CN210431958U - Multicolor temperature LED artificial intelligence lamp manufactured based on white-yellow light sources - Google Patents
Multicolor temperature LED artificial intelligence lamp manufactured based on white-yellow light sources Download PDFInfo
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- CN210431958U CN210431958U CN201822274395.0U CN201822274395U CN210431958U CN 210431958 U CN210431958 U CN 210431958U CN 201822274395 U CN201822274395 U CN 201822274395U CN 210431958 U CN210431958 U CN 210431958U
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Abstract
The utility model discloses a multi-color temperature LED artificial intelligence lamp based on white and yellow primary color light sources, which comprises an LED light source consisting of a white LED lamp group and a yellow LED lamp group and an intelligent control system connected with the LED light source; the intelligent control system comprises a main controller and a gateway connected with the main controller; the LED light source is connected with the main controller through a brightness adjusting circuit, a first isolating circuit and a second isolating circuit; the main controller is connected with the remote monitoring terminal through the ZigBee communication module.
Description
Technical Field
The utility model relates to a polychrome temperature LED artificial intelligence lamps and lanterns based on two primary colors light source of lime and yellow are made.
Background
At present, the global environment is continuously deteriorated, clean energy is developed in all countries, and the LED lamp is more and more widely applied to the field of urban road lighting as a new light source due to the advantages of less energy consumption, strong applicability, high light definition, good comfort, short response time, no environmental pollution, multi-color temperature and the like.
With the continuous development of the LED lamp technology, the LED lighting technology is gradually applied to various fields of modern production and life, and the requirements for color temperature and brightness of the LED lamp are diversified, that is, how to accurately adjust the color temperature and brightness and display the current adjustment state is called as the technical difficulty in the LED lighting field, in different situations, different people's preferences or different color temperatures and brightnesses.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a many colour temperatures LED artificial intelligence lamps and lanterns based on two primary colors light source of lime and yellow are made can adjust the colour temperature and the luminance of LED lamp illumination.
In order to solve the technical problem, the utility model provides a multi-color temperature LED artificial intelligence lamp based on white and yellow two primary colors light source manufacturing, which comprises an LED light source consisting of a white LED lamp group and a yellow LED lamp group and an intelligent control system connected with the LED light source; the intelligent control system comprises a main controller and a gateway connected with the main controller; the LED light source is connected with the main controller through a brightness adjusting circuit, a first isolating circuit and a second isolating circuit; the main controller is connected with the remote monitoring terminal through a ZigBee communication module;
the brightness adjusting circuit comprises a ninth resistor R9, a third photocoupler U3, a tenth resistor R10, an eleventh resistor R11 and a first diode D1; a pin 1 of the third photocoupler U3 is connected with a voltage source through a ninth resistor R9, a pin 2 of the third photocoupler U3 is connected with the main controller, a pin 4 of the third photocoupler U3 is grounded, the white and yellow LED lamp sets are connected with a pin 3 of the third photocoupler U3, a cathode of the first diode D1 is connected with a pin 3 of the third photocoupler U3, a cathode of the first diode D1 is connected with the voltage source through a tenth resistor R10, and a node between the first diode D1 and the tenth resistor R10 is grounded through an eleventh resistor R11.
Further, the first isolation circuit comprises a first photocoupler U1, a first resistor R1, a second resistor R2, a third resistor R3, a fourth resistor R4 and a first transistor Q1; the pin 1 of the first photoelectric coupler U1 is connected with a voltage source through a fourth resistor R4, the pin 2 of the first photoelectric coupler U1 is connected with a main controller, the pin 3 of the first photoelectric coupler U1 is connected with the voltage source through a first resistor R1, the pin 4 of the first photoelectric coupler U1 is connected with the grid electrode of a first transistor Q1 through a second resistor R2 and is grounded through a third resistor R3, the source electrode of a first transistor Q1 is grounded, and the drain electrode of the first transistor Q1 is connected with a white LED lamp set and a yellow LED lamp set.
Further, the second isolation circuit comprises a second photocoupler U2, a fifth resistor R5, a sixth resistor R6, a seventh resistor R7, an eighth resistor R8 and a second transistor Q2; a pin 1 of the second photoelectric coupler U2 is connected with a voltage source through an eighth resistor R8, a pin 2 of the second photoelectric coupler U2 is connected with the main controller, a pin 3 of the second photoelectric coupler U2 is connected with the voltage source through a fifth resistor R5, a pin 4 of the second photoelectric coupler U2 is connected with a grid electrode of the second transistor Q2 through a sixth resistor R6 and is grounded through a seventh resistor R7, a source electrode of the second transistor Q2 is grounded, and a drain electrode of the second transistor Q2 is connected with the white and yellow LED lamp sets.
Further, intelligence control system still include with the environment detecting element that main control unit connects, the environment detecting element including respectively with temperature sensor, humidity transducer and PM2.5 sensor that main control unit connects.
Furthermore, the intelligent control system also comprises a human body following module connected with the main controller.
Furthermore, the intelligent control system also comprises a GPS module connected with the main controller.
Furthermore, the intelligent control system also comprises a power supply control circuit connected with the main controller, the power supply control circuit comprises a voltage transformation circuit, a rectification circuit, a filter circuit and a voltage stabilizing circuit which are sequentially connected, the input end of the voltage transformation circuit is connected with the mains supply, and the output end of the voltage stabilizing circuit is connected with the main controller.
Further, the main controller is a SIM8L052R8 chip.
The utility model has the advantages that: the lamp comprises an LED light source consisting of a white LED lamp group, a yellow LED lamp group and a red LED lamp group, and an intelligent control system connected with the LED light source; the brightness of the white LED lamp bank and the brightness of the yellow LED lamp can be adjusted through the brightness adjusting circuit, and meanwhile the turn-off of the white LED lamp bank and the turn-off of the yellow LED lamp are adjusted through the first isolating circuit and the second isolating circuit, so that the brightness and the color temperature are adjusted.
Drawings
The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:
fig. 1 is a schematic structural diagram of an embodiment of the present invention.
Fig. 2 is a schematic diagram of a circuit including an isolation circuit and a first two-degree adjustment circuit according to an embodiment of the present invention.
Fig. 3 is a schematic circuit diagram of a second two-degree adjustment circuit according to an embodiment of the present invention.
Fig. 4 is a schematic circuit diagram of a main controller according to an embodiment of the present invention.
Detailed Description
A multi-color-temperature LED artificial intelligent lamp manufactured based on white and yellow primary color light sources comprises an LED light source consisting of a white LED light group and a yellow LED light group and an intelligent control system connected with the LED light source. As shown in fig. 1, the intelligent control system includes a main controller and a gateway connected to the main controller; the LED light source is connected with the main controller through a brightness adjusting circuit, a first isolating circuit and a second isolating circuit; the main controller is connected with the remote monitoring terminal through a ZigBee communication module;
during operation, the main controller calculates and outputs a brightness adjusting control signal according to the ambient light intensity collected by the illumination sensor and the existing calculating method, can control the plurality of LED light sources to be lightened at the light brightness suitable for ambient light when the ambient light gradually weakens, can adjust the brightness of the white LED lamp bank and the yellow LED lamp through the brightness adjusting circuit, and simultaneously can adjust the turn-off of the white LED lamp bank and the yellow LED lamp through the first isolating circuit and the second isolating circuit, thereby adjusting the brightness and the color temperature.
As shown in fig. 2, the brightness adjusting circuit includes a ninth resistor R9, a third photocoupler U3, a tenth resistor R10, an eleventh resistor R11, and a first diode D1; a pin 1 of the third photocoupler U3 is connected with a voltage source through a ninth resistor R9, a pin 2 of the third photocoupler U3 is connected with the main controller, a pin 4 of the third photocoupler U3 is grounded, the white and yellow LED lamp sets are connected with a pin 3 of the third photocoupler U3, a cathode of the first diode D1 is connected with a pin 3 of the third photocoupler U3, a cathode of the first diode D1 is connected with the voltage source through a tenth resistor R10, and a node between the first diode D1 and the tenth resistor R10 is grounded through an eleventh resistor R11.
The first isolation circuit comprises a first photoelectric coupler U1, a first resistor R1, a second resistor R2, a third resistor R3, a fourth resistor R4 and a first transistor Q1; the pin 1 of the first photoelectric coupler U1 is connected with a voltage source through a fourth resistor R4, the pin 2 of the first photoelectric coupler U1 is connected with a main controller, the pin 3 of the first photoelectric coupler U1 is connected with the voltage source through a first resistor R1, the pin 4 of the first photoelectric coupler U1 is connected with the grid electrode of a first transistor Q1 through a second resistor R2 and is grounded through a third resistor R3, the source electrode of a first transistor Q1 is grounded, and the drain electrode of the first transistor Q1 is connected with a white LED lamp set and a yellow LED lamp set.
The second isolation circuit comprises a second photoelectric coupler U2, a fifth resistor R5, a sixth resistor R6, a seventh resistor R7, an eighth resistor R8 and a second transistor Q2; a pin 1 of the second photoelectric coupler U2 is connected with a voltage source through an eighth resistor R8, a pin 2 of the second photoelectric coupler U2 is connected with the main controller, a pin 3 of the second photoelectric coupler U2 is connected with the voltage source through a fifth resistor R5, a pin 4 of the second photoelectric coupler U2 is connected with a grid electrode of the second transistor Q2 through a sixth resistor R6 and is grounded through a seventh resistor R7, a source electrode of the second transistor Q2 is grounded, and a drain electrode of the second transistor Q2 is connected with the white and yellow LED lamp sets.
In addition, this artificial intelligence lamps and lanterns still include with the environment detecting element that main control unit connects, the environment detecting element including respectively with temperature sensor, humidity transducer and PM2.5 sensor that main control unit connects. The temperature, the humidity and the PM2.5 concentration of the street lamp are detected through the environment detection unit, the main controller judges whether fog can be generated on the current road section or not through detection data and an existing algorithm, and the penetration force can be enhanced by adjusting the brightness of yellow light when the current environment is judged to generate fog through judging the brightness and the color temperature of the LED light source.
The artificial intelligent lamp also comprises a human body following module connected with the main controller. The human body following module can be used for realizing the following illumination of the human body. The area where the human body is located changes along with the walking of the human body, and if the human body moves from the illuminated area to the non-illuminated area, the non-illuminated area detects that people exist in the area, and the electric lamp in the area is automatically turned on. When the original illumination area where the human body is located detects that no person exists in the area, the electric lamp in the area is automatically turned off after the set monitoring time, and the intelligence of illumination control is improved.
The intelligent control system further comprises a power supply control circuit connected with the main controller, the power supply control circuit comprises a voltage transformation circuit, a rectification circuit, a filter circuit and a voltage stabilizing circuit which are sequentially connected, the input end of the voltage transformation circuit is connected with a mains supply, and the output end of the voltage stabilizing circuit is connected with the main controller.
As shown in fig. 4, the main controller is a SIM8L052R8 chip, and the SIM8L052R8 chip has low cost, low power consumption and high performance processing capability. The system has a strong external communication interface, and can be used for conveniently forming a large control system.
Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.
Claims (8)
1. A multi-color temperature LED artificial intelligence lamp manufactured based on white and yellow primary color light sources is characterized by comprising an LED light source consisting of a white LED light group and a yellow LED light group and an intelligent control system connected with the LED light source; the intelligent control system comprises a main controller and a gateway connected with the main controller; the LED light source is connected with the main controller through a brightness adjusting circuit, a first isolating circuit and a second isolating circuit; the main controller is connected with the remote monitoring terminal through a ZigBee communication module;
the brightness adjusting circuit comprises a ninth resistor R9, a third photocoupler U3, a tenth resistor R10, an eleventh resistor R11 and a first diode D1; a pin 1 of the third photocoupler U3 is connected with a voltage source through a ninth resistor R9, a pin 2 of the third photocoupler U3 is connected with the main controller, a pin 4 of the third photocoupler U3 is grounded, the white and yellow LED lamp sets are connected with a pin 3 of the third photocoupler U3, a cathode of the first diode D1 is connected with a pin 3 of the third photocoupler U3, a cathode of the first diode D1 is connected with the voltage source through a tenth resistor R10, and a node between the first diode D1 and the tenth resistor R10 is grounded through an eleventh resistor R11.
2. The artificial intelligence lamp of claim 1, wherein the first isolation circuit comprises a first photocoupler U1, a first resistor R1, a second resistor R2, a third resistor R3, a fourth resistor R4 and a first transistor Q1; the pin 1 of the first photoelectric coupler U1 is connected with a voltage source through a fourth resistor R4, the pin 2 of the first photoelectric coupler U1 is connected with a main controller, the pin 3 of the first photoelectric coupler U1 is connected with the voltage source through a first resistor R1, the pin 4 of the first photoelectric coupler U1 is connected with the grid electrode of a first transistor Q1 through a second resistor R2 and is grounded through a third resistor R3, the source electrode of a first transistor Q1 is grounded, and the drain electrode of the first transistor Q1 is connected with a white LED lamp set and a yellow LED lamp set.
3. The artificial intelligence lamp of claim 2, wherein the second isolation circuit comprises a second photocoupler U2, a fifth resistor R5, a sixth resistor R6, a seventh resistor R7, an eighth resistor R8 and a second transistor Q2; a pin 1 of the second photoelectric coupler U2 is connected with a voltage source through an eighth resistor R8, a pin 2 of the second photoelectric coupler U2 is connected with the main controller, a pin 3 of the second photoelectric coupler U2 is connected with the voltage source through a fifth resistor R5, a pin 4 of the second photoelectric coupler U2 is connected with a grid electrode of the second transistor Q2 through a sixth resistor R6 and is grounded through a seventh resistor R7, a source electrode of the second transistor Q2 is grounded, and a drain electrode of the second transistor Q2 is connected with the white and yellow LED lamp sets.
4. The artificial intelligence lamp of the multi-color temperature LED manufactured based on the two primary color light sources of white and yellow according to any one of claims 1-3, wherein the intelligent control system further comprises an environment detection unit connected with the main controller, and the environment detection unit comprises a temperature sensor, a humidity sensor and a PM2.5 sensor which are respectively connected with the main controller.
5. The artificial intelligence lamp of claim 1-3, wherein the intelligent control system further comprises a human body following module connected to the main controller.
6. The artificial intelligence light fixture of claim 1-3, wherein the intelligence control system further comprises a GPS module connected to the main controller.
7. The artificial intelligence LED lamp based on white and yellow light sources with multiple color temperatures manufactured according to claim 1, wherein the intelligence control system further comprises a power control circuit connected with the main controller, the power control circuit comprises a transformer circuit, a rectifier circuit, a filter circuit and a voltage regulator circuit which are connected in sequence, an input end of the transformer circuit is connected with a mains supply, and an output end of the voltage regulator circuit is connected with the main controller.
8. The LED artificial intelligence light fixture of claim 1, wherein the master controller is a SIM8L052R8 chip.
Priority Applications (1)
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CN201822274395.0U CN210431958U (en) | 2018-12-29 | 2018-12-29 | Multicolor temperature LED artificial intelligence lamp manufactured based on white-yellow light sources |
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CN201822274395.0U CN210431958U (en) | 2018-12-29 | 2018-12-29 | Multicolor temperature LED artificial intelligence lamp manufactured based on white-yellow light sources |
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