CN116321568A - Full-spectrum planting lamp control method and system - Google Patents

Abstract

The invention discloses a full spectrum planting lamp control method and a full spectrum planting lamp control system, wherein the method comprises the following steps: acquiring an input dimming parameter; inquiring a comparison table of the dimming parameters and the spectrum control instructions according to the dimming parameters, and determining a full spectrum regulation instruction comprising a color temperature control instruction and an illuminance control instruction; and sending the full-spectrum regulation and control instruction to a planting lamp or a planting lamp group of the Bluetooth Mesh networking, wherein the color temperature control instruction is used for turning on the planting lamp or the lamp group combination of the planting lamp group, and the illuminance control instruction is used for controlling the light intensity of the lamp group combination by current, so that different spectrum outputs are generated in a full-spectrum range. According to the full-spectrum planting lamp method and system, regulation and control are performed on the mobile terminal of Bluetooth Mesh networking, full-spectrum adjustable illumination with more reasonable proportion is provided for different growth stages of different planting objects, and illumination adjustment of the planting lamps or the planting lamp groups in the full-spectrum range is realized through simple operation of the mobile terminal conveniently and rapidly.

Description

Full-spectrum planting lamp control method and system

Technical Field

The invention relates to the technical field of agricultural planting LED illumination, in particular to a full-spectrum planting lamp control method and system.

Background

With the rapid development of the internet of things technology and the illumination technology, the planting lamp is more and more widely applied to agriculture industrialization. In agricultural industrialization, the lighting application of the planting lamps is very critical. Aiming at the cultivation of a plurality of plants or the cultivation of animals, lamps with different spectrums are needed to meet the growth requirements of different growth and development stages of animals and plants.

In the production process of actual agricultural products, special illumination planting needs to be started at night or when the light is insufficient, and an illumination device needs to be used. The existing lighting device generally adopts an LED lighting lamp. The LED illuminating lamps for plant growth illumination in the prior art are usually arranged independently, and the switch and the illumination are controlled independently.

However, the independently-arranged and independently-controlled LED illuminating lamp cannot provide dimming in the full spectral range, and cannot meet the illumination cultivation requirements of different planting objects in different growth stages. Full Spectrum (Full Spectrum) refers to a Spectrum curve containing ultraviolet light, visible light and infrared light in the Spectrum, and the proportion of red, green and blue in the visible light part is similar to sunlight, and the color rendering index is close to 100.

For example, the flower and fruit plants are planted with a red-blue composite spectrum suitable for pink-violet and red-light color; the ornamental plant is suitable for white light spectrum of white light color; the succulent plant grows and the leaf vegetables are suitable for the blue light, the red light and the spectrum of the pink purple polarized violet light. However, the LED lighting lamps of the prior art do not provide a fine and comprehensive spectrum lighting.

Thus, there is a need for improvement in existing agricultural planting lighting technology.

Disclosure of Invention

Based on the above, in order to solve the above problems in the prior art, the invention provides a mobile terminal based on bluetooth Mesh networking, which provides full spectrum adjustable illumination with more reasonable proportion for different growth stages of different planting objects, and can conveniently and rapidly realize illumination adjustment of the full spectrum range of a planting lamp or a planting lamp group through simple operation of the mobile terminal, and provides a full spectrum planting lamp control method and a full spectrum planting lamp control system for providing refined illumination for each planting stage of different planting objects.

In a first aspect, the present invention relates to a method for controlling a full spectrum planting lamp, comprising the steps of:

acquiring an input dimming parameter;

inquiring a comparison table of the dimming parameters and the spectrum control instructions according to the dimming parameters, and determining a full spectrum regulation instruction comprising a color temperature control instruction and an illuminance control instruction;

and sending the full-spectrum regulation and control instruction to a planting lamp or a planting lamp group of the Bluetooth Mesh networking, wherein the color temperature control instruction is used for turning on the planting lamp or the lamp group combination of the planting lamp group, and the illuminance control instruction is used for controlling the light intensity of the lamp group combination by current, so that different spectrum outputs are generated in a full-spectrum range.

In a second aspect, the invention relates to a full spectrum planting lamp system, which comprises a mobile terminal and planting lamps or planting lamp groups, wherein each planting lamp comprises a first Bluetooth Mesh module and is in Bluetooth Mesh networking with the mobile terminal through the first Bluetooth Mesh module, and the mobile terminal comprises an adjusting module, a query module and a second Bluetooth Mesh module:

the adjusting module is used for acquiring the input dimming parameters;

the inquiring module is used for inquiring a comparison table of the dimming parameters and the spectrum control instructions according to the dimming parameters and determining a full spectrum regulation instruction comprising a color temperature control instruction and an illuminance control instruction;

the second Bluetooth Mesh module is used for sending the full-spectrum regulation and control instruction to a planting lamp or a planting lamp group of the Bluetooth Mesh networking, the color temperature control instruction is used for turning on a lamp group combination of the planting lamp or the planting lamp group, and the illumination control instruction is used for controlling the light intensity of the lamp group combination in a current mode, so that different spectrum outputs are generated in a full-spectrum range.

In a third aspect, the present invention relates to a full spectrum planting lamp control system, comprising a first memory arranged in a mobile terminal, a first processor and a first computer program stored in the first memory and being executable on the first processor, the first processor implementing the full spectrum planting lamp control method according to the first aspect when executing the first computer program; and

the system also comprises a second memory arranged at the server side, a second processor and a second computer program which is stored in the second memory and can run on the second processor, wherein the second processor realizes the full spectrum planting lamp control method according to the first aspect when executing the second computer program.

According to the full-spectrum planting lamp control method and system, the mobile terminal is connected with the planting lamp through the second Bluetooth Mesh module and is networked, so that networking management planting of agricultural products, such as greenhouse/indoor plant planting including planting of vegetables, fruits, plants and the like, is achieved. And the spectral output of the planting lamps or the planting lamp groups can be regulated and controlled simply and quickly through the Bluetooth Mesh network through the mobile terminal.

The second Bluetooth Mesh module is arranged in the planting lamp, and the mobile terminal is connected and networked with the planting lamp through the second Bluetooth Mesh module, so that full-spectrum adjustable illumination with more reasonable and more refined proportion is provided for different growth stages of different planting objects in a planting lamp or planting lamp group mode. Meanwhile, the dimming parameters and the spectrum control instruction comparison table are stored and updated in the mobile terminal, a user inputs the dimming parameters in the UI interface, the query module determines a full spectrum regulation instruction comprising a color temperature control instruction and an illuminance control instruction according to the planting parameters and the dimming parameters of the planting objects, and the full spectrum regulation instruction is sent to the connected planting lamps or the planting lamp groups by the Bluetooth Mesh network to realize the dimming illumination in the full spectrum range. For example, the flower and fruit plants are planted with a red-blue composite spectrum suitable for the pink-violet and red-light color, then the red light lamp set and the blue light lamp set are turned on through the color temperature control instruction, and the red-light lamp set and the blue light lamp set are adjusted to the pink-violet and red-light color through the illuminance control instruction. The white light spectrum of the ornamental plant white light color is turned on by the color temperature control instruction, and the white light color is adjusted by the illuminance control instruction; the succulent plant grows and the leaf vegetables are suitable for the blue light with more red light and less spectrum of the pink purple polarized violet light color, then the fewer red light lamp groups and the more blue light lamp groups are turned on through the color temperature control instruction, and the pink purple polarized violet light color is adjusted through the illuminance control instruction. Fine illumination of the full spectral range is achieved in the above manner.

In addition, the full-spectrum planting lamp control method and system can conveniently and rapidly realize the illumination adjustment of the planting lamp or the planting lamp group in the full-spectrum range through the simple operation of the mobile terminal. The full spectrum regulation and control instruction realizes the selection of the number and the types of the lamp group combinations of each planting lamp, and simultaneously realizes the current and light intensity control of the selected lamp group combinations, thereby providing fine illumination for each planting stage of different planting objects and participating in the whole growth cycle of the planting objects to play a role in promotion.

In addition, according to the full-spectrum planting lamp system, the server side collects the planting effect evaluation of each planting stage of the planting object, screens and determines the reference dimming parameter with the optimal planting effect under the same planting parameter, and sends the screened reference dimming parameter to the connected mobile terminal, so that a user can obtain the reference dimming parameter with the optimal planting effect used by other users under the same planting parameter, the planting effect is provided in an auxiliary mode, and the user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

FIG. 1 is a system hardware architecture diagram of a full spectrum planting lamp control system according to the present embodiment;

FIG. 2 is a flow chart showing a grouping of a plurality of planting lamps in the full spectrum planting lamp control method according to the present embodiment;

FIG. 3 is a flowchart of a single or group planting lamp adjustment of the full spectrum planting lamp control method of the present embodiment;

FIG. 4 is a flowchart showing a single or group planting lamp command transmission of the full spectrum planting lamp control method of the present embodiment;

fig. 5 is a flowchart of a mobile terminal sending parameter of the full spectrum planting lamp control method of the present embodiment;

FIG. 6 is a flowchart of server-side parameter screening and feedback of the full spectrum planting lamp control method according to the present embodiment;

FIG. 7 is a block diagram of a mobile terminal software of the full spectrum planting lamp control system according to the present embodiment;

FIG. 8 is a server-side software module diagram of the full spectrum planting lamp control system according to the present embodiment;

FIG. 9 is a diagram of a double panel of plant lamps of the full spectrum planting lamp control system according to the present embodiment;

fig. 10 is a schematic diagram of a mobile end UI interface of the full spectrum planting lamp control system according to the present embodiment;

fig. 11 is a diagram showing the intent of comparing the dimming parameter locally stored in the mobile terminal query module of the full spectrum planting lamp control system according to the present embodiment with the spectrum control instruction;

fig. 12 is a hardware architecture diagram of a mobile terminal of the full spectrum planting lamp control system of the present embodiment;

fig. 13 is a server-side hardware architecture diagram of the full spectrum planting lamp control system of the present embodiment.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Method embodiment:

referring to fig. 1, the full spectrum planting lamp method of the present embodiment is based on the full spectrum planting lamp system shown in fig. 1. The full spectrum planting lamp system comprises a single planting lamp or a group of planting lamps 1, a mobile terminal 2 and a server side 3. For example, the planting lamp group 1 includes first to fifth planting lamps 11 to 15. A first bluetooth Mesh module, such as bluetooth Mesh module 115, is provided in each of the planting lamps. The mobile terminal 2 installs the planting light management software supporting bluetooth Mesh. Each planting lamp is networked with the mobile terminal 2 Bluetooth Mesh.

Referring to fig. 3, the dimming process of the mobile terminal 2 for each planting lamp or the planting lamp group networked with the mobile terminal 2 includes the following steps:

step 111: and acquiring the input dimming parameters, and selecting and inputting the dimming parameters by a user through a scroll bar on a UI interface of the planting lamp management software. The dimming parameters relate to visible light color temperature adjustment and brightness adjustment, ultraviolet light color temperature adjustment and brightness adjustment, infrared light color temperature adjustment and brightness adjustment and the like. The visible light color temperature adjustment comprises white light adjustment, blue light adjustment and red light adjustment, or green light adjustment, blue light adjustment and red light adjustment. The ratio of red, green and blue in the visible light color temperature adjustment is similar to that of sunlight.

In the UI interface of the mobile terminal shown in fig. 10, the mobile terminal performs spectrum adjustment on the networked planting lamp group. Wherein the dimming parameter comprises a color rendering index and a light intensity parameter. The color rendering index of the planting lamps or groups of planting lamps is determined by turning on and pushing the white light scrollbar, the blue light scrollbar, the red light scrollbar, and the ultraviolet light scrollbar at the UI interface. The brightness scroll bar can also be respectively set corresponding to different color lights so as to correspondingly adjust the light intensity of the different color light groups by pushing the light intensity parameter of the current planting light group determined by the brightness scroll bar on the UI interface. For example, the white light scroll bar is pushed to 10 percent, which means that the color rendering index of the white light LED lamp in each planting lamp is 10 percent. The blue light scroll bar was pushed to 50 percent, indicating that the color rendering index of the blue LED lamp in each of the planting lamps was turned on to 50 percent. The red light scroll bar is pushed to 100%, which means that the color rendering index of the red light LED lamp in each planting lamp is turned on to be 100%.

Step 112: and according to the dimming parameters, inquiring a comparison table of the dimming parameters and the spectrum control instructions, and determining a full spectrum regulation instruction comprising a color temperature control instruction and an illumination control instruction, thereby converting the dimming parameters of a software layer into instructions executable by hardware.

Step 113: and sending the full spectrum regulation and control instruction to a planting lamp or a planting lamp group of the Bluetooth Mesh networking.

The color temperature control instruction is used for turning on the planting lamp or the lamp group combination of the planting lamp group, and the illumination control instruction is used for controlling the light intensity of the lamp group combination in a current mode, so that different spectrum outputs are generated in the full spectrum range.

For example, the color rendering index of white light is 10%, which means that 5% of the white light LED lamps in each of the planting lamps are turned on. The color rendering index of the blue light is 50%, which means that 50% of the blue LED lamps in each of the planting lamps are turned on. The color rendering index of the red light is 100%, which means that 100% of the red LED lamps in each of the planting lamps are turned on. The luminance scroll bar is pushed to 60% to indicate that the control current of the illuminance control command is a certain set value.

The lighting adjustment in the full spectrum range can be completed for a plurality of planting lamps of the Bluetooth Mesh networking rapidly through the steps.

The above-mentioned lamp group combination is selected from a plurality of LED lamp groups that provide different colour temperatures, and this a plurality of LED lamp groups include at least one of red light lamp group, blue light lamp group, white light lamp group, infrared lamp group and ultraviolet lamp group, and wherein, this white light lamp group includes warm white lamp group and cold white lamp group.

As shown in fig. 9, two or three or more lamp panels may be disposed in one planting lamp in practical application, and this embodiment uses one lamp panel as an illustration of the technical scheme, and sets of LED lamp groups without colors, that is, LED lamp strings, are disposed on the lamp panel 50. LED lamp strings with different colors are combined into a plant lamp panel with different spectrum settings. In the embodiment of the lamp panel shown in fig. 9, the lamp group types include an infrared lamp group 51, a red lamp group 52, a warm-white lamp group 53, a blue lamp group 54, and a cool-white lamp group 55, each of which is composed of a number of LED lamp strings of different colors or a plurality of LED lamp strings. For example, red light set 52 includes four sets of red LED strings and cool white light set 55 includes nine sets of cool white LED strings.

The user-adjusted spectrally-selected lamp group types and the corresponding driven LED lamp groups constitute the current dimmed lamp group combination. The arrangement of the lamp group combination can be adjusted according to different practical application occasions of the planting lamps, and the number of the infrared lamp groups is increased in the maturing result stage compared with that of flower and fruit plants. And for example, when the ornamental plant seedling stage or the growth stage is illuminated, the ultraviolet lamp group can be added for ultraviolet disinfection.

As shown in fig. 1 and fig. 2, when the mobile terminal 2 is connected with a plurality of planting lamps to provide illumination for different planting objects in a larger area, the mobile terminal 2 needs to group the planting lamps in a networking manner, which specifically includes the following steps:

step 101: the mobile terminal 2 scans the planting lamps through the planting lamp management software, and builds a planting lamp Bluetooth Mesh network according to the received beacon signals sent by the planting lamps; and listing the wireless-accessed planting lamps in a device list.

Step 102: the mobile terminal 2 receives planting parameters of the planting object input by the user, wherein the planting parameters comprise plant types and planting stages. For example, the germination stage or flowering stage or fruiting stage of the flower and fruit plant; germination stage or growth stage of ornamental plant. Germination or growth of succulent plants.

Step 103: and dividing the networking planting lamps into planting lamp groups corresponding to the planting types or the planting stages according to the planting types or the planting stages. For example, according to the planting area of flower and fruit plants in the flowering stage, the planting lamps for providing illumination can be classified into a group of planting lamps in the flower and fruit stage; for another example, the specific planting lamps are classified into the planting lamp group in the growth stage of the ornamental plant according to the planting area of the ornamental plant in the growth stage.

After the mobile terminal 2 receives the dimming parameters input by the user, the mobile terminal 2 queries a comparison table of the dimming parameters and the spectrum control instructions stored in a storage module of the mobile terminal 2, and determines a full spectrum regulation instruction comprising a color temperature control instruction and an illuminance control instruction. And the full-spectrum regulation and control instruction group is sent to each planting lamp of the planting lamp group of the Bluetooth Mesh networking through planting lamp management software.

In this embodiment, each of the plant lights includes a second bluetooth Mesh module, a controller, and a constant current source drive circuit that connects the one or more plant light panels, such as plant light panel 50. The second bluetooth Mesh module receives full spectrum regulation and control instructions forwarded by other planting lamps networked by the mobile terminal 2 or a Mesh network, a controller turns on a specified lamp group combination on the plant illuminating lamp plate 50 according to the color temperature control instructions, and the controller controls the current intensity of the turned-on lamp group combination by controlling a constant current source driving circuit, so that required spectrum illumination is provided in a full spectrum range for the corresponding growth stage of the selected planting object.

Referring to fig. 4, in the software module of the mobile terminal 2, the full spectrum planting lamp control method further includes the following data acquisition and transmission steps synchronized with the data of the server 3, specifically including:

step 1130: the scan adjustment module 25 determines whether the user inputs the dimming parameter through the UI interface;

step 1131: scanning to receive the input of the dimming parameters, or judging whether a full spectrum instruction needs to be sent, and returning to the previous step to continue to scan the adjusting module 25 when the dimming parameters are not available;

step 1132: when receiving the input of the dimming parameters, when the mobile terminal 2 is connected with a single planting lamp, the full spectrum regulation and control instruction is directly sent to the planting lamp of the Mesh Bluetooth networking. Meanwhile, step 1133 is entered to determine whether a group of planting lamps is built.

Step 1133: judging whether a planting lamp group participates in dimming.

Step 1134: the full spectrum regulation and control instruction is sent to each planting lamp of the planting lamp group in a group mode, and therefore needed spectrum illumination is provided for different growth stages of different planting objects.

Referring to fig. 5, the mobile terminal 2 further uploads the dimming parameters and/or the planting effect evaluation input by the user to the server 3 at regular intervals, so that the server 3 performs big data analysis, and the method includes the following steps:

step 115: scanning parameter module

Step 1151: when the dimming parameters are received, storing the dimming parameters input by a user and planting parameters of the planting objects;

step 1152: and sending the dimming parameters and the planting parameters of the planting objects to a server side in wireless connection.

Or the scanning parameter module receives the planting effect evaluation input by the user, and further comprises the following steps:

step 1155: receiving and storing planting effect evaluation of the planting object input by the user corresponding to the dimming parameter;

step 1156: and sending the planting effect evaluation to the server side 3.

Referring to fig. 6, the big data analysis of the planting effect evaluation by the server 3 specifically includes the following steps:

step 201: the user registers at the server end, allocates user ID, and the server end 3 collects dimming parameters, planting parameters and planting effect evaluation returned by different mobile terminals according to the user ID to form an effect feedback list;

step 202: screening the planting effect evaluation in the effect feedback list, and determining a reference dimming parameter with optimal planting effect under the corresponding planting parameters; .

Step 203: the reference dimming parameter is sent to the connected mobile terminal 2, and a user of the mobile terminal 2 can correspondingly adjust the locally executed dimming parameter according to the reference dimming parameter to change the full spectrum regulation instruction.

Example 2

As shown in fig. 1, the full spectrum planting lamp system of the present embodiment includes a single or a group of planting lamps 1, a mobile terminal 2, and a server side 3. For example, the planting lamp group 1 includes first to fifth planting lamps 11 to 15. A first bluetooth Mesh module, such as bluetooth Mesh module 115, is provided in each of the planting lamps. The mobile terminal 2 installs the planting light management software supporting bluetooth Mesh. Each planting lamp is networked with the mobile terminal 2 Bluetooth Mesh.

Referring to fig. 7, a schematic diagram of a mobile terminal software module of the full spectrum planting lamp system according to the present embodiment is shown. From the point of view of the planting light management software, the mobile terminal comprises an adjusting module 25, a querying module 26 and a second Mesh communication module 27.

The adjusting module 25 is configured to obtain a dimming parameter input by a user at a UI interface.

The query module 26 is configured to query a comparison table of dimming parameters and spectrum control instructions stored locally in the mobile terminal 2 according to the dimming parameters, and determine a full spectrum regulation instruction including a color temperature control instruction and an illuminance control instruction. As shown in fig. 11, the mobile terminal 2 receives an input dimming parameter currently input by a user, queries a dimming parameter and spectrum control command comparison table based on the input dimming parameter, and compares and determines a matched array from a plurality of stored pre-stored dimming parameters, color temperature control commands and illuminance control command data sets, such as pre-stored dimming parameter 2, color temperature control command 2 and illuminance control command 2.

The second bluetooth Mesh module 27 is configured to send the full spectrum modulation command to a bluetooth Mesh-networking planting lamp or a planting lamp group, the color temperature control command is configured to turn on the planting lamp or the lamp group combination of the planting lamp group, and the illuminance control command is configured to control the light intensity of the lamp group combination by current, so as to generate different spectrum outputs in a full spectrum range.

In this embodiment, the light set assembly includes a plurality of LED light sets providing different color temperatures, and the plurality of LED light sets at least includes one of a red light set, a blue light set, a white light set, an infrared light set and an ultraviolet light set, wherein the white light set includes a warm white light set and a cool white light set.

In order to build the planting lamp Bluetooth Mesh network, the mobile terminal 3 further comprises a networking module 21, a parameter module 22 and a grouping module 23.

The networking module 21 is used for scanning planting lamps and constructing a planting lamp Bluetooth Mesh network according to the received planting lamp beacons.

The parameter module 22 is used for obtaining planting parameters of the planting objects and planting effect evaluation, wherein the planting parameters comprise plant types and planting stages.

The grouping module 23 is configured to divide the grouped planting lamps into corresponding planting lamp groups according to the planting species or planting stage.

The second bluetooth Mesh module 27 is configured to send the full spectrum modulation command to each of the planting lamps of the planting lamp set, so as to provide a required spectrum for different growth stages of different planting objects.

As shown in fig. 8, in order to provide more data analysis services in the background, the server side 3 includes a database module 31, a filtering module 32, and a transmitting module 33.

The database module 31 is used for collecting and storing dimming parameters, planting parameters and planting effect evaluation returned by different mobile terminals.

The screening module 32 is configured to screen the feedback planting effect evaluation and determine a reference dimming parameter with an optimal planting effect under the corresponding planting parameter.

The transmitting module 33 is configured to transmit the reference dimming parameter to a connected mobile terminal, and a mobile terminal user can locally fine-tune or adjust an actual dimming parameter of the planting lamp or the planting lamp group according to the reference dimming parameter.

Example 3

As shown in fig. 12 and 13, a hardware architecture diagram of a mobile terminal 600 and a server 800 of the full spectrum planting lamp system according to the present embodiment is shown.

The mobile terminal 600 includes a processor 601 which can execute various functional software according to instructions of a computer program 604 stored in a memory or computer program instructions loaded from the memory 602 into a Random Access Memory (RAM).

The server side 800 includes a processor 801 that may perform various suitable actions and processes in accordance with computer program instructions stored in a Read Only Memory (ROM) or loaded from a memory unit into a Random Access Memory (RAM). In the RAM, various programs and data required for the operation of the device can also be stored. The CPU, ROM and RAM are connected to each other by a bus. An input/output (I/O) interface 802 is also connected to the bus.

A plurality of components in a device are connected to an I/O interface, comprising: an input unit 803 such as a keyboard, a mouse, etc.; an output unit 804 such as various types of displays, speakers, and the like; a storage unit 805 such as a magnetic disk, an optical disk, or the like; and a network interface 806, such as a network card, modem, wireless communication transceiver, etc. The network interface 806 allows the device to exchange information/data with other devices via a computer network, such as the internet, and/or various telecommunications networks.

The processing unit performs the respective methods and processes described above, for example, method steps 101 to 103 or method steps 111 to 113. For example, in some embodiments, method steps 111-113 may be implemented as a computer software program tangibly embodied on a machine-readable medium, such as a storage unit. In some embodiments, part or all of the computer program may be loaded and/or installed onto the device via the ROM and/or the communication unit. When the computer program is loaded into RAM and executed by the CPU, one or more of the above-described method steps 111 to 113 may be performed. Alternatively, in other embodiments, the CPU may be configured to perform method steps 111-113 by any other suitable means (e.g. by means of firmware).

Program code for carrying out methods of the present invention may be written in any combination of one or more programming languages. These program code may be provided to a processor or controller of a general purpose computer, special purpose computer, or other programmable data processing apparatus such that the program code, when executed by the processor or controller, causes the functions/operations specified in the flowchart and/or block diagram to be implemented. The program code may execute entirely on the machine, partly on the machine, as a stand-alone software package, partly on the machine and partly on a remote machine or entirely on the remote machine or server.

In the context of the present invention, a machine-readable medium may be a tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device. The machine-readable medium may be a machine-readable signal medium or a machine-readable storage medium. The machine-readable medium may include, but is not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any suitable combination of the foregoing. More specific examples of a machine-readable storage medium would include an electrical connection based on one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing.

The foregoing disclosure is illustrative of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The full spectrum planting lamp control method is characterized by comprising the following steps of:

acquiring an input dimming parameter;

inquiring a comparison table of the dimming parameters and the spectrum control instructions according to the dimming parameters, and determining a full spectrum regulation instruction comprising a color temperature control instruction and an illuminance control instruction;

and sending the full spectrum regulation and control instruction to a planting lamp or a planting lamp group of the Bluetooth Mesh networking, wherein the color temperature control instruction is used for turning on the planting lamp or the lamp group combination of the planting lamp group, and the illuminance control instruction is used for controlling the light intensity of the lamp group combination by current, so that different spectrum outputs are generated in a full spectrum range.

2. The method of claim 1, wherein the lamp set assembly comprises a plurality of LED lamp sets providing different color temperatures, the plurality of LED lamp sets comprising at least one of a red lamp set, a blue lamp set, a white lamp set, an infrared lamp set, and an ultraviolet lamp set, wherein the white lamp set comprises a warm white lamp set and a cool white lamp set.

3. The method for controlling full spectrum planting lamps according to claim 1, wherein when the planting lamps are grouped in a network:

scanning planting lamps, and building a planting lamp Bluetooth Mesh network according to the received planting lamp beacons;

obtaining planting parameters of a planting object, wherein the planting parameters comprise plant types and planting stages;

dividing networking planting lamps into corresponding planting lamp groups according to the plant species or planting stage;

the method further comprises the step of sending the full spectrum regulation instruction to each planting lamp of the planting lamp group in a group mode, so that required spectrum illumination is provided for different growth stages of different planting objects.

4. The full spectrum planting lamp control method as set forth in claim 3, further comprising the steps of:

the dimming parameters and the planting parameters of the planting objects are sent to a server side in wireless connection;

acquiring the planting effect evaluation of the planting object under the dimming parameters;

and sending the planting effect evaluation to the server side.

5. The full spectrum planting lamp control method as set forth in claim 4, wherein the server side further includes the steps of:

receiving and storing dimming parameters, planting parameters and planting effect evaluation returned by different mobile terminals;

screening the planting effect evaluation, and determining a reference dimming parameter with optimal planting effect under the corresponding planting parameters;

and sending the reference dimming parameter to the connected mobile terminal.

6. The utility model provides a full spectrum planting lamp system, its characterized in that, including mobile terminal and planting lamp or planting lamp group, every planting lamp includes first bluetooth Mesh module and through first bluetooth Mesh module with mobile terminal bluetooth Mesh network deployment, mobile terminal includes adjustment module, inquiry module and second bluetooth Mesh module:

the adjusting module is used for acquiring the input dimming parameters;

the inquiring module is used for inquiring a comparison table of the dimming parameters and the spectrum control instructions according to the dimming parameters and determining a full spectrum regulation instruction comprising a color temperature control instruction and an illuminance control instruction;

the second Bluetooth Mesh module is used for sending the full spectrum regulation and control instruction to the planting lamps or the planting lamp groups, the color temperature control instruction is used for turning on the planting lamps or the lamp group combination of the planting lamp groups, and the illumination control instruction is used for controlling the light intensity of the lamp group combination through current, so that different spectrum outputs are generated in the full spectrum range.

7. The full spectrum planting light system of claim 6, wherein the mobile terminal is in wireless communication connection with a server side, the light bank combination comprises a plurality of LED light banks providing different color temperatures, the plurality of LED light banks comprises at least one of a red light bank, a blue light bank, a white light bank, an infrared light bank and an ultraviolet light bank, wherein the white light bank comprises a warm white light bank and a cool white light bank.

8. The full spectrum planting lamp system of claim 6, wherein the mobile terminal further comprises a networking module, a parameter module, and a grouping module:

the networking module is used for scanning the planting lamps and constructing a planting lamp Bluetooth Mesh network according to the received planting lamp beacons;

the parameter module is used for receiving and storing planting parameters of the planting objects and planting effect evaluation, wherein the planting parameters comprise plant types and planting stages;

the grouping module is used for dividing the networking planting lamps into corresponding planting lamp groups according to the plant species or the planting stage;

the second Bluetooth Mesh module is used for sending the full-spectrum regulation and control instruction group to each planting lamp of the planting lamp group, so that required spectrums are provided for different growth stages of different planting objects.

9. The full spectrum planting lamp system of claim 7, wherein the server side comprises a database module, a screening module, and a transmitting module:

the database module is used for collecting dimming parameters, planting parameters and planting effect evaluation returned by different mobile terminals;

the screening module is used for screening the planting effect evaluation and determining a reference dimming parameter with optimal planting effect under the corresponding planting parameters;

the sending module is used for sending the reference dimming parameter to the mobile terminal.

10. A full spectrum planting lamp control system comprising a first memory provided in a mobile terminal, a first processor and a first computer program stored in the first memory and executable on the first processor, characterized in that the first processor implements the full spectrum planting lamp control method according to any one of claims 1-4 when executing the first computer program; and

the system also comprises a second memory arranged at the server side, a second processor and a second computer program which is stored in the second memory and can run on the second processor, wherein the second processor realizes the full spectrum planting lamp control method as set forth in claim 5 when executing the second computer program.

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