIG.

In other words, when the ground on which the crops are planted is relatively low, the nutrients stored in the mixing tank 60 and the third pipe 70 flow in the direction of the ground due to gravity or the influence of the siphon, The auxiliary height regulating valve 76a coupled to the auxiliary height regulating pipe 76 is operated so that the air in the height regulating pipe 75 or the auxiliary height regulating pipe 76 To reduce the internal pressure of the height control pipe 75 or the auxiliary height control pipe 76 so as to prevent the nutrients from being discharged to the outside.

On the other hand, if the ground on which the crops are planted is relatively high, the liquid remaining in the third piping 70, the circulation piping 80, etc. may flow back to the mixing tank 60 after the supply of the nutrients to the crops is completed The amount of air in the height adjusting pipe 75 is adjusted through the height adjusting valve 75a coupled to the height adjusting pipe 75 to adjust the internal pressure of the height adjusting pipe 75 The nutrients remaining in the third pipe 70, the circulation pipe 80, and the like are prevented from flowing back to the mixing tank 60.

By preventing the waste of nutrients supplied to the crops and the reflux phenomenon through the height control pipe 75 and the auxiliary height control pipe 76 as described above, the load on each of the components is not given, and the raw water, the nutrient solution, Mixed nutrients flow smoothly.

Meanwhile, when nutrients are injected into the crop through the third pipe 70, part of the nutrients flowing through the third pipe 70 is connected to the third pipe 70 and the other is connected to the mixing tank 60 And flows to the connected circulating pipe 80.

Herein, the circulation pipe 80 reduces the waste of nutrients discharged to the third pipe 70, and part of the nutrients flowing through the third pipe 70 flows into the mixing tank 60 again to return to the mixing tank 60 So that the load due to the flow rate of the nutrients is transferred to the third pipe 70 so that the third pipe 70 is not damaged The portion of the nutrient pressure applied to the third pipe 70 is divided by the circulation pipe 80. [

The circulation valve 80 connected to the circulation pipe 80 discharges the air remaining in the circulation pipe 80 or controls the flow so that the pressure or flow rate of the nutrient flowing through the circulation pipe 80 So that the nutrients can easily flow from the circulation pipe 80 to the mixing tank 60.

When a portion of the nutrients is introduced into the circulation pipe 80 from the third pipe 70, the pressure applied to the nutrients is increased by the amount of air in the circulation pipe 80 or the length of the circulation pipe 80 So that the nutrients can be prevented from flowing into the mixing tank 60 properly.

The auxiliary circulation valve 82a is connected to an arbitrary point of the circulation pipe 80 so that the nutrient or air flowing in the circulation pipe 80 bypasses the circulation pipe 80 and then flows into the circulation pipe 80. [ The air contained in the auxiliary circulation pipe 82 is discharged to the outside through the auxiliary circulation valve 82a and the flow of nutrients is controlled while allowing some nutrients to flow through the circulation pipe 82, The pressure of the nutrients flowing through the auxiliary circulation pipe 82 can be easily controlled and the flow rate and pressure of the nutrients flowing through the circulation pipe 80 connected to the auxiliary circulation pipe 82 can be controlled simultaneously, The nutrient flowing through the mixing tank 82 flows easily while maintaining a constant pressure and the nutrient flowing back into the mixing tank 60 maintains a constant pressure so that mixing and stirring operations in the mixing tank 60 are facilitated While increasing the stirring speed it is possible to shorten the working hours stirring.

The load caused by the pressure of nutrients injected from the mixing tank 60 is dispersed in the third pipe 70 and the circulation pipe 80 so that the load due to the pressure of the fluid can be reduced. And the circulation pipe 80 can be prevented from being damaged or broken.

By controlling the pressure and the like with respect to the flow of the liquid through the nutrient solution control unit 50, the third pipe 70 and the circulation pipe 80, it is possible to smoothly flow the raw water, nutrients and nutrients, The raw water and the nutrient solution can be easily mixed in the raw water and the nutrient solution at the ratio set by the user and the nutrient waste and the backward flow can be prevented and the load transferred to each structure can be minimized.

In addition, when the raw water and the nutrient solution are mixed, the liquid contained in the third pipe 70, the circulation pipe 80, and the like is discharged or sucked to adjust the internal pressure constantly, It will be possible.

Although the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have knowledge of.

10: Fuel tank
20: First piping
21: first filter 22: first pump
23: first valve 24: first auxiliary valve
30: Nutrient solution tank
40: Second piping
41: second filter 42: second valve
50:
51: a control valve 52:
53: Venturi 54: Fluid circulation pump
60: Mixing tank
70: Third piping
71: injection pump 72: pH electrode
73: EC electrode 74: Pressure sensing part
75: height adjustment pipe 75a: height adjustment valve
76: auxiliary height adjusting pipe 76a: auxiliary height adjusting valve
80: Circulating piping
81: circulation valve 82: auxiliary circulation tube
82a: auxiliary circulation valve
100: nutrient supply system of crops

Claims (7)

A raw water tank 10 to which raw water is supplied;
A first filter (22) connected to the raw water tank (10) and configured to filter out foreign substances, a first filter (22) for moving the liquid and a first valve (23) 20);
A nutrient solution tank 30 to which nutrient solution is supplied;
A second pipe (40) connected to the nutrient solution tank (30) and having a second filter (41) for filtering out foreign matter and a second valve (42) for controlling the flow of liquid;
A nutrient solution controller (50) connected to the second pipe (40) and controlling the flow of the nutrient solution;
A mixing tank 60 in which raw water and nutrient solution stored in the raw water tank 10 and the nutrient solution tank 30 are mixed and mixed and stored while nutrients are stored therein;
A third pipe (70) for injecting the nutrients stored in the mixing tank (60) into crops;
And a circulation pipe 80 connected to the third pipe 70 and having a circulation valve 81 for controlling part of the nutrients flowing into the third pipe 70 to flow back to the mixing tank 60 Nutrient supply system for crops with characteristics.
The nutrient solution supply system for a crop according to claim 1, characterized in that the first piping (20) is further formed with a first auxiliary valve (24) which can control the flow of liquid.
The nutrient solution according to claim 1, wherein the nutrient solution controller (50) comprises a static valve (51) for controlling the flow of the nutrient solution flowing through the second pipe (40), a flow rate sensing part (52) And a venturi (53) controlling the flow of the nutrient solution.
The nutrient solution supply system according to claim 1, wherein the nutrient solution control unit (50) further comprises a nutrient solution circulation pump (54) so that the nutrient solution flowing into the mixing tank (60) .
The method according to claim 1, wherein the third pipe (70) is provided with an injection pump (71) capable of spraying nutrients smoothly with a crop, a pH electrode (72) capable of measuring the pH concentration of nutrients, And a pressure sensing part (74) for sensing the pressure of the flow amount.
The method according to claim 1, wherein the third pipe (70) is provided with a height control pipe (75) having a height control valve (75a) for controlling the height difference between the ground where the crop is planted and the mixing tank And an auxiliary height adjusting pipe 76 connected to the height adjusting pipe 75 and the circulating pipe 80. The auxiliary height adjusting pipe 76a is connected to the height adjusting pipe 75 and the circulating pipe 80. [
The nutrient solution supply system for a crop according to claim 1, wherein an auxiliary circulation pipe (82) having an auxiliary circulation valve (82a) is connected to the circulation pipe (80).

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