CN105307339A - Method and apparatus for controlling aquarium head lamp - Google Patents
Method and apparatus for controlling aquarium head lamp Download PDFInfo
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- CN105307339A CN105307339A CN201510746921.7A CN201510746921A CN105307339A CN 105307339 A CN105307339 A CN 105307339A CN 201510746921 A CN201510746921 A CN 201510746921A CN 105307339 A CN105307339 A CN 105307339A
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Abstract
Embodiments of the invention disclose a method and an apparatus for controlling an aquarium head lamp. The method comprises the steps of receiving an instruction displayed by an LED lamp, wherein the instruction displayed by the LED lamp comprises an LED-lamp-displayed instruction triggered by a user or by a preset display rule; generating a control signal for controlling the LED lamp display according to the instruction displayed by the LED lamp; sending the control signal to the LED lamp for display, wherein the LED lamp comprises the LED lamps with three or more than three kinds of colors. Therefore, the control of the proportion of light sources of multiple different colors is realized; and in addition, the different changes of lights in different time in the natural environment are simulated so as to synthesize a simulation effect of the natural environment irradiation.
Description
Technical field
The present invention relates to aquarium art, particularly relate to a kind of method and the device that control aquariums lighting lamp.
Background technology
The houselights of existing aquarium, usually adopt the mode of switch control rule to control opening or closing of light fixture, and the light source colour of light fixture mostly is white, also has employing three kinds of light source colours.But because the brightness ratio of various light source colour can not regulate respectively, thus can not synthesize and produce multiple various combination and simulate the not different in the same time color of natural sunlight and the change of brightness every day on request.
Because various biology lived in the color of the sunlight in natural environment originally and brightness is the every day of different change along with the different moment, long-term habits and customs define photoperiodic biological clock, and this photoperiodic biological clock guides the nerve of the normal physiological of the aquatic-organism such as fish, coral and the secretion of hormone and active level.Meanwhile, the cooperations such as photoperiodic biological clock and environment water temperature, go back the annual breeding cycle that Induction Control the aquatic-organism such as fish, coral.Therefore, if the color of the houselights in aquarium and brightness and ratio can not the every day of different changes along with the different moment in simulating natural environment, to a certain extent by the normal growth of the aquatic-organism such as fish, coral that affects in aquarium and breeding cycle.
Summary of the invention
The object of the embodiment of the present invention is to propose a kind of method and the device that control aquariums lighting lamp, is intended to solve the ratio the problem of simulating natural environment illumination that how to control multiple different colored light sources.
For reaching this object, the embodiment of the present invention by the following technical solutions:
First aspect, a kind of method controlling aquariums lighting lamp, described method comprises:
Receive the instruction that LED shows, the instruction of described LED display comprises instruction that is that user triggers or that show according to the LED that the display rule pre-set triggers;
According to the instruction that described LED shows, generate the control signal controlling the display of described LED;
Send to described LED to show described control signal, described LED comprises the LED of the color of more than three kinds or three kinds;
Preferably, the instruction of the LED display that described reception user triggers, comprising:
Receive the instruction of the LED display that described user is triggered by infrared launcher, button, indicator light and wireless network.
Second aspect, a kind of device controlling aquariums lighting lamp, described device comprises:
For receiving the infrared receiving module of the instruction of the LED display that user is triggered by infrared launcher;
For receiving the key-press matrix module of the instruction of the LED display that described user is triggered by button;
For receiving the indicating lamp module of the instruction of the LED display that described user is triggered by indicator light;
For the WIFI module of the instruction by receiving the LED display that described user is triggered by wireless network;
The instruction shown for the LED triggered according to described user or the MCU module controlling the control signal that described LED shows according to the display generate rule pre-set;
For receive described MCU module send control signal and according to described control signal control described LED display LED lamp panel module;
Described infrared receiving module, described key-press matrix module, described indicating lamp module, described WIFI module, described LED lamp panel module are connected with described MCU module respectively;
Described LED lamp panel module comprises the LED of the color of more than three kinds or three kinds.
Preferably, described infrared receiving module comprises electric capacity C1, triode Q5, resistance R17, the collector electrode of described Q5 connects one end and the signal transmitting terminal of described R17, and the transmitting collection ground connection of described Q5 and one end of described C1, the other end of described R17 connects the other end of described C1.
Preferably, the resistance of described R17 is 10 kilo-ohms, and the electric capacity of described electric capacity C1 is 104 farads.
Preferably, described key-press matrix module comprises resistance R18, resistance R19, resistance R20, resistance R21, K switch 1, K switch 2, K switch 3 and K switch 4, one end of described resistance R18 is connected with one end of described K switch 1, one end of described resistance R19 is connected with one end of described K switch 2, one end of resistance R20 is connected with one end of described K switch 3, and one end of resistance R21 is connected with one end of described K switch 4.
Preferably, the resistance of described R18, R19, R20, R21 is 10 kilo-ohms.
Preferably, described indicating lamp module comprises resistance R22, resistance R23, photodiode D1 and photodiode D2, and one end of described R22 connects the positive pole of described photodiode D1, and described R23 connects the positive pole of described photodiode D2.
Preferably, the resistance of described R22, R23 is 1 kilo-ohm.
Preferably, described LED lamp panel module comprises photodiode DR1, DR2, DR3, DG1, DG2, DG3, DB1, DB2, DB3, DW1, DW2, DW3, resistance R-R, R-G, R-B, R-W, metal-oxide-semiconductor Q1, Q2, Q3, Q4, resistance R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, R13, R14, R15 and R16;
The negative pole of described DR1 connects the positive pole of described DR2, the positive pole of described DR2 connects described DR3 negative pole, described DR3 negative pole connects one end of described R-R, the other end of described R-R is connected with the grid of described Q1, the drain electrode of described Q1 connects one end of described R1, and the source electrode of one end connection R13, the described Q1 of described R1 connects one end of described R9, described R2, the other end ground connection of described R1, the other end ground connection of described R2;
The negative pole of described DG1 connects the positive pole of described DG2, the positive pole of described DG2 connects described DG3 negative pole, described DG3 negative pole connects one end of described R-G, the other end of described R-G is connected with the grid of described Q2, the drain electrode of described Q2 connects one end of described R3, and the source electrode of one end connection R14, the described Q2 of described R3 connects one end of described R10, described R4, the other end ground connection of described R3, the other end ground connection of described R4;
The negative pole of described DB1 connects the positive pole of described DB2, the positive pole of described DB2 connects described DB3 negative pole, described DB3 negative pole connects one end of described R-B, the other end of described R-B is connected with the grid of described Q3, the drain electrode of described Q3 connects one end of described R5, and the source electrode of one end connection R15, the described Q3 of described R5 connects one end of described R11, described R6, the other end ground connection of described R5, the other end ground connection of described R6;
The negative pole of described DW1 connects the positive pole of described DW2, the positive pole of described DW2 connects described DW3 negative pole, described DW3 negative pole connects one end of described R-W, the other end of described R-W is connected with the grid of described QW, the drain electrode of described QW connects one end of described R7, and the source electrode of one end connection R16, the described QW of described R7 connects one end of described R12, described R8, the other end ground connection of described R7, the other end ground connection of described R8.
Preferably, the resistance of described R1, R2, R3, R4, R5, R6, R7 and R8 is 0.1 ohm; The resistance of R-R, R-G, R-B, R-W is 47 ohm, and the resistance of R9, R10, R11, R12, R13, R14, R15, R16 is 100 ohm.
Beneficial effect: the instruction that method of the present invention shows by receiving LED, the instruction of described LED display comprises instruction that is that user triggers or that show according to the LED that the display rule pre-set triggers; According to the instruction that described LED shows, generate the control signal controlling the display of described LED; Described LED is sent to show described control signal, described LED comprises the LED of the color of more than three kinds or three kinds, thus the ratio by controlling multiple different colored light sources of realization, and in simulating natural environment every day synthesize the effect of simulating natural environment illumination along with not difference change in the same time.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet that the embodiment of the present invention controls the method for aquariums lighting lamp;
Fig. 2 is the high-level schematic functional block diagram that the embodiment of the present invention controls the device of aquariums lighting lamp;
Fig. 3 is the high-level schematic functional block diagram of embodiment of the present invention infrared receiving module;
Fig. 4 is the high-level schematic functional block diagram of embodiment of the present invention key-press matrix module;
Fig. 5 is the high-level schematic functional block diagram of embodiment of the present invention indicating lamp module;
Fig. 6 is the high-level schematic functional block diagram of embodiment of the present invention LED lamp panel module;
Fig. 7 is the high-level schematic functional block diagram of embodiment of the present invention MCU module.
Embodiment
Below in conjunction with drawings and Examples, the embodiment of the present invention is described in further detail.Be understandable that, specific embodiment described herein is only for explaining the embodiment of the present invention, but not the restriction to the embodiment of the present invention.It also should be noted that, for convenience of description, illustrate only the part relevant to the embodiment of the present invention in accompanying drawing but not entire infrastructure.
Embodiment one
It is the schematic flow sheet of the method for embodiment of the present invention control aquariums lighting lamp with reference to figure 1, Fig. 1.
In embodiment one, the method for described control aquariums lighting lamp comprises:
Step 101, receives the instruction that LED shows, and the instruction of described LED display comprises instruction that is that user triggers or that show according to the LED that the display rule pre-set triggers;
Preferably, the instruction of the LED display that described reception user triggers, comprising:
Receive the instruction of the LED display that described user is triggered by infrared launcher, button, indicator light and wireless network.
Concrete, user can pass through infrared remote control, button, indicator light or WIFI network Long-distance Control MCU module circuit according in the cycle of 24 hours every days, the change of the emulated ecological environment light of 24 hours, by not sending different drive control signal to drive circuit in the same time, sends the light color of the every day of simulating natural environment illumination of different change along with the different moment and brightness and ratio to drive lamp source.
Step 102, according to the instruction that described LED shows, generates the control signal controlling the display of described LED;
Concrete, described MCU module may be used for, by the instruction of the LED display received, being converted to the control signal of drived control LED display.
Step 103, send to described LED to show described control signal, described LED comprises the LED of the color of more than three kinds or three kinds.
The instruction that the embodiment of the present invention shows by receiving LED, the instruction of described LED display comprises instruction that is that user triggers or that show according to the LED that the display rule pre-set triggers; According to the instruction that described LED shows, generate the control signal controlling the display of described LED; Described LED is sent to show described control signal, described LED comprises the LED of the color of more than three kinds or three kinds, thus the ratio by controlling multiple different colored light sources of realization, and in simulating natural environment every day synthesize the effect of simulating natural environment illumination along with not difference change in the same time.
Embodiment two
It is the device schematic diagram of the method for embodiment of the present invention control aquariums lighting lamp with reference to figure 2, Fig. 2.
In embodiment two, the device of described control aquariums lighting lamp comprises:
For receiving the infrared receiving module 201 of the instruction of the LED display that user is triggered by infrared launcher;
For receiving the key-press matrix module 202 of the instruction of the LED display that described user is triggered by button;
For receiving the indicating lamp module 203 of the instruction of the LED display that described user is triggered by indicator light;
For the WIFI module 204 of the instruction by receiving the LED display that described user is triggered by wireless network;
The instruction shown for the LED triggered according to described user or micro-control unit (MicrocontrollerUnit, the MCU) module 205 controlling the control signal that described LED shows according to the display generate rule pre-set;
For receive described MCU module send control signal and according to described control signal control described LED display LED lamp panel module 206;
Described infrared receiving module 201, described key-press matrix module 202, described indicating lamp module 203, described WIFI module 204, described LED lamp panel module 206 are connected with described MCU module 205 respectively;
Described LED lamp panel module 206 comprises the LED of the color of more than three kinds or three kinds.
Preferably, with reference to figure 3, Fig. 3 be the high-level schematic functional block diagram of embodiment of the present invention infrared receiving module.
Described infrared receiving module comprises electric capacity C1, triode Q5, resistance R17, the collector electrode of described Q5 connects one end and the signal transmitting terminal of described R17, the transmitting collection ground connection of described Q5 and one end of described C1, the other end of described R17 connects the other end of described C1.
The resistance of described R17 is 10 kilo-ohms, and the electric capacity of electric capacity C1 is 104 farads.
Preferably, with reference to figure 4, Fig. 4 be the high-level schematic functional block diagram of embodiment of the present invention key-press matrix module.
Described key-press matrix module comprises resistance R18, resistance R19, resistance R20, resistance R21, K switch 1, K switch 2, K switch 3 and K switch 4, one end of described resistance R18 is connected with one end of described K switch 1, one end of described resistance R19 is connected with one end of described K switch 2, one end of resistance R20 is connected with one end of described K switch 3, and one end of resistance R21 is connected with one end of described K switch 4.
The resistance of described R18, R19, R20, R21 is 10 kilo-ohms.
Preferably, with reference to figure 5, Fig. 5 be the high-level schematic functional block diagram of embodiment of the present invention indicating lamp module.
Described indicating lamp module comprises resistance R22, resistance R23, photodiode D1 and photodiode D2, and one end of described R22 connects the positive pole of described photodiode D1, and described R23 connects the positive pole of described photodiode D2.
The resistance of described R22, R23 is 1 kilo-ohm.
Preferably, with reference to figure 6, Fig. 6 be the high-level schematic functional block diagram of embodiment of the present invention LED lamp panel module.
Described LED lamp panel module comprises photodiode DR1, DR2, DR3, DG1, DG2, DG3, DB1, DB2, DB3, DW1, DW2, DW3, resistance R-R, R-G, R-B, R-W, metal-oxide-semiconductor Q1, Q2, Q3, Q4, resistance R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, R13, R14, R15 and R16;
The negative pole of described DR1 connects the positive pole of described DR2, the positive pole of described DR2 connects described DR3 negative pole, described DR3 negative pole connects one end of described R-R, the other end of described R-R is connected with the grid of described Q1, the drain electrode of described Q1 connects one end of described R1, and the source electrode of one end connection R13, the described Q1 of described R1 connects one end of described R9, described R2, the other end ground connection of described R1, the other end ground connection of described R2;
The negative pole of described DG1 connects the positive pole of described DG2, the positive pole of described DG2 connects described DG3 negative pole, described DG3 negative pole connects one end of described R-G, the other end of described R-G is connected with the grid of described Q2, the drain electrode of described Q2 connects one end of described R3, and the source electrode of one end connection R14, the described Q2 of described R3 connects one end of described R10, described R4, the other end ground connection of described R3, the other end ground connection of described R4;
The negative pole of described DB1 connects the positive pole of described DB2, the positive pole of described DB2 connects described DB3 negative pole, described DB3 negative pole connects one end of described R-B, the other end of described R-B is connected with the grid of described Q3, the drain electrode of described Q3 connects one end of described R5, and the source electrode of one end connection R15, the described Q3 of described R5 connects one end of described R11, described R6, the other end ground connection of described R5, the other end ground connection of described R6;
The negative pole of described DW1 connects the positive pole of described DW2, the positive pole of described DW2 connects described DW3 negative pole, described DW3 negative pole connects one end of described R-W, the other end of described R-W is connected with the grid of described QW, the drain electrode of described QW connects one end of described R7, and the source electrode of one end connection R16, the described QW of described R7 connects one end of described R12, described R8, the other end ground connection of described R7, the other end ground connection of described R8.
The resistance of described R1, R2, R3, R4, R5, R6, R7 and R8 is 0.1 ohm; The resistance of R-R, R-G, R-B, R-W is 47 ohm, and the resistance of R9, R10, R11, R12, R13, R14, R15, R16 is 100 ohm.
Preferably, with reference to figure 7, Fig. 7 be the high-level schematic functional block diagram of embodiment of the present invention MCU module.
Concrete, micro-control unit MCU, also known as one chip microcomputer (SingleChipMicrocomputer) or single-chip microcomputer, is central processing unit (CentralProcessUnit; CPU) frequency and specification do suitable reduction, and by the perimeter interface such as internal memory (memory), counter (Timer), USB, A/D conversion, UART, PLC, DMA, even LCD drive circuit is all incorporated on one chip, form the computer of chip-scale, do various combination for different application scenarios and control.Such as mobile phone, PC periphery, remote controller, to the control etc. of automotive electronics, industrial stepper motor, robotic arm, all can see the figure of MCU.
MCU module in the present invention has the external tappings such as infrared interface, power interface, wireless signal interface, to receive the instruction of the LED display that user is triggered by infrared launcher, button, indicator light and wireless network.There is the plug-in automatically generating the control signal controlling LED display in described MCU module.
The instruction that the embodiment of the present invention shows by receiving LED, the instruction of described LED display comprises instruction that is that user triggers or that show according to the LED that the display rule pre-set triggers; According to the instruction that described LED shows, generate the control signal controlling the display of described LED; Described LED is sent to show described control signal, described LED comprises the LED of the color of more than three kinds or three kinds, thus the ratio by controlling multiple different colored light sources of realization, and in simulating natural environment every day synthesize the effect of simulating natural environment illumination along with not difference change in the same time.
Below the know-why of the embodiment of the present invention is described in conjunction with specific embodiments.These describe the principle just in order to explain the embodiment of the present invention, and can not be interpreted as the restriction to embodiment of the present invention protection range by any way.Based on explanation herein, those skilled in the art does not need to pay other embodiment that performing creative labour can associate the embodiment of the present invention, these modes all by fall into the embodiment of the present invention protection range within.
Claims (10)
1. control a method for aquariums lighting lamp, it is characterized in that, described method comprises:
Receive the instruction that LED shows, the instruction of described LED display comprises instruction that is that user triggers or that show according to the LED that the display rule pre-set triggers;
According to the instruction that described LED shows, generate the control signal controlling the display of described LED;
Send to described LED to show described control signal, described LED comprises the LED of the color of more than three kinds or three kinds;
Preferably, the instruction of the LED display that described reception user triggers, comprising:
Receive the instruction of the LED display that described user is triggered by infrared launcher, button, indicator light and wireless network.
2. control a device for aquariums lighting lamp, it is characterized in that, described device comprises:
For receiving the infrared receiving module of the instruction of the LED display that user is triggered by infrared launcher;
For receiving the key-press matrix module of the instruction of the LED display that described user is triggered by button;
For receiving the indicating lamp module of the instruction of the LED display that described user is triggered by indicator light;
For the WIFI module of the instruction by receiving the LED display that described user is triggered by wireless network;
The instruction shown for the LED triggered according to described user or the MCU module controlling the control signal that described LED shows according to the display generate rule pre-set;
For receive described MCU module send control signal and according to described control signal control described LED display LED lamp panel module;
Described infrared receiving module, described key-press matrix module, described indicating lamp module, described WIFI module, described LED lamp panel module are connected with described MCU module respectively;
Described LED lamp panel module comprises the LED of the color of more than three kinds or three kinds.
3. device according to claim 2, it is characterized in that, described infrared receiving module comprises electric capacity C1, triode Q5, resistance R17, the collector electrode of described Q5 connects one end and the signal transmitting terminal of described R17, the transmitting collection ground connection of described Q5 and one end of described C1, the other end of described R17 connects the other end of described C1.
4. device according to claim 3, is characterized in that, the resistance of described R17 is 10 kilo-ohms, and the electric capacity of described electric capacity C1 is 104 farads.
5. device according to claim 2, it is characterized in that, described key-press matrix module comprises resistance R18, resistance R19, resistance R20, resistance R21, K switch 1, K switch 2, K switch 3 and K switch 4, one end of described resistance R18 is connected with one end of described K switch 1, one end of described resistance R19 is connected with one end of described K switch 2, one end of resistance R20 is connected with one end of described K switch 3, and one end of resistance R21 is connected with one end of described K switch 4.
6. device according to claim 5, is characterized in that, the resistance of described R18, R19, R20, R21 is 10 kilo-ohms.
7. device according to claim 2, it is characterized in that, described indicating lamp module comprises resistance R22, resistance R23, photodiode D1 and photodiode D2, and one end of described R22 connects the positive pole of described photodiode D1, and described R23 connects the positive pole of described photodiode D2.
8. device according to claim 7, is characterized in that, the resistance of described R22, R23 is 1 kilo-ohm.
9. device according to claim 2, it is characterized in that, described LED lamp panel module comprises photodiode DR1, DR2, DR3, DG1, DG2, DG3, DB1, DB2, DB3, DW1, DW2, DW3, resistance R-R, R-G, R-B, R-W, metal-oxide-semiconductor Q1, Q2, Q3, Q4, resistance R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, R13, R14, R15 and R16;
The negative pole of described DR1 connects the positive pole of described DR2, the positive pole of described DR2 connects described DR3 negative pole, described DR3 negative pole connects one end of described R-R, the other end of described R-R is connected with the grid of described Q1, the drain electrode of described Q1 connects one end of described R1, and the source electrode of one end connection R13, the described Q1 of described R1 connects one end of described R9, described R2, the other end ground connection of described R1, the other end ground connection of described R2;
The negative pole of described DG1 connects the positive pole of described DG2, the positive pole of described DG2 connects described DG3 negative pole, described DG3 negative pole connects one end of described R-G, the other end of described R-G is connected with the grid of described Q2, the drain electrode of described Q2 connects one end of described R3, and the source electrode of one end connection R14, the described Q2 of described R3 connects one end of described R10, described R4, the other end ground connection of described R3, the other end ground connection of described R4;
The negative pole of described DB1 connects the positive pole of described DB2, the positive pole of described DB2 connects described DB3 negative pole, described DB3 negative pole connects one end of described R-B, the other end of described R-B is connected with the grid of described Q3, the drain electrode of described Q3 connects one end of described R5, and the source electrode of one end connection R15, the described Q3 of described R5 connects one end of described R11, described R6, the other end ground connection of described R5, the other end ground connection of described R6;
The negative pole of described DW1 connects the positive pole of described DW2, the positive pole of described DW2 connects described DW3 negative pole, described DW3 negative pole connects one end of described R-W, the other end of described R-W is connected with the grid of described QW, the drain electrode of described QW connects one end of described R7, and the source electrode of one end connection R16, the described QW of described R7 connects one end of described R12, described R8, the other end ground connection of described R7, the other end ground connection of described R8.
10. device according to claim 9, is characterized in that, the resistance of described R1, R2, R3, R4, R5, R6, R7 and R8 is 0.1 ohm; The resistance of R-R, R-G, R-B, R-W is 47 ohm, and the resistance of R9, R10, R11, R12, R13, R14, R15, R16 is 100 ohm.
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CN201510746921.7A CN105307339A (en) | 2015-11-04 | 2015-11-04 | Method and apparatus for controlling aquarium head lamp |
PCT/CN2016/104383 WO2017076298A1 (en) | 2015-11-02 | 2016-11-02 | Method and device for controlling illumination lamp of aquarium |
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CN201510746921.7A CN105307339A (en) | 2015-11-04 | 2015-11-04 | Method and apparatus for controlling aquarium head lamp |
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Cited By (1)
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