KR200392369Y1 - System for supplying nutrient solution - Google Patents

Abstract

The present invention relates to a nutrient solution supply system, and more specifically, the nutrient solution is sucked into the flow of raw water and mixed with the raw water so that the nutrient solution supply can be controlled without having a separate tank for mixing raw water and nutrient solution and It relates to a nutrient supply system that can be irrigated and watered by zone according to the condition or the degree of crop growth.

The nutrient solution supply system according to the present invention, a raw water tank in which raw water is stored, at least one nutrient solution tank in which nutrient solution is stored, a transfer pipe connected to one end of the raw water tank so that raw water is discharged, and raw water is sucked from the raw water tank The nutrient solution is provided by a pump installed on the transfer pipe, a venturi pipe installed on the transfer pipe between the raw water tank and the pump, and a pressure difference generated by the flow of raw water through the venturi pipe. At least one nutrient solution suction tube connected to each of the nutrient solution tanks and each other end connected to each of the nutrient solution tanks so as to be discharged from the nutrient solution tank and flow through the venturi tube, and a solution in which the raw water and the nutrient solution are mixed A filter installed on the transfer pipe to filter the branch, a branch pipe connected to the other end of the transfer pipe, and each of the At least one discharge pipe connected to the ground or buried in the ground to discharge the mixed solution of the raw water and the nutrient solution introduced through the branch pipe to the soil, and a controller for controlling the operation of the pump. It is characterized by.

Description

Nutrient Supply System {SYSTEM FOR SUPPLYING NUTRIENT SOLUTION}

The present invention relates to a nutrient solution supply system, and more specifically, the nutrient solution is sucked into the flow of raw water and mixed with the raw water so that the nutrient solution supply can be controlled without having a separate tank for mixing raw water and nutrient solution and It relates to a nutrient supply system that can be irrigated and watered by zone according to the condition or the degree of crop growth.

A satisfactory nutritional condition is always maintained in crops, such as granular vegetables such as cabbage, lettuce, garland chrysanthemum, and stem vegetables such as tomatoes, cucumbers, pumpkins, watermelons, and root plants (root vegetables) such as carrots, potatoes, and sweet potatoes. Nutrients (elemental ingredients of each crop) or medicaments are evenly diluted and supplied to raw water (water) as much as possible. The nutrient solution is mainly supplied to the roots of crops that are diluted and cultivated when the raw water (water) is supplied. The conventional nutrient supply system mixes the raw water of the raw water tank and the nutrient solution of the nutrient solution tank in a separate mixing tank to feed the crops. It is configured to supply.

The uniform mixing of nutrient solution and raw water during fertilization is important for preventing the concentration of nutrient solution on farmland and for the even growth of crops. Conventional nutrient supply systems for supplying raw water and nutrient solutions in a mixing tank are advantageous for providing a uniform concentration of mixed solution, but have the disadvantage that additional equipment, such as a mixing tank, and hence maintenance must be followed.

In addition, the conventional nutrient solution supply system has a disadvantage in that the mixing ratio of the nutrient solution and the raw water can not be changed immediately according to the conditions, and after using all the mixed solution in the mixing tank, the mixed solution according to the changed mixing ratio is supplied.

The present invention is devised to solve the disadvantages of the conventional nutrient solution supply system as described above, the object of the present invention is to install a venturi pipe in the transfer pipe is sucked raw water by the pump and a hydraulic pressure difference formed in the venturi pipe By sucking and mixing the nutrient solution of the nutrient solution tank, it is not necessary to provide a separate mixing tank, and to provide a nutrient solution supply system that can immediately change the mixing ratio of the mixed solution when necessary.

In addition, another object of the present invention is to provide a nutrient solution supply system that can control the watering and pipe ratio by region according to the soil conditions and the degree of crop growth by installing a valve controlled by the controller in the pipe.

In order to achieve the above object, the nutrient solution supply system according to the present invention, a raw water tank in which raw water is stored, at least one nutrient solution tank in which nutrient solution is stored, and a transfer pipe connected to one end of the raw water tank so that raw water is discharged; A pump installed on the conveying pipe to suck and discharge the raw water from the raw water tank, a venturi pipe installed on the conveying pipe between the raw water tank and the pump, and each of the venturi tubes generated by the flow of raw water At least one nutrient solution suction pipe connected to each of the nutrient solution tanks and each other end connected to each of the nutrient solution tanks so that the nutrient solution is sucked from the nutrient solution tank and discharged to the raw water flowing through the venturi tube by the pressure difference. A filter installed on the transfer pipe to filter the mixed solution of raw water and nutrient solution, and the transfer pipe A branch pipe connected to the other end, at least one discharge pipe connected to the branch pipe and grounded or buried in the ground to discharge the mixed solution of raw water and nutrient solution introduced through the branch pipe into the soil, and the pump And a controller for controlling the operation.

In addition, the nutrient solution supply system according to the present invention, each of the nutrient solution suction pipe is provided with a flow meter and a flow control valve, the branch pipe is provided with a flow control valve, the controller is a flow control provided in each of the nutrient solution suction pipe and the branch pipe It is characterized by controlling the operation of the valve.

 Hereinafter, with reference to the embodiment shown in the drawings will be described in more detail the nutrient solution supply system according to the present invention.

1 is a block diagram conceptually showing a nutrient solution supply system according to an embodiment of the present invention.

Referring to the drawings, the nutrient solution supply system according to an embodiment of the present invention is a raw water tank (10), one end is connected to the raw water tank (10) and the transfer pipe 30, the venturi pipe 32 is installed, A nutrient solution suction pipe 21, one end of which is connected to the venturi tube 32, a nutrient solution tank 20 to which the other end of the nutrient solution suction pipe 21 is connected, and a pump 40 installed in the transfer pipe 30. And a controller 50, a branch pipe 60 connected to the outlet side end of the transfer pipe 30, a discharge pipe 70 connected to the branch pipe 60, and a controller for controlling the pump 40. And 80.

The raw water tank 10 is a container in which raw water is stored for watering or irrigation, and is usually stored and used in a tank primarily.

The nutrient solution tank 20 is a storage tank for storing one or more kinds of nutrient solution required for land or crops. The nutrient solution stored in the nutrient solution tank 20 is inside the venturi tube 32 through the nutrient solution suction tube 21 connected to the nutrient solution tank 20 and the venturi tube 32 installed on the transfer pipe 30. It is discharged into the flowing raw water and mixed with the raw water.

The transfer pipe 30 is a pipe through which one end is connected to the raw water tank 10 and the raw water sucked from the raw water tank 10 by the pump 40 passes. A venturi tube 32 is installed on the transfer pipe 30 so that the nutrient solution from the nutrient solution tank 20 is introduced into the transfer pipe 30 through the nutrient solution suction pipe 21 connected to the venturi tube 32. . The conveying pipe 30 is a rigid pipe material, it is important to maintain the airtight between the connection member according to the extension of the length and the strength to withstand a predetermined hydraulic pressure to induce the suction of the nutrient solution through the venturi tube (32) Required. Raw water is sucked into the transfer pipe 30 by the operation of the pump 40 installed on the transfer pipe 30 and discharged to the branch pipe 60 connected to the discharge port side of the transfer pipe 30. On the transfer pipe 30, a valve 31 for controlling the amount of raw water or opening and closing the flow of raw water is installed.

The nutrient solution suction pipe 21 is one end is connected to the venturi tube 32, the other end is connected to the nutrient solution tank 20 to suck the nutrient solution from the nutrient solution tank 20 to discharge to the transfer pipe 30 Piping to ensure that The nutrient solution suction tube 21 preferably has a diameter smaller than that of the transfer pipe 30 in order to improve the suction property due to the Venturi phenomenon, it is usually suitable to be manufactured using a soft hose.

On the other hand, the nutrient solution suction pipe 21 is connected to the flow meter 22 it is possible to detect the amount of nutrient solution sucked into the transfer pipe (30). In addition, the nutrient solution suction pipe 21 is connected to the flow rate control valve 23 to control the flow rate electronically by the signal sent from the controller 80 received a signal for the flow rate transmitted from the flow meter 22 of the soil Depending on the condition or crop, the necessary nutrient solution will be mixed.

On the other hand, the nutrient solution suction pipe 21 is provided with a small pressure pump 24 is installed to press the amount required to supplement the lack of water pressure when the suction of more than the amount of nutrient solution sucked by the water pressure difference of raw water It is possible to supply additional nutrient solution.

The pump 40 is a device installed on the transfer pipe 30 to suck and discharge the raw water from the raw water tank 10, and the venturi pipe of the transfer pipe 30 as well as the raw water by the flow of the raw water. Nutrient solution is introduced together through (32). In the inflow process, the raw water and the nutrient solution are evenly mixed, and the pump 40 discharges the mixed solution of the raw water and the nutrient solution to the filter 50.

The filter 50 is installed on the transfer pipe 30 to filter impurities of a predetermined size or more from a mixed solution of raw water and nutrient solution discharged from the pump 40. The mixed solution filtered by the filter 50 is evenly mixed and discharged into the branch pipe 60.

The branch pipe 60 is connected to the outlet side end of the transfer pipe 30 is a plurality of pipes for delivering the mixed solution passed through the filter 50 to the ground pipe or underground discharge pipe 70 buried in the ground It is preferably composed of two dogs and combined so as to be expanded as necessary. The drawing shows an embodiment in which a second branch pipe 60b is connected to two branched branches 60a, and a third branch pipe 60c is connected to each of the second branch pipes 60b.

The branch pipe 60 is provided with a flow rate control valve 61 for adjusting the amount of delivery and whether or not to deliver each branch pipe 60 is to adjust the flow rate delivered to each branch pipe.

The discharge pipe 70 is a pipe for finally discharging the mixed solution to the soil, and at least one or more flexible pipes or hoses that can be grounded or buried in the ground are suitable, and each pipe or hose is disposed at a predetermined interval. The hole is drilled so that the mixed solution is evenly discharged into the soil. The discharge pipe 70 is piped or buried in the soil at predetermined intervals according to the crop or soil, and the inlet side connected to the branch pipe 60 to adjust the delivery amount and delivery presence for each discharge pipe 70 according to the condition of the soil or the state of the crop. It is preferable that valves 71 can be provided in each.

The controller 80 controls the pump 40, the flow rate control valve 23 and the pressure pump 24 of the nutrient solution suction pipe 21, and the flow rate control valve 61 of the branch pipe 60. It is for. That is, the controller 80 controls the operation of the pump 40 to adjust the flow rate flowing into the transfer pipe 30, the nutrient solution intake pipe 21 according to the nutrient solution inflow amount sensed by the flow meter 22 Adjusting the operation of the flow rate control valve 23 installed on the upper, on the branch pipe 60 so that the appropriate amount of the mixed solution is delivered to each branch pipe 60 by adjusting the flow rate passing through the branch pipe (60) The operation of the installed flow control valve 61 is controlled.

The nutrient solution supply system according to the present invention by the configuration as described above by installing a venturi tube in the transfer pipe suctioned by the pump and mixing by suction of the nutrient solution of the nutrient solution tank with a hydraulic pressure difference formed in the venturi tube Not only does it need to be provided with a tank, it also has the advantage that the mixing ratio of the mixed solution can be changed immediately if necessary.

In addition, the nutrient solution supply system according to the present invention has the advantage that can be adjusted to the watering and pipe ratio by region according to the soil condition and the degree of crop growth by installing a valve controlled by the controller in the pipe.

The nutrient solution supply system described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is determined only by the matters described in the following Utility Model Registration Claims, and the embodiments of the present invention which have been improved and changed without departing from the gist of the present invention are obvious to those skilled in the art. As long as it is one of the protection scope of the present invention.

1 conceptually showing a nutrient solution supply system according to the present invention

<Short description of the major reference symbols>

10 raw water tank

20 Nutrient Tank

21 Nutrient Suction Pipe

30 Transfer piping

32 Venturi Hall

40 pumps

50 filter

60 branch pipe

70 discharge line

80 controller

Claims (2)

Raw water tank where raw water is stored, At least one nutrient solution tank for storing nutrient solution, A transfer pipe connected at one end to the raw water tank so that raw water is discharged; A pump installed on the transfer pipe to suck and discharge raw water from the raw water tank; A venturi pipe installed on the transfer pipe between the raw water tank and the pump, Each end is connected to each of the nutrient solution tanks so that the nutrient solution is sucked from the nutrient solution tank and discharged into the raw water flowing through the venturi tube by the pressure difference generated by the raw water flowing through the venturi tube. At least one nutrient intake tube connected to the venturi tube, A filter installed on the conveying pipe to filter the mixed solution of raw water and nutrient solution, A branch pipe connected to the other end of the transfer pipe, At least one discharge pipe connected to the branch pipe and piped to the ground or buried underground to discharge the mixed solution of raw water and nutrient solution introduced through the branch pipe to the soil, and And a controller for controlling the operation of said pump. The method of claim 1, Each of the nutrient solution suction pipes is provided with a flow meter and a flow control valve, The branch pipe is provided with a flow control valve, The controller is a nutrient supply system, characterized in that for controlling the operation of the flow control valve installed in each of the nutrient solution suction pipe and the branch pipe.