KR20230104543A - Smart farm facility operation plant growth promotion system - Google Patents

Abstract

The present invention relates to a plant growth promotion system operating a smart farm facility, and more specifically, by improving the activity of water itself through provision of water rather than direct provision of cell activation technology by energy wave amplification to an object, It is about a plant growth promotion system for smart farm facility operation that dramatically improves the growth and development of plants with water supplied for cultivation.

Description

Smart farm facility operation plant growth promotion system}

The present invention relates to a plant growth promotion system operating a smart farm facility, and more specifically, by improving the activity of water itself through provision of water rather than direct provision of cell activation technology by energy wave amplification to an object, It relates to a plant growth promotion system for smart farm facility operation to help plants grow and develop with water supplied for cultivation.

As the distribution and export of food or agricultural and marine products increase, various storage and storage methods are being developed. It is believed that the original cells can be preserved for a longer period in the state of living seeds, and the preservation state can be maintained better by activating the cells. It is known.

The present applicant has conventionally provided free electrons and electromagnetic fields at a preset frequency through Korean Patent Registration Registration No. 10-1439196 "Cell Activation Food Preservation Device" to supply fine electric and magnetic field energy to food, thereby improving the quality of food. We have developed and received a patent for a cell-activating food preservation device to suppress the production of saturated fatty acids and ensure that energy is continuously maintained in an active state.

In addition, Patent Registration No. 10-1728803 developed a device for improving preservation based on cell water activation. This is based on the fact that all substances have their own unique energy waves, and that food, agricultural products, marine products, and livestock products have Generates and amplifies cell activation complex frequency waves that can be kept fresh for a long time by generating specific frequency waves so that moisture can be continuously activated by useful energy waves, then compounding and amplifying them and radiating them with specific electric and magnetic fields , developed a technology for delivery and received a patent registration.

Accordingly, the present inventors developed a plant growth accelerator among smart farm farm facilities by applying the technologies for activating water in cells by the energy wave amplification.

Republic of Korea Patent Registration No. 10-1728803 "Device for improving preservation based on activating cell water" Republic of Korea Patent Registration No. 10-1439196 "Cell Activation Food Preservation Device"

The present invention is to solve the above problems, by improving the activity of the water itself through the provision of water rather than the direct provision to the target body of the cell activation technology by energy wave amplification, and plants as water supplied for cultivation. It is to provide a plant growth promotion system for operating smart farm facilities to help the growth and development of

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, the plant growth promotion system for operating smart farm facilities according to an embodiment of the present invention includes an energy output line 200; water tank 300; In addition, an alternating current (AC/220V) power is received from the power distribution board 10 through the input power line 20 to generate an energy wave and transfer it to the water inside the water tank 300 through the energy output line 200, and the alternating current (AC / 220V) to the water tank 300 through the output power line 30, the energy output device 100; Including, the energy output device 100 improves the water activity of the water itself through the provision of water rather than the direct provision to the object of the cell activation technology by energy wave amplification, so that the plant is supplied with water supplied for cultivation. It is characterized by helping growth and development.

At this time, it may be characterized in that an LED floodlight 320 fixed to the inside of the lid 310 of the water tank 300 and installed facing the bottom of the water tank 300 is provided.

In addition, the power provided to the LED floodlight 320 may be characterized in that it is provided through an output power line 30 that supplies power in which an alternating current (AC/220V) power and an energy wave are combined.

In addition, it may be characterized in that the energy transmission conductor is immersed in the water tank 300, the outside is wrapped with a steel plate or wire, and then the energy transmission line is connected so that energy can be transmitted to the water.

The plant growth promotion system for smart farm facility operation according to an embodiment of the present invention enhances the water activity of the water itself through the provision of water rather than the direct provision of cell activation technology to the object by energy wave amplification, thereby promoting cultivation. It provides the effect of helping the growth and development of plants with the water supplied for the plant.

1 and 2 are diagrams showing a plant growth promotion system 1 operating a smart farm facility according to an embodiment of the present invention.
3 is a diagram showing a plant growth promotion system 1 operating a smart farm facility according to another embodiment of the present invention.
4 is a diagram showing a plant growth promotion system 1 operating a smart farm facility according to another embodiment of the present invention.
5 is a diagram for explaining the energy output device 100 in the plant growth promotion system 1 for smart farm facility operation according to an embodiment of the present invention in FIGS. 1 to 4.
6 is a diagram showing an expanded form of the plant growth promotion system 1 operating a smart farm facility according to an embodiment of the present invention.
7 to 11 are diagrams for explaining the effect of the plant growth promotion system 1 operating a smart farm facility according to an embodiment of the present invention.

Hereinafter, a detailed description of preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In the present specification, when one component 'transmits' data or signals to another component, the component may directly transmit the data or signal to the other component, and through at least one other component. It means that data or signals can be transmitted to other components.

1 and 2 are diagrams showing a plant growth promotion system 1 operating a smart farm facility according to an embodiment of the present invention. First, referring to Figure 1, the plant growth promotion system for smart farm facility operation (1) is an energy output line (200); water tank 300; In addition, an alternating current (AC/220V) power is received from the power distribution board 10 through the input power line 20 to generate an energy wave and transfer it to the water inside the water tank 300 through the energy output line 200, and the alternating current (AC / 220V) to the water tank 300 through the output power line 30, the energy output device 100; can include

Here, an LED floodlight 320 is provided inside the lid 310 of the water tank 300 and is installed facing the bottom of the water tank 300, and the power supplied to the LED floodlight 320 is The above-described alternating current (AC/220V) power and energy waves may be provided through an output power line 30 that supplies a combined power. In the present invention, the LED floodlight 320 provides a light wave for water to which an energy wave is provided to increase the molecular energy of water in proportion to the light wave, thereby increasing the energy activity of the water molecule and increasing the energy of the plant itself, thereby increasing the growth of plants. It plays a role of promoting growth, that is, the LED floodlight 320 can play a role of further increasing the energy activity of water molecules together with energy waves.

On the other hand, the number of energy output lines 200 branched for each water tank 300 is provided to provide energy waves to the water tanks 300 formed in plurality, and two inside each water tank 300. It can be formed in the form of branching into two again inside the water tank 300 so that each is connected to the formed energy transmission rod 330, so that the energy wave is transmitted to the inside of the water tank 300 through the energy transmission rod 330. It may be formed in a form connected to the inside of the water tank 300 so as to be able to do so.

Here, referring to FIG. 2 corresponding to another embodiment of the present invention, the energy transmission rod 330 is submerged into the water tank 300, and the energy transmission rod 330 is surrounded by a steel plate 340 outside. The energy wave provided through the energy output line 200 in a fixed form is provided through the energy transmission rod 330 fixed by the iron plate 340, and the water tank 300 of the energy wave through the iron plate 340 The area of the water in contact with the inside can be enlarged to improve the energy wave transmission efficiency.

In addition, in the present invention, a conductor for energy transmission may be immersed in the water tank 300, a steel plate or wire may be wrapped around the outside, and an energy transmission line may be connected so that energy may be transmitted to water.

3 is a diagram showing a plant growth promotion system 1 operating a smart farm facility according to another embodiment of the present invention. Referring to FIG. 3, the smart farm facility operation plant growth promotion system 1 promotes plant growth in the smart farm facility operation of FIGS. 1 and 2, except that a steel water tank 300a is formed instead of the water tank 300. It has the same configuration as the system.

The difference between the smart farm facility operation plant growth promotion system 1 of FIG. 3 and the system of FIGS. 1 and 2 is that the two energy output lines 200 branch into two on the outer surface of the steel water tank 300a. By connecting, the area of the water contacted inside through the steel water tank 300a is enlarged, and energy wave conduction efficiency can be improved.

Here, the quantitative value of the cross-sectional area of the six sides of the steel water tank 300a is formed larger than the quantitative value of the length of the energy transmission rod 330, and the energy wave is transmitted through the energy output line 200 to the inside of the steel water tank 300a. It is possible to provide a feature of allowing energy to be transmitted in the water while connecting the energy transmission rod 330 to the outside of the steel water tank 300a while improving the energy wave transmission efficiency by expanding the area of the contacted water.

4 is a diagram showing a plant growth promotion system 1 operating a smart farm facility according to another embodiment of the present invention. Referring to Figure 4, the smart farm facility operation plant growth promotion system 1 is the energy output line 200 as in the system of Figs. 1 to 3; water tank 300; And an energy output device 100 that generates an energy wave by receiving power of alternating current (AC/220V) from the distribution board 10 through the input power line 20 and transfers it to water through the energy output line 200; It is the same to include, but has a structure connected to the water supply pipe 600 of the vinyl house branching to both sides around the central switch of the vinyl house to deliver it to water through the energy output line 200, and the energy output device ( 100), the energy output device 100 can provide and control the flow fan 500 through the output power line 30 and the timer 400 of AC (AC/220V) power connected to the flow fan 500. .

Here, the position of the flow fan 500 may be formed by two adjacent energy output lines 200 connected to the water supply pipe 600 of the vinyl house branching to both sides around the center switch of the vinyl house.

Through this structure, the energy output device 100 not only provides energy waves to the water supply pipe 600 supplied into the greenhouse through the energy output line 200, but also communicates with the energy output device 100. Driving control of the flow fan 500 can be performed by setting the timer 400 for a time period in which the threshold temperature for each year or a preset period collected by a temperature sensor (not shown) inside the vinyl house rises above the threshold temperature.

On the other hand, FIG. 5 is a diagram for explaining the energy output device 100 in the plant growth promotion system 1 operating a smart farm facility according to an embodiment of the present invention in FIGS. 1 to 4. Referring to FIG. 5 , the energy output device 100 may include a primary energy wave generator 110, a secondary energy wave generator 130, and a tertiary complex wave generator and amplification unit 120.

Here, the primary energy wave generator 110 receives AC 220V power from the distribution board 10 through the input power line 20 corresponding to the 220V power input unit 1a through the noise filter 2, and the internal electric coil by generating an electromagnetic field. The primary energy wave generating unit 110 generates a preset frequency including an electromagnetic field energy wave along with an electric field generated from solid rare earth elements, and generates free electrons as current flows inside by the electromagnetic field.

Accordingly, the primary energy wave generator 110 transmits the generated energy wave of a preset frequency (hereinafter referred to as a first cell activation energy wave) to the tertiary complex wave generator and amplification unit 120 .

More specifically, the free electrons and electromagnetic fields generated by the primary energy wave generator 110 have the energy waves of the primary energy wave generator 110, and the tertiary complex wave generator and amplification unit 120 The first cell activation energy wave provided through the output terminal of the primary energy wave generator 110 is compounded, amplified, and radiated using the received free electrons and the electromagnetic field.

The tertiary complex wave generation and amplification unit 120 receives the flow of free electrons inside the primary energy wave generation unit 110 and the first cell activation signal. When the tertiary complex wave generation and amplification unit 120 receives the flow of free electrons, the AC output from the output power line 30 corresponding to the 220V power output unit 1b by the AC/DC conversion unit 3 DC 12V power is supplied according to the conversion of 220V power to DC 12V, and A low-frequency wave generator 121 and B generate low-frequency waves for the first cell activation energy wave received from the primary energy wave generator 110 It is preferable to receive the transmission to the unit 122 and the C low frequency wave generating unit 123, respectively.

Accordingly, the A low-frequency wave generating unit 121 generates the A low-frequency wave among the specified low-frequency waves A to C by presetting the first cell activation energy wave.

In the same way, the B low-frequency wave generating unit 122 generates the B low-frequency wave among the A to C low-frequency waves by using the first cell activation energy wave.

The C low-frequency wave generating unit 123 also generates the C low-frequency wave among the A to C low-frequency waves using the first cell activation energy wave in the same way.

Preferably, the low-frequency waves A, B, and C are 1.5 to 4.0 Hz, 6.5 to 9 Hz, and 500 to 560 Hz, respectively.

Thereafter, the low frequency pairing mixing unit 124 mixes the A to C low frequency waves to generate a cell-active complex frequency wave, and then transfers it to the complex wave amplification unit 125 .

On the other hand, the secondary energy wave induction unit 127 of the tertiary complex wave generation and amplification unit 120 generates energy waves by generating low-frequency energy waves (second cell activation energy waves) generated by the secondary energy wave generator 5. It is provided to the detection unit 128, where the low-frequency energy wave is preferably set to 0.1 Hz to 880 Hz.

To this end, when a weak energy wave generated from the mixed and liquefied functional solution by extracting preset components is excited through the bobbin, the secondary energy wave inducer 127 generates an electromagnetic field for the excited bobbin, Together with the electromagnetic field, a preset frequency (second cell activation energy wave) including an energy wave is generated, and the generated second cell activation energy wave is transmitted to the energy wave generation detection unit 128 .

Here, the mixed and liquefied functional solution is for extracting useful low frequencies by liquefying various materials, and as an embodiment of the present invention, a mixed solution of acetic acid, hydrogen peroxide, and various minerals can be used. The mixed and liquefied functional solution is a mixed solution It is stored in a container, and the tertiary complex wave generation and amplification unit 120 including the secondary energy wave induction unit 127 converts the waves generated from the mixed and liquefied functional solution into the second energy wave induction unit 127. Generates a cell activation energy wave.

Accordingly, as the energy wave generation detection unit 128 provides the second cell activation energy wave to the complex wave amplification unit 125, the complex wave amplification unit 125 pre-generated by the low frequency pairing mixing unit 124 After generating the second cell activation energy wave with the set cell activation complex frequency wave, the first cell activation energy wave and/or the second cell activation energy wave generated by the cell activation complex frequency wave are combined and amplified, and then the BNC connector ( Energy transfer is performed through the energy transfer unit 4 connected to the BNC connector 126.

With this configuration, a specific frequency is generated, compounded, and amplified to emit fine electric and magnetic fields to continuously activate the water contained in the water tank 300, the steel water tank 300a, and the pipe 600, and keep it for a long time. Water supplied for plant cultivation can help plants grow and develop.

In this case, when the material of the water tank is a non-conductive material such as FRP (Fiber Reinforced Plastics), the energy transmission rod may be directly immersed in water to directly transmit energy waves to the water in the water tank.

In addition, if the material of the water tank is made of a non-conductive material such as FRP, the outside of the water tank is covered with an iron plate or wire, and then one energy transfer rod is directly immersed in the water of the water tank.

The other one may be characterized in that it transmits energy waves to water by connecting to an external iron plate.

In addition, if the material of the water tank is made of a conductive material such as stainless steel or a general steel plate, the energy wave is transmitted to the water tank by connecting the energy transmission rod to two arbitrary points outside the water tank.

It can be characterized in that it is delivered to the water inside.

In addition, the energy transmission line is connected to the steel water supply pipe of the vinyl house to provide energy waves, and at a time when the temperature rises above the preset threshold temperature collected by the temperature sensor inside the greenhouse that communicates with the energy output device 100. It may be characterized in that the driving control for the floating fan is performed by setting a timer for the fan.

6 is a diagram showing an expanded form of the plant growth promotion system 1 operating a smart farm facility according to an embodiment of the present invention. Referring to FIG. 6, the smart farm facility operation plant growth promotion system 1 of FIGS. 1 to 4 may additionally include a network 700, a manager terminal 800, and a management server 900.

Here, the management server 900 is a low frequency pairing mixing unit 124 for the low frequency pairing mixing unit 124 of the energy output device 100 to generate A to C low frequency mixing waves through control of the manager terminal 800 A preset range for each A low-frequency wave, B low-frequency wave, and C low-frequency wave of A low-frequency wave generator 121, B low-frequency wave generator 122, and C low-frequency wave generator 123 provided by After receiving control commands from the network 700 at 4.0 Hz, 6.5 to 9 Hz, and 500 to 560 Hz and storing them as big data, the energy output device 100 includes control information for each A, B, and C low-frequency wave A wave adjustment control command may be transmitted.

To this end, the energy output device 100 preferably includes a network transmission/reception module, although not shown.

Thereafter, the management server 900 receives information on the plant variety from the manager terminal 800 through the network 700, extracts at least one of the growth period and fruit expression period for each plant variety, and extracts In addition to receiving and storing the frequency change and photographing information for each plant variety received from the manager terminal 800 on the expiration date of the final period, control information for each A, B, and C low frequency wave can also be stored for each adjustment time period. there is.

Thereafter, the management server 900 analyzes the collected data distributed and stored in the DCS DB by a distributed file program classified for each plant variety based on big data, and as a result of the analysis, each A, B, and C low frequency for each partial time of each period. The causal relationship with the growth promotion, which is the characteristic information according to the change of each A, B, and C low-frequency wave of the control information for the wave, is extracted, and the extracted causal relationship information is converted into the A, B, and C low-frequency wave information for each part time of each period. can be created with

Thereafter, the management server 900 pre-sets the A, B, and C low-frequency wave information for each partial time of each generated period and the A low-frequency wave, B low-frequency wave, and C low-frequency wave of each partial time zone of the manager terminal 800. Control commands are compared in each range of 1.5 to 4.0 Hz, 6.5 to 9 Hz, and 500 to 560 Hz, and information is extracted from big data in the case of an incorrect control command that is out of the preset error range, and the manager terminal (800) through the network (700) ) can perform the functions provided by

As shown in FIGS. 1 to 6, as distribution and export of food or agricultural and marine products increase, various storage and storage methods are being developed. It is known that the state of preservation can be maintained better.

The present applicant has conventionally provided free electrons and electromagnetic fields at a preset frequency through Korean Patent Registration Registration No. 10-1439196 "Cell Activation Food Preservation Device" to supply fine electric and magnetic field energy to food, thereby improving the quality of food. We have developed and received a patent for a cell-activating food preservation device to suppress the production of saturated fatty acids and ensure that energy is continuously maintained in an active state.

In addition, Patent Registration No. 10-1728803 developed a device for improving preservation based on cell water activation. This is based on the fact that all substances have their own unique energy waves, and that food, agricultural products, marine products, and livestock products have Generates and amplifies cell activation complex frequency waves that can be kept fresh for a long time by generating specific frequency waves so that moisture can be continuously activated by useful energy waves, then compounding and amplifying them and radiating them with specific electric and magnetic fields , is a technique for transmission.

Regarding the above techniques, the present inventors have improved the activity of water itself through the provision of water rather than the direct provision of the cell activation technique to the object by the energy wave amplification, thereby dramatically increasing the growth of plants. The increase in harvest period and production was confirmed in the greenhouse cultivation.

crop name Before system operation (960 pyeong)
(yield amount KG / harvest days) After system operation (1500 pyeong)
(yield amount KG, harvest days) strawberry 800/162 900/198 Lettuce 10,200/275 15,700/300

That is, as shown in FIGS. 7 to 11, the plant growth promotion system 1 for smart farm facility operation according to another embodiment of the present invention of FIG. 4 is installed and cultivated in strawberries, lettuce, eggplants, melons, and cherry tomatoes. Likewise, compared to the fruit on the left, the size of the fruit on the smart farm facility operating plant growth promotion system (1) on the right was significantly larger than the fruit on the left.

The present invention can also be implemented as computer readable codes on a computer readable recording medium. A computer-readable recording medium includes all types of recording devices in which data that can be read by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, etc. Also includes

In addition, the computer-readable recording medium is distributed in computer systems connected through a network, so that computer-readable codes can be stored and executed in a distributed manner. In addition, functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers in the technical field to which the present invention belongs.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they are only used in a general sense to easily explain the technical content of the present invention and help understanding of the present invention. However, it is not intended to limit the scope of the present invention. It is obvious to those skilled in the art that other modified examples based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

1: Plant growth promotion system for smart farm facility operation
10: distribution board
20: input power line
30: output power line
100: energy output device
200: energy output line
300: water tank
300a: steel water tank
400: timer
500: floating fan
600: water supply pipe
700: Network
800: manager terminal
900: management server

Claims (2)

energy output line 200; water tank 300;
In addition, an alternating current (AC/220V) power is input from the distribution board 10 through the input power line 20 to generate an energy wave and transmit it to the water inside the water tank 300 through the energy output line 200,
An energy output device 100 providing AC (AC/220V) power to the water tank 300 through the output power line 30; Including,
An LED floodlight 320 fixed to the inside of the lid 310 of the water tank 300 and installed facing the bottom of the water tank 300 is provided,
The energy output device 100 improves the activity of water itself through the provision of water rather than the direct provision of cell activation technology to the target object by energy wave amplification, thereby helping the growth and development of plants with water supplied for cultivation Smart farm facility operation plant growth promotion system, characterized in that to do.
The method of claim 1,
The energy transmission line is connected to the steel water supply pipe of the vinyl house to provide energy waves, and for the time zone where the temperature rises above the preset threshold temperature collected by the temperature sensor inside the greenhouse that communicates with the energy output device 100. Smart farm facility operation plant growth promotion system, characterized in that for performing the driving control for the flow fan through the timer setting.

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