KR20130130202A - System and method for lightning environment of greenhouse - Google Patents

Abstract

The present invention relates to a lightening system and a controlling method to promote an acceleration of a growth and a qualitative improvement of a crop through an artificial light source besides the natural light source in a cultivation of the crop inside the greenhouse, and more particularly adjusting the light source in order to provide the optimum intensity of radiation through the artificial light source thereby making the optimal greenhouse environment. The present invention provides an effect to promote the acceleration of the growth more efficiently by using LED artificial light source in the greenhouse. Furthermore, the present invention calculates the accurate intensity of radiation which is needed for crop, and determines the suitable kind, brightness and irradiation time by facilitating the dimming control of the LED artificial light source, and getting the intensity of radiation through the intensity of illumination. Additionally, the present invention has the effect to save energy by reducing the use of electricity through the dimming control of the LED artificial light source.

Description

Greenhouse optimal lighting system and its control method {System and method for lightning environment of greenhouse}

The present invention relates to a lighting system and a control method for promoting the growth and quality improvement of crops through artificial light sources in addition to natural light sources in the cultivation of crops in a greenhouse, and more particularly, the optimal amount of light through artificial light sources. The present invention relates to an apparatus and a method for creating an optimal greenhouse environment by adjusting it to be provided.

In general, greenhouses are used to increase yields, grow non-season crops, and to produce quality crops. Currently, such greenhouses are being applied to remote monitoring using the Internet, short-range wireless communication technology, and sensing technologies that can measure the growth environment of various greenhouses, and greenhouse monitoring and management systems that can manage the environment. to be.

Such conventional greenhouse monitoring and management systems apply short-range wireless communication between sensor modules measuring a growing environment in a greenhouse, and are connected to a remote manager through a wired internet network through a local area network or a telephone line.

One of the main parts of this greenhouse management system is the provision of artificial light sources. In relation to artificial light sources, the wavelength of light in a specific band is influenced in plant cultivation. For example, in the case of blue light, stems and roots grow thicker, and in particular, the roots are thickened and the inner roots are increased. Chlorophyll is produced by promoting the growth of stems and acts on photosynthesis. Yellow and far-infrared color are known to be effective for insects. Conventionally, incandescent lamps, fluorescent lamps, sodium lamps, etc. have been used to compensate for the insufficient amount of light or to provide proper growth conditions for flowering control, coloring, etc. However, these lighting fixtures are mixed with light in all wavelength bands such as infrared and ultraviolet rays other than visible light. If the wavelength of a specific band is needed, it also irradiates unnecessary wavelengths together.

However, since LEDs use modules that emit only necessary wavelengths such as red, blue, green, yellow, and far infrared, a method of providing optical environment requirements using them is being researched and developed.

According to the use of LEDs up to now, this is merely a level of ON / OFF control, there is a problem that provides excessive or insufficient light amount to the crop. This also leads to unnecessary energy consumption.

An object of the present invention is to provide an illumination system and a control method for promoting growth more efficiently in utilizing an LED artificial light source in a greenhouse.

In addition, the present invention is to enable the dimming control of the LED artificial light source, to determine the amount of light by the illuminance sensor, to calculate the exact amount of light required for crops, and to determine the type, brightness and irradiation time suitable for this light source It is an object to provide a system and a control method thereof.

In addition, an object of the present invention is to provide an illumination system and a control method thereof that can save energy by reducing the amount of electricity through the dimming control of LED artificial light source.

The configuration of the present invention for achieving the above object, the light environment sensor unit for detecting the light environment data in the greenhouse; A detection data storage unit for storing optical environment data detected by the optical environment sensor unit; A control unit for comparing the detected data with the setting data and controlling the light according to a necessary light environment; And an LED lighting device which is operated under the control of the control unit and irradiates light according to a necessary light environment in the greenhouse.

The optical environment sensor unit includes an illuminance sensor, the detection data includes illuminance data, and the control unit compares the irradiation light amount according to the illuminance data with the setting data.

An LED light emitting unit including an LED element; And an LED controller for selecting and controlling the LED device for each wavelength of the LED light emitting unit.

The LED light emitting unit is characterized in that the brightness is adjusted according to the dimming control.

The pulse width modulator further comprises a pulse width modulator. The pulse width modulator may adjust the luminance of the LED light emitting part in a pulse width modulator according to the control of the controller.

In addition, the lighting system control method according to the light environment in the greenhouse, comprising: 1) collecting light environment measurement information in the greenhouse in real time by the light environment sensor; 2) storing the detection data measured by the optical environment sensor unit in a detection data storage unit; 3) comparing preset data with the detection data by the controller; And 4) on / off control of the lighting device and dimming the brightness when there is a necessary amount of light according to the comparison.

Under the control of the controller, the pulse width modulator is characterized in that for controlling the lighting device by a pulse width modulation method.

The present invention is effective in promoting growth in utilizing the LED artificial light source in the greenhouse more efficiently.

In addition, the present invention is to enable the dimming control of the artificial LED light source, to determine the amount of light by the illuminance sensor, to calculate the exact amount of light required for the crop, and to determine the type, brightness and irradiation time of the light source suitable for this It works.

In addition, the present invention through the dimming control of the artificial LED light source, has the effect of reducing the energy consumption to save energy.

1 is a view showing a greenhouse structure according to the present invention.
2 is a view showing the configuration of a greenhouse management system according to the present invention.
3 and 4 are views showing the configuration of the greenhouse optimal lighting system according to the present invention.
5 is a flowchart illustrating a control method of the greenhouse optimal lighting system according to the present invention.

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

1 is a view showing a greenhouse structure according to the present invention. Referring to FIG. 1, an LED lighting device 10 is provided as an artificial light source in the greenhouse 1, and an illumination sensor 20 is provided at one side thereof, which is operated and detected under the control of the greenhouse control device 100. I will work. Through the illuminance sensor 20 for measuring illuminance, it detects how much light is introduced.

2 is a view showing the configuration of a greenhouse management system according to the present invention. Referring to FIG. 2, the greenhouse control device 100 is connected through various lighting devices, a temperature sensor, a humidity sensor, an illuminance sensor, a carbon dioxide sensor, an insolation sensor, a pH sensor, and a greenhouse monitoring gateway 110 installed in a greenhouse. In addition, it is also connected to at least one greenhouse weather measurement unit 200 is installed outside the greenhouse.

The greenhouse weather measurement unit 200 measures the state of the outdoor weather environment outside the greenhouse, and transmits the measured outdoor weather environment information to the greenhouse monitoring gateway 110. The outdoor weather environment information refers to temperature, humidity, wind speed, light quantity, illuminance and sunshine amount outside the greenhouse, and the outdoor weather condition information includes the temperature, humidity, wind speed, light quantity, illuminance and sunshine information.

In the greenhouse, the growth environment is measured and detected in various ways. The greenhouse growth environment includes the atmospheric environment, the staff environment, and the root zone environment in the greenhouse. The atmospheric environment information may be information such as temperature, humidity, carbon dioxide concentration information in the greenhouse, and the environmental information may be light quantity, illuminance, insolation, etc., and the near-region environment information may include soil temperature, soil humidity, Hydrogen ion concentration (PH), electrical conductivity (EC) information, etc. may be.

The greenhouse monitoring gateway 110 collects greenhouse external meteorological information and greenhouse growth environment information measured from the greenhouse external meteorological measurement unit 200 and various measurement and detection sensors inside the greenhouse, and considers the collected external meteorological information in the greenhouse. If there is a difference in the greenhouse growth environment measured by comparing the standard growth environment information defined by the preset date and time for the cultivated crops that are being cultivated in the greenhouse growth environment information, Adjust the growth environment of the greenhouse by sending information on the growth environment of the greenhouse.

The present invention mainly proposes the control of the lighting apparatus related to the amount of light among these various growth environments.

3 and 4 are views showing the configuration of the greenhouse optimal lighting system according to the present invention. Referring to FIG. 3, the present invention includes an LED lighting device 10, a light environment sensor unit, and a greenhouse control device 100, and the LED lighting device 10 includes an LED light emitting unit 12 and an LED control unit 14. It is configured to include. The light environment sensor unit includes an illuminance sensor 20 to measure the illuminance in the greenhouse and transmit the illuminance data to the detection data storage unit 130 of the control device 100.

The control device 100 includes a control unit 120, a detection data storage unit 130, and a pulse width modulator 140. The controller 120 compares the illuminance data stored in the detection data storage unit 130 with a preset reference illuminance data value to measure and calculate whether additional artificial illumination is required and to what extent. Accordingly, the control unit 120 determines a schedule for turning on or off the LED light emitting unit 12 of the LED lighting device 10, thereby operating. At this time, the LED light emitting unit 12 is not turned on or off to have the same output, but the luminance is adjusted to have a value suitable for the required amount of light, that is, dimming control.

At this time, the pulse width modulator 140 of the control device 100 is to adjust the brightness of the LED light emitting unit 12, and the signal applied to the light emitting diode, rather than the voltage and current control method as in the prior art, a predetermined frequency A pulse width modulation (PWM) is used to control the luminance of the light emitting diode by adjusting the duty ratio of the square wave pulse. By using such a pulse width modulation method, it is possible to extend the life of the light emitting diode and to control the brightness of the light emitting diode, thereby reducing the amount of electricity used.

The LED controller 14 functions to control the on / off and the like by selecting the LED elements for each wavelength of the LED light emitting unit 12.

Referring to Figure 4, according to the illumination data value received from the illuminance sensor 20, according to the result calculated by the control unit 120, if the dimming control of the LED illumination, the LED light emitting unit by the pulse width modulation method ( 12) is controlled. Reference numerals denoted by the power supply 160 and the regulator 150.

5 is a flowchart illustrating a control method of the greenhouse optimal lighting system according to the present invention. Referring to FIG. 5, measurement information is collected in real time from the light environment sensor unit, that is, the illumination sensor 20 (S10), and the light quantity value and illumination data of the measurement information are stored in the detection data storage unit 130 (S20). ). The controller 120 determines whether there is a preset setting value in a database of the management server and loads it (S30), and compares it with a value of illuminance data stored in the detection data storage unit 130 and does not fall within a required setting value range. The DSKG controls to drive the LED lighting device (S40). Accordingly, the LED lighting device is controlled on and off, as well as dimming control according to the pulse width modulation method (S50).

As described above, the present invention can ultimately reduce greenhouse operating costs, heating costs, labor costs, etc. required for growing crops in a greenhouse environment by managing and controlling the greenhouse environment and the cultivation environment of greenhouse crops anytime, anywhere on a ubiquitous basis. The effect of increasing the yield of greenhouse crops can be seen. In addition, more efficient and accurate light quantity control is possible according to the control of the illumination, and has the effect of reducing the amount of electricity used.

In addition, by monitoring and controlling the greenhouse environment and the crops in the ubiquitous environment and remotely, it is possible not only to carry out work without a manager in the field but also to receive technical support, expert advice, and commissioned operation. have. In addition, it is possible to obtain an immediate technical support when a problem is found.

In addition, the present invention has the advantage that not only can be continuously used in the future by accumulating the cultivation technology and know-how necessary for the operation of the greenhouse environment because all the information is a database has the advantage that provides a foundation to solve the future.

In addition, it is possible to check the greenhouse environment and the crop condition by automatically notifying the manager of the monitored information according to the automatically controlled information and the set policy.

In addition, even when various greenhouse environments and greenhouse environments are scattered by region, integrated management is possible and the entire greenhouse environment can be collectively managed.

In addition, the present invention can see the effect of monitoring and controlling the greenhouse environment anytime, anywhere, and has the advantage that systematic greenhouse operation is possible based on the database information.

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

1: greenhouse 3: management terminal
10: LED lighting device 12: LED light emitting unit
14: LED control unit 20: illuminance sensor
100: greenhouse control unit 110: greenhouse monitoring gateway
120: control unit 130: detection data storage unit
140: pulse width modulator 150: regulator
160: power supply device 200: weather measurement unit outside the greenhouse

Claims (7)

Light environment sensor unit for detecting the light environment data in the greenhouse;
A detection data storage unit for storing optical environment data detected by the optical environment sensor unit;
A control unit for comparing the detected data with the setting data and controlling the light according to a necessary light environment; And
Operating according to the control of the control unit, the optimum lighting system for a greenhouse comprising a; LED lighting device for irradiating light according to the required light environment in the greenhouse.
The method of claim 1,
The light environment sensor unit includes an illuminance sensor,
The detection data includes illuminance data,
The control unit is a greenhouse optimal lighting system, characterized in that for comparing the irradiation light amount according to the illumination data with the set data.
The method of claim 1,
An LED light emitting unit including an LED element; And
Greenhouse optimum lighting system comprising a; LED control unit for selecting and controlling the LED device for each wavelength of the LED light emitting unit.
The method of claim 1,
The LED light emitting unit optimal greenhouse lighting, characterized in that the brightness is adjusted according to the dimming control.
5. The method of claim 4,
It further comprises a pulse width modulator,
Under the control of the control unit, the optimal width of the greenhouse lighting system, characterized in that for adjusting the brightness of the LED light emitting unit by the pulse width modulation method in the pulse width modulation.
In the lighting system control method according to the light environment in the greenhouse,
1) collecting the light environment measurement information in the greenhouse in real time in the light environment sensor unit;
2) storing the detection data measured by the optical environment sensor unit in a detection data storage unit;
3) comparing preset data with the detection data by the controller; And
And 4) turning on / off the lighting device and dimming the brightness when there is a required amount of light according to the comparison.
The method according to claim 6,
Under the control of the controller, a pulse width modulator controlling the lighting device by a pulse width modulation method, the control method of the greenhouse optimal lighting system.

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