CN114585142A - Multiband batch dimming method and system for plant lamp - Google Patents

Abstract

The invention relates to a multiband batch dimming method for plant lamps, which comprises the following steps: receiving input power proportion regulation data, and converting the power proportion regulation data into wavelength relative radiation energy proportion data according to a set conversion rule; sending the wavelength relative radiation energy ratio data to a controller on a designated plant lamp in batches in a wireless or wired communication mode; the controller adjusts the output light of the plant lamp according to the received wavelength relative radiation energy ratio data; the method can convert the set power proportion regulation data into wavelength relative radiation energy proportion data and then send the data to the controller on the plant lamp, the controller controls the plant lamp according to the setting, the host computer does not need to be started all the year round, the host computer can also automatically adjust the light when being damaged, meanwhile, the adjustment does not depend on experience through the conversion, the adjustment effect required by a user can be obtained, the adjustment is convenient, the reliability is good, the stability and the usability of the system are greatly enhanced, and the method is suitable for popularization.

Description

Multiband batch dimming method and system for plant lamp

Technical Field

The invention relates to the technical field of plant lamps, in particular to a multiband batch dimming method and system for plant lamps.

Background

The existing multiband plant growth lamp has several problems in plant light supplement: 1, during dimming control, a host machine is required to be started, so that the host machine is required to be kept in a starting state all the year round, and if the host machine is damaged or the host machine is not started, dimming cannot be performed, so that fatal damage is caused to plants; 2 the existing plant growth lamp capable of dimming can not be converted into corresponding radiation flux according to power, the adjustment is very inconvenient, operators are required to have rich experience, the adjustment precision is poor, and a multiband batch dimming method and a multiband batch dimming system for the plant lamp, which solve the problems, are urgently needed.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a multiband batch dimming method for a plant lamp and a multiband batch dimming system for a plant lamp, aiming at the above defects of the prior art.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a multiband batch dimming method for plant lamps is constructed, wherein the multiband batch dimming method comprises the following steps:

the first step is as follows: receiving input power proportion regulation data, and converting the power proportion regulation data into wavelength relative radiation energy proportion data according to a set conversion rule;

the second step is that: sending the wavelength relative radiation energy ratio data to a controller on a designated plant lamp in batches in a wireless or wired communication mode;

the third step: the controller adjusts the output light of the plant lamp according to the received wavelength relative radiation energy ratio data.

The plant lamp multiband batch dimming method comprises the steps that power proportion adjusting data comprise adjusting plant lamp output power adjusting change data in a period of time, and corresponding wavelength relative radiation energy proportion data comprise adjusting plant lamp output light change data in a period of time.

The plant lamp multiband batch dimming method is characterized in that the power proportion adjusting data comprise adjusting and changing data of output power of various adjusting plant lamps corresponding to different plants, and the corresponding wavelength relative radiation energy proportion data comprise changing data of output light of various adjusting plant lamps corresponding to different plants.

In the second step, the controller verifies the integrity of the data according to a set data packet rule after receiving the data, and when the data is not completely received, the controller performs feedback that the data is not completely received.

The multiband batch dimming method for the plant lamp, disclosed by the invention, comprises the step of carrying out wireless communication in a ZIGBEE, WIFI, Bluetooth, infrared or RFID mode in the second step.

The invention discloses a multiband batch dimming method for plant lamps, which comprises the following steps: receiving an input switch control instruction, sending the switch control instruction to a plurality of specified controllers, and controlling the plant lamp to be turned on or turned off by the controllers according to the switch control instruction; the switch control command is an opening or closing control command or a set of opening and closing control commands in a period of time.

The invention discloses a multiband batch dimming method for plant lamps, wherein a conversion rule calculation method in the first step is as follows: based on the radiation flux data of the four-way dimming lamp bead independent test and the full-open test, the corresponding absolute radiation flux data is changed according to the dimming percentage to reflect the spectrum change; the calculation formula is as follows: the dimming percentage is the absolute radiant flux value of the corresponding dimming wavelength, and each value is a point on the XY coordinate axis, and finally the points are connected into a corresponding curve.

A plant lamp multiband batch dimming system is disclosed, and the plant lamp multiband batch dimming method comprises a main controller and a plurality of controllers; the controller is in communication connection with the main controller;

the main controller is used for receiving input power proportion regulation data, converting the input power proportion regulation data into wavelength relative radiation energy proportion data according to a set conversion rule, and sending the wavelength relative radiation energy proportion data to the controller on the appointed plant lamp in batches in a wireless or wired communication mode;

and the controller is used for adjusting the output light of the plant lamp according to the received data of the ratio of the wavelength to the radiant energy.

The multiband batch dimming system for the plant lamp, provided by the invention, comprises a power ratio adjusting data module, a wavelength relative radiation energy ratio data module and a power ratio adjusting data module, wherein the power ratio adjusting data module comprises a plurality of adjusting plant lamp output power adjusting change data corresponding to different plants in a period of time, and the corresponding wavelength relative radiation energy ratio data module comprises a plurality of adjusting plant lamp output light change data corresponding to different plants in a period of time.

The multiband batch dimming system for the plant lamp, disclosed by the invention, comprises the following conversion rule calculation method: based on the radiation flux data of the independent test and the full-open test of the four dimming lamp beads, the corresponding absolute radiation flux data is changed according to the dimming percentage to reflect the spectrum change; the calculation formula is as follows: the dimming percentage is the absolute radiant flux value of the corresponding dimming wavelength, and each value is a point on the XY coordinate axis, and finally the points are connected into a corresponding curve.

The invention has the beneficial effects that: the method can convert the set power proportion regulation data into wavelength relative radiation energy proportion data and then send the wavelength relative radiation energy proportion data to the controller on the plant lamp, the controller controls the plant lamp according to the setting, the host does not need to be started all the year round, the host can be automatically dimmed when damaged, meanwhile, the regulation does not depend on experience any more through the conversion, the regulation effect required by a user can be obtained, the regulation is convenient, the reliability is good, the stability and the usability of the system are greatly enhanced, and the method is suitable for popularization.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is a flow chart of a multiband batch dimming method for a plant lamp according to a preferred embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating power ratio conversion of a multiband batch dimming method for a plant lamp according to a preferred embodiment of the present invention;

fig. 3 is a schematic block diagram of a multiband batch dimming system for plant lamps according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following description will be made clearly and completely in conjunction with the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

The multiband batch dimming method for the plant lamp according to the preferred embodiment of the invention, as shown in fig. 1 and referring to fig. 2, includes the following steps:

s01: receiving input power proportion regulation data, and converting the power proportion regulation data into wavelength relative radiation energy proportion data according to a set conversion rule;

s02: sending the wavelength relative radiation energy ratio data to a controller on a designated plant lamp in batches in a wireless or wired communication mode;

s03: the controller adjusts the output light of the plant lamp according to the received wavelength relative radiation energy ratio data;

the method can convert the set power proportion regulation data into wavelength relative radiation energy proportion data and then send the data to the controller on the plant lamp, the controller controls the plant lamp according to the setting, the host computer does not need to be started all the year round, the host computer can also automatically adjust the light when being damaged, meanwhile, the adjustment does not depend on experience through the conversion, the adjustment effect required by a user can be obtained, the adjustment is convenient, the reliability is good, the stability and the usability of the system are greatly enhanced, and the method is suitable for popularization.

Preferably, the power proportion regulation data comprises regulation change data of the output power of the plant lamp within a period of time, and the corresponding wavelength relative radiation energy proportion data comprises regulation change data of the output light of the plant lamp within a period of time; the host computer can input different spectrum data required by the plant at different time into the plant lamp at one time, and the data can be automatically adjusted according to the input power or wavelength relative radiation energy curve.

Preferably, the power proportion regulation data comprises regulation change data of output power of various regulation plant lamps corresponding to different plants, and the corresponding wavelength relative radiation energy proportion data comprises output light change data of various regulation plant lamps corresponding to different plants; so that the host can input different spectral data required by different plants to the plant lamp at one time, and the plant lamp can automatically adjust according to the input power or wavelength relative radiation energy curve.

Preferably, in the second step, the controller verifies the integrity of the data according to a set data packet rule after receiving the data, and when the data is not completely received, feedback that the data is not completely received is performed; the data integrity can be conveniently verified, and the plant lamp can be timely reminded or processed when the data packet is lost, so that the plant lamp can be started and shut down for multiple times, complete data can be finally obtained, and the stability of the system is guaranteed.

Preferably, in the second step, the wireless communication mode is ZIGBEE, WIFI, Bluetooth, infrared or RFID; preferably, practical detection and application of the ZIGBEE wireless ad hoc network to transmit data ensures that the length distance is at most about 200 meters in an open environment, and the stability is comparable to that of a wired control system.

Preferably, the method further comprises the following steps: receiving an input switch control instruction, sending the switch control instruction to a plurality of specified controllers, and controlling the plant lamp to be turned on or turned off by the controllers according to the switch control instruction; the switch control command is a control command for opening or closing, or a set of control commands for opening and closing within a period of time; can go in adding the dimming control before with opening and close control, also can be solitary pure control mode of opening and close, above-mentioned simple alternative all belongs to this application protection category.

Preferably, the conversion rule calculation method in the first step is as follows: based on the radiation flux data of the four-way dimming lamp bead independent test and the full-open test, the corresponding absolute radiation flux data is changed according to the dimming percentage to reflect the spectrum change; the calculation formula is as follows: the dimming wavelength absolute radiant flux value corresponding to the dimming percentage is an absolute radiant flux value after dimming, each value is a point on the XY coordinate axis, and finally, the points are connected into a corresponding curve, as shown in fig. 2; the light adjusting device is convenient to accurately, reliably and efficiently adjust light, does not need to depend on the experience of workers, and guarantees light adjusting supply of each stage of plant growth;

in fig. 2, the light adjustment is 100% at 380nm-405nm, 50% at 410nm-595nm, 100% at 600nm-700nm, and 100% at 705nm-800 nm.

A multiband batch dimming system for plant lamps is disclosed, and according to the multiband batch dimming method for plant lamps, as shown in FIG. 3, the multiband batch dimming system comprises a main controller 1 and a plurality of controllers 2; the controller 2 is in communication connection with the main controller 1;

the main controller 1 is used for receiving input power proportion regulation data, converting the input power proportion regulation data into wavelength relative radiation energy proportion data according to a set conversion rule, and sending the wavelength relative radiation energy proportion data to the controller on the appointed plant lamp 3 in batches in a wireless or wired communication mode;

the controller 2 is used for adjusting the light output by the plant lamp 3 according to the received wavelength relative radiation energy ratio data;

the power proportion adjusting data which is set can be converted into wavelength relative radiation energy proportion data and then sent to the controller on the plant lamp, the plant lamp is controlled by the controller according to the setting, the host does not need to be started all the year round, the host can be automatically adjusted when damaged, meanwhile, the adjustment is enabled not to depend on experience through the conversion, the adjusting effect which a user wants can be obtained, the adjustment is convenient, the reliability is good, the stability and the usability of a system are greatly enhanced, and the popularization is facilitated.

Preferably, the power proportion regulation data comprises regulation change data of output power of various regulation plant lamps corresponding to different plants within a period of time, and the corresponding wavelength relative radiation energy proportion data comprises change data of output light of various regulation plant lamps corresponding to different plants within a period of time; the host can conveniently input different plants and different spectral data required at different moments into the plant lamp at one time, and the plant lamp can be automatically adjusted according to the input power or wavelength relative radiation energy curve.

Preferably, the conversion rule calculation method is as follows: based on the radiation flux data of the four-way dimming lamp bead independent test and the full-open test, the corresponding absolute radiation flux data is changed according to the dimming percentage to reflect the spectrum change; the calculation formula is as follows: the dimming wavelength absolute radiant flux value corresponding to the dimming percentage is the absolute radiant flux value after dimming, each value is a point on the XY coordinate axis, and finally the points are connected into a corresponding curve; the light adjusting device is convenient to accurately, reliably and efficiently adjust light, does not need to depend on the experience of workers, and guarantees light adjusting supply of each stage of plant growth.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. A multiband batch dimming method for plant lamps is characterized by comprising the following steps:

the first step is as follows: receiving input power proportion regulation data, and converting the power proportion regulation data into wavelength relative radiation energy proportion data according to a set conversion rule;

the second step is that: sending the wavelength relative radiation energy ratio data to a controller on a designated plant lamp in batches in a wireless or wired communication mode;

the third step: the controller adjusts the output light of the plant lamp according to the received wavelength relative radiation energy ratio data.

2. The multiband batch dimming method of claim 1, wherein the power scaling data comprises a time period of output power scaling variation data for the plant lamp, and the corresponding wavelength versus radiant energy scaling data comprises a time period of output light variation data for the plant lamp.

3. The multiband batch dimming method for plant lamps according to claim 1 or 2, wherein the power ratio adjustment data comprises a plurality of adjustment plant lamp output power adjustment variation data corresponding to different plants, and the corresponding wavelength versus radiant energy ratio data comprises a plurality of adjustment plant lamp output light variation data corresponding to different plants.

4. The multiband batch dimming method for plant lamps according to claim 1, wherein in the second step, the controller verifies data integrity according to a set data packet rule after receiving data, and when the data is not completely received, the controller performs feedback that the data is not completely received.

5. The multiband batch dimming method for plant lamps according to claim 1, wherein in the second step, the wireless communication mode is ZIGBEE, WIFI, Bluetooth, infrared or RFID.

6. Multiband batch dimming method for plant lights according to any of claims 1-2, 4-5, further comprising the method: receiving an input switch control instruction, sending the switch control instruction to a plurality of specified controllers, and controlling the plant lamp to be turned on or turned off by the controllers according to the switch control instruction; the switch control command is a control command for opening or closing, or a set of control commands for opening and closing in a period of time.

7. The multiband batch dimming method for plant lamps according to any one of claims 1 to 2 and 4 to 5, wherein the conversion rule calculation method in the first step is as follows: based on the radiation flux data of the four-way dimming lamp bead independent test and the full-open test, the corresponding absolute radiation flux data is changed according to the dimming percentage to reflect the spectrum change; the calculation formula is as follows: the dimming percentage is the absolute radiant flux value of the corresponding dimming wavelength, and each value is a point on the XY coordinate axis, and finally the points are connected into a corresponding curve.

8. A multiband batch dimming system for plant lamps is characterized by comprising a main controller and a plurality of controllers; the controller is in communication connection with the main controller;

the main controller is used for receiving input power proportion regulation data, converting the input power proportion regulation data into wavelength relative radiation energy proportion data according to a set conversion rule, and sending the wavelength relative radiation energy proportion data to the controller on the appointed plant lamp in batches in a wireless or wired communication mode;

and the controller is used for adjusting the output light of the plant lamp according to the received wavelength relative radiation energy ratio data.

9. The system of claim 8, wherein the power scaling data comprises a plurality of scaled plant lamp output power scaling data corresponding to different plants over a period of time, and the corresponding wavelength versus radiant energy scaling data comprises a plurality of scaled plant lamp output light scaling data corresponding to different plants over a period of time.

10. The multiband batch dimming system for plant lamps according to claim 8, wherein the conversion rule calculation method is as follows: based on the radiation flux data of the four-way dimming lamp bead independent test and the full-open test, the corresponding absolute radiation flux data is changed according to the dimming percentage to reflect the spectrum change; the calculation formula is as follows: the dimming percentage is the absolute radiant flux value of the corresponding dimming wavelength, and each value is a point on the XY coordinate axis, and finally the points are connected into a corresponding curve.

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