CN111981423A

CN111981423A - Plant photosynthesis light supplement lamp and control program and control method thereof

Info

Publication number: CN111981423A
Application number: CN202010658905.3A
Authority: CN
Inventors: 李保金
Original assignee: Qinghai Biye Agriculture And Animal Husbandry Technology Co Ltd
Current assignee: Qinghai Biye Agriculture And Animal Husbandry Technology Co Ltd
Priority date: 2020-07-09
Filing date: 2020-07-09
Publication date: 2020-11-24

Abstract

The invention discloses a plant photosynthesis light supplement lamp and a control program and a control method thereof, wherein the light supplement lamp comprises: a fill light and a monitoring component; the light supplement lamp comprises a rear cover, a lamp panel, a lampshade and a circuit board; the front of the lamp panel is provided with a blue light lamp, a white light lamp and a red light lamp which are arranged in a row respectively, and the lamps in each row are connected in series; the back of the lamp panel is provided with a circuit board; the circuit board is provided with a switching power supply, a processor A, a Bluetooth module and three paths of dimming circuits; the switch power supply supplies power to the circuit board, and the processor A is connected with the Bluetooth module; the input end of the three-way dimming circuit is connected with the processor A; the monitoring part comprises a shell, a light intensity monitoring circuit and a processor B which are arranged in the shell, and a USB interface connected with the end part of the connecting shell; this light filling lamp uses the actual illumination intensity of mobile device internal control procedure through monitoring part calibration plant position, according to illumination demand accurate control light filling time and light filling intensity of plant, satisfies indoor plant to irradiant demand, practices thrift the electric energy simultaneously.

Description

Plant photosynthesis light supplement lamp and control program and control method thereof

Technical Field

The invention relates to the technical field of light supplement lamps, in particular to a plant photosynthesis light supplement lamp and a control program and a control method thereof.

Background

The most effective light for plant photosynthesis is red light and blue light, and the red light can increase the contents of sugar and vitamins in fruits and can also promote plant maturity; blue light can increase the content of plant protein; when the illumination intensity reaches a certain intensity, the green plants can be subjected to photosynthesis under the illumination of lamplight; when the plants are planted indoors, such as indoor soilless culture, the plants lack illumination, and the growth of the plants is influenced; in order to meet the requirement of plants on light, a light supplement lamp is adopted in the prior art to increase the light for the plants, and the requirements of different plants on light are different, wherein some plants like yin, some plants like yang and others are in an intermediate form; in addition, each plant has a light saturation point, and when the illumination intensity reaches a certain point, the photosynthesis efficiency of the plant cannot be improved along with the increase of the light intensity; obviously, the best effect cannot be achieved by simply supplementing light to the plants according to the types of the plants.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a plant photosynthesis light supplement lamp and a control program and a control method thereof, and a control program and a control method thereof; this light filling lamp sets up LED adjustable light and control circuit board to possess the bluetooth communication function, use the mobile device to set up illumination intensity and time according to plant species through the bluetooth, still include the light intensity monitoring part simultaneously, can reach the specific light intensity of plant position to the light filling lamp and monitor and feed back to the mobile device and revise illumination intensity control parameter.

In order to realize the purpose of the invention, the invention adopts the following technical scheme:

a plant photosynthesis light supplement lamp and a control program and a control method thereof comprise the following steps: a fill light and a monitoring component; the light supplement lamp comprises a rear cover, a lamp panel, a lampshade and a circuit board; the lamp panel is buckled on the lamp shade, and the rear cover covers the lamp panel and is connected with the lamp shade; the front of the lamp panel is provided with a blue light lamp, a white light lamp and a red light lamp which are arranged in a row respectively, and the lamps in each row are connected in series; the blue light lamp, the white light lamp and the red light lamp adopt LED lamps; the back of the lamp panel is provided with a circuit board; the circuit board is provided with a switching power supply, a processor A, a Bluetooth module and three paths of dimming circuits; the switch power supply supplies power to the circuit board, and the processor A is connected with the Bluetooth module; the input end of the three-way dimming circuit is connected with the processor A; the output ends of the three light-adjusting circuits are respectively connected with the blue light lamp, the white light lamp and the red light lamp which are connected in series;

the monitoring component comprises a shell, a light intensity monitoring circuit and a processor B which are arranged in the shell, and a USB interface connected with the end part of the connecting shell;

the light intensity monitoring circuit is connected with the processor B; the USB interface is connected with the processor B; the light intensity monitoring circuit and the processor B get electricity through a USB interface.

Preferably, the I/O interface of the processor a is connected to the PWM input terminal of the dimming circuit, and the UART communication interface of the processor a is connected to the bluetooth module; the LED + and LED-ends of the three dimming circuits are respectively connected with the blue light lamp, the white light lamp and the red light lamp which are connected in series.

Preferably, the lampshade is formed by four groups of inclined planes in a surrounding mode, the top and the bottom of the lampshade are provided with openings, and the openings are gradually enlarged from the top to the bottom; the lamp plate is buckled in the lamp plate frame arranged on the lamp shade; the edge of the top opening of the lampshade is provided with a fixing hole, and the edge of the rear cover of the lampshade is provided with a fixing sheet; the fixing piece is inserted into the fixing hole and then bent to realize the connection of the rear cover and the lampshade; the top of the rear cover is provided with a fixing buckle, and the side surface of the rear cover is provided with a wiring hole.

Preferably, a transparent window is arranged on the shell; a light intensity monitoring circuit is fixed at the window; the I2C interface of the processor B is connected with the I2C interface of the light intensity monitoring circuit; and the USB communication end of the processor B is connected with the USB interface.

Preferably, the USB interface is a Micro USB interface or a USB type c interface.

The utility model provides a control program of plant photosynthesis light filling lamp, it is concrete, control program is the APP or believe little procedure a little that sets up on the transfer equipment that has bluetooth communication function, includes: the system comprises a data receiving module, a light intensity calibration module, a data sending module, a control selection module, an instruction sending module and a plant light intensity database; the data sending module sends dimming data to the circuit board at intervals from low to high through the Bluetooth, and the data receiving module receives illumination intensity data from the monitoring part; the light intensity calibration module records light intensity data corresponding to the dimming data to form calibration data, the control selection module is used for calling illumination data required by a certain plant from the plant light intensity database according to requirements, the illumination data is calibrated according to the calibration data, and the instruction sending module is used for sending a calibration illumination data forming instruction to the circuit board through the Bluetooth.

A control method of a plant photosynthesis light supplement lamp comprises the following steps: comprises the following steps.

S1: and collecting the actual illumination intensity of the position where the plant is located to form calibration data.

S2: selecting a plant to obtain illumination data of the plant, wherein the illumination data comprises illumination time data and illumination intensity data, and correcting the illumination intensity data according to the calibration data.

S3: and forming an instruction of the calibrated illumination data to be sent to the circuit board through Bluetooth.

S4: and the circuit board on the light supplement lamp controls the dimming according to the illumination data control instruction.

Compared with the prior art, the invention has the following beneficial effects:

the light supplement lamp is simple in structure and convenient to install, the actual illumination intensity of the position where the plant is located is calibrated by the aid of a control program inside the mobile equipment through the monitoring part, illumination data can be accurately controlled according to the illumination requirements of the plant, the requirements of indoor plants on illumination are met, and electric energy is saved;

the light supplement lamp comprises a blue light lamp, a white light lamp and a red light lamp; the three lights are separately controlled, and the illumination data of the plants are controlled to comprise illumination time data and illumination intensity data, so that the illumination requirements of different plants can be met.

Drawings

Fig. 1 is a schematic view of an exploded structure of a light supplement lamp for photosynthesis of plants according to the present invention.

Fig. 2 is a bottom view of a light supplement lamp for photosynthesis of plants according to the present invention.

Fig. 3 is a control circuit diagram of a light supplement lamp for photosynthesis of plants according to the present invention.

Fig. 4 is a schematic view of a monitoring component of the light supplement lamp for plant photosynthesis according to the present invention.

Fig. 5 is a circuit diagram of a monitoring component of the light supplement lamp for photosynthesis of plants according to the present invention.

Fig. 6 is a diagram illustrating a control procedure of a light supplement lamp for photosynthesis according to the present invention.

Fig. 7 is a schematic view illustrating a control method of a light supplement lamp for photosynthesis of a plant according to the present invention.

In the figure: the device comprises a rear cover 1, a lamp panel 2, a lampshade 3, a lamp panel frame 4, a fixing hole 5, a wiring hole 6, a fixing piece 7, a fixing buckle 8, a blue light lamp 9, a white light lamp 10, a red light lamp 11, a circuit board 12, a switching power supply 13, a processor A14, a Bluetooth module 15, a dimming circuit 16, a monitoring part 20, a shell 21, a window 22, a USB interface 23, a processor B24, a light intensity monitoring circuit 25, a data receiving module 26, a light intensity calibration module 27, a data sending module 28, a control selection module 29, an instruction sending module 30 and a plant light intensity database 31.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described.

In one embodiment of the present invention as shown in fig. 1 and 2, a light supplement lamp for photosynthesis of plants comprises: a fill light and monitor unit 20; the light supplement lamp comprises a rear cover 1, a lamp panel 2, a lampshade 3 and a circuit board 12; the lamp panel 2 is buckled on the lampshade 3, and the rear cover 1 covers the lamp panel 2 and is connected with the lampshade 3; the front of the lamp panel 2 is provided with a blue light lamp 9, a white light lamp 10 and a red light lamp 11 which are arranged in a row respectively, and the lamps of each row are connected in series; the blue light lamp 9, the white light lamp 10 and the red light lamp 11 adopt LED lamps; the back of the lamp panel 2 is provided with a circuit board 12; the circuit board 12 is provided with a switching power supply 13, a processor A14, a Bluetooth module 15 and a three-way dimming circuit 16; the switch power supply 13 supplies power to the circuit board 12, and the processor A14 is connected with the Bluetooth module 15; the input end of the three-way dimming circuit 16 is connected with the processor A14; the output ends of the three paths of dimming circuits 16 are respectively connected with the blue light lamp 9, the white light lamp 10 and the red light lamp 11; the monitoring part 20 comprises a shell 21, a light intensity monitoring circuit 25 and a processor B24 which are arranged in the shell 21, and a USB interface 23 connected with the end part of the connecting shell 21; the light intensity monitoring circuit 25 is connected with the processor B24; the USB interface 23 is connected with the processor B24; the light intensity monitoring circuit 25 and the processor B24 get power through the USB interface 23.

As shown in fig. 3, specifically, the dimming circuit 16 adopts a PWM dimming circuit, and the circuit scheme adopts a fujitong semiconductor LED driving scheme mainly based on an MB39C602 integrated circuit, which inputs 220V of ac, provides a 0-5V PWM input terminal, and outputs LED + and LED-may be connected in series with 9 LED lamps; the processor A14 is a single chip with at least three I/O interfaces and a UART communication interface, and the power input voltage is 5V. The bluetooth module 15 adopts a module with a UART communication interface circuit; the I/O interface of the processor A14 is connected with the PWM input end of the dimming circuit 16, and the UART communication interface of the processor A14 is connected with the Bluetooth module 15; the LED + and the LED-end of the three-way dimming circuit 16 are respectively connected with the blue light lamp 9 (D1-D5), the white light lamp 10(D6-D10) and the red light lamp 11 (D11-D15).

Specifically, the lampshade 3 is formed by four groups of inclined planes in a surrounding manner, the top and the bottom of the lampshade are provided with openings, and the openings are gradually enlarged from the top to the bottom; the top opening of the lampshade 3 is provided with a lamp panel frame 4, and the lamp panel 2 is buckled in the lamp panel frame 4 arranged on the lampshade 3; the edge of the top opening of the lampshade 3 is provided with a fixing hole 5, and the edge of the rear cover 1 of the lampshade 3 is provided with a fixing sheet 7; the fixing piece 7 is inserted into the fixing hole 5 and then bent to realize the connection of the rear cover 1 and the lampshade 3; the top of the rear cover 1 is provided with a fixing buckle 8, and the side surface of the rear cover 1 is provided with a wiring hole 6; facilitating connection of power conductors to the circuit board 12.

As shown in fig. 4, specifically, the processor B24 adopts a single chip microcomputer with at least one I2C interface and one USB communication end, for example, C8051F 320; the light intensity monitoring circuit 25 comprises a TSL2561 light-digital converter and necessary auxiliary electronic components; the light intensity monitoring circuit 25 provides an interface I2C; a transparent window 22 is arranged on the shell 21; a light intensity monitoring circuit 25 is fixed at the window 22 and used for illumination collection; the I2C interface of the processor B24 is connected with the I2C interface of the light intensity monitoring circuit 25; the USB communication end of the processor B24 is connected to the USB interface 23.

Specifically, the USB interface 23 is a Micro USB interface or a USB type c interface.

As shown in fig. 5, a control program of a light supplement lamp for plant photosynthesis, specifically, the control program is an APP or a WeChat applet that is installed on a mobile device (such as a mobile phone or a pad) with a bluetooth communication function, and includes: a data receiving module 26, a light intensity calibration module 27, a data transmitting module 28, a control selection module 29, an instruction transmitting module 30, a plant light intensity database 31 (internal data can be manually input or updated by network acquisition); the data sending module 28 sends dimming command data to the circuit board 12 at intervals from low to high via bluetooth, the dimming data may be set to 100 steps and output at intervals from 1 to 100 steps, that is, the processor a14 outputs PWM waves of 100 steps, for example, 1% to 100% is set to one step at every interval of 1%; the data receiving module 26 receives the illumination intensity data from the monitoring part 20; the light intensity calibration module 27 records light intensity data corresponding to each level of dimming data to form calibration data, the control selection module 29 retrieves required illumination data of a certain plant from the plant light intensity database 31 according to requirements, the illumination data is calibrated according to the calibration data, and the instruction sending module 30 sends a calibration illumination data forming instruction to the circuit board 12 through Bluetooth.

As shown in fig. 6, a method for controlling a light supplement lamp for plant photosynthesis comprises: comprises the following steps.

Specifically, the USB interface 23 of the monitoring unit 20 is inserted into the transfer device and placed at the position of the plant, and the window 22 is aligned with the fill light to collect light intensity data; the internal control program of the transfer equipment sends dimming commands at intervals from low to high in sequence, and the circuit board 12 receives the commands and controls the brightness of the LED lamps to be changed from low to high in sequence; the control program obtains the illumination intensity data of the position of the actual arrival object from the monitoring part 20 to form calibration data.

S2: plants are selected and the illumination intensity data is corrected according to the calibration data.

Specifically, the plant needing light supplement is manually selected through a control program on the transfer device, the control program calls illumination data needed by the plant, the illumination data comprise illumination time data and illumination intensity data, and the illumination intensity data are calibrated according to calibration data.

S3: the calibrated illumination data forming command is sent to the circuit board 12 via bluetooth.

S4: and the circuit board 12 on the light supplement lamp controls the dimming according to the illumination data control instruction.

Claims

1. A plant photosynthesis light supplement, comprising: a fill-in light and a monitoring unit (20); the method is characterized in that: the light supplement lamp comprises a rear cover (1), a lamp panel (2), a lampshade (3) and a circuit board (12); the lamp panel (2) is buckled on the lampshade (3), and the rear cover (1) covers the lamp panel (2) and is connected with the lampshade (3); the front of the lamp panel (2) is provided with a blue light lamp (9), a white light lamp (10) and a red light lamp (11) which are arranged in a row respectively, and the lamps in each row are connected in series; the blue light lamp (9), the white light lamp (10) and the red light lamp (11) adopt LED lamps; the back of the lamp panel (2) is provided with a circuit board (12); the circuit board (12) is provided with a switching power supply (13), a processor A (14), a Bluetooth module (15) and a three-way dimming circuit (16); the switch power supply (13) supplies power to the circuit board (12), and the processor A (14) is connected with the Bluetooth module (15); the input end of the three-way dimming circuit (16) is connected with the processor A (14); the output ends of the three dimming circuits (16) are respectively connected with the blue light lamp (9), the white light lamp (10) and the red light lamp (11) which are connected in series;

the monitoring component (20) comprises a shell (21), a light intensity monitoring circuit (25) and a processor B (24) which are arranged in the shell (21), and a USB interface (23) which is connected with the end part of the connecting shell (21);

the light intensity monitoring circuit (25) is connected with the processor B (24); the USB interface (23) is connected with a processor B (24); the light intensity monitoring circuit (25) and the processor B (24) get electricity through the USB interface (23).

2. The light supplement lamp for plant photosynthesis according to claim 1, wherein: the I/O interface of the processor A (14) is connected with the PWM input end of the dimming circuit (16), and the UART communication interface of the processor A (14) is connected with the Bluetooth module (15); the LED + and LED-ends of the three-way dimming circuit (16) are respectively connected with the blue light lamp (9), the white light lamp (10) and the red light lamp (11) which are connected in series.

3. The light supplement lamp for plant photosynthesis according to claim 1, wherein: the lampshade (3) is surrounded by four groups of inclined planes, the top and the bottom of the lampshade are provided with openings, and the openings are gradually enlarged from the top to the bottom; the top opening of the lampshade (3) is provided with a lamp plate frame (4), and the lamp plate (2) is buckled in the lamp plate frame (4) arranged on the lampshade (3); a fixing hole (5) is formed in the edge of the top opening of the lampshade (3), and a fixing piece (7) is arranged at the edge of the rear cover (1) of the lampshade (3); the fixing piece (7) is inserted into the fixing hole (5) and then bent to realize the connection between the rear cover (1) and the lampshade (3); the top of the rear cover (1) is provided with a fixing buckle (8), and the side surface of the rear cover (1) is provided with a wiring hole (6).

4. The light supplement lamp for plant photosynthesis according to claim 2, wherein: a transparent window (22) is arranged on the shell (21); a light intensity monitoring circuit (25) is fixed at the window (22); the I2C interface of the processor B (24) is connected with the I2C interface of the light intensity monitoring circuit (25); and the USB communication end of the processor B (24) is connected with the USB interface (23).

5. The light supplement lamp for plant photosynthesis according to claim 1, wherein: the USB interface (23) is a Micro USB interface or a USB type C interface.

6. The control program for a plant photosynthesis fill-in lamp according to any one of claims 1 to 5, wherein: the control program is an APP or a wechat applet provided on a transfer device having a bluetooth communication function, and includes: the device comprises a data receiving module (26), a light intensity calibration module (27), a data sending module (28), a control selection module (29), an instruction sending module (30) and a plant light intensity database (31); the data sending module (28) sends dimming data to the circuit board (12) at intervals from low to high through Bluetooth, and the data receiving module (26) receives illumination intensity data from the monitoring part (20); the light intensity calibration module (27) records light intensity data corresponding to the dimming data to form calibration data; the control selection module (29) calls illumination data required by a certain plant from the plant light intensity database (31) according to the requirement, and calibrates the illumination data according to the calibration data; the instruction sending module (30) sends the calibration illumination data forming instruction to the circuit board (12) through Bluetooth.

7. The method according to any one of claims 1 to 5, wherein the light supplement lamp for plant photosynthesis comprises: the method comprises the following steps:

s1: collecting actual illumination intensity of the position where the plant is located to form calibration data;

s2: selecting a plant to obtain illumination data of the plant, wherein the illumination data comprises illumination time data and illumination intensity data, and correcting the illumination intensity data according to calibration data;

s3: the calibrated illumination data forming instruction is sent to a circuit board (12) through Bluetooth;

s4: and a circuit board (12) on the light supplement lamp controls the dimming according to the illumination data control instruction.