CN215379285U - Intelligent lamp with adjustable color temperature and brightness controlled by RFID (radio frequency identification) remote control and Bluetooth - Google Patents
Intelligent lamp with adjustable color temperature and brightness controlled by RFID (radio frequency identification) remote control and Bluetooth Download PDFInfo
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- CN215379285U CN215379285U CN202121813269.3U CN202121813269U CN215379285U CN 215379285 U CN215379285 U CN 215379285U CN 202121813269 U CN202121813269 U CN 202121813269U CN 215379285 U CN215379285 U CN 215379285U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
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Abstract
The utility model discloses an intelligent lamp with adjustable color temperature and brightness controlled by RFID remote control and Bluetooth, which comprises: remote controller, intelligent lamp body, the remote controller includes: the RFID system comprises a first power supply, a first RFID circuit, a key switch circuit and an adjusting circuit, wherein the first RFID circuit, the key switch circuit and the adjusting circuit are connected with the first power supply; the intelligent lamp body includes: LED lamp, second RFID circuit, bluetooth module. The remote controller is connected with the second RFID circuit through the first RFID circuit in a communication mode, the intelligent lamp body is controlled, the Bluetooth module can be connected with the intelligent mobile phone, the intelligent lamp body can be controlled through the intelligent mobile phone, and a user can adjust color temperature of the intelligent lamp through wireless control.
Description
Technical Field
The utility model relates to the technical field of intelligent lamps, in particular to an intelligent lamp with adjustable color temperature and brightness, which is controlled by RFID (radio frequency identification) remote control and Bluetooth.
Background
The use of the desk lamp has deepened thousands of households, the on-off control is realized in a manual mode when the traditional monochromatic desk lamp is used, the user experience is poor, the brightness cannot be adjusted, the waste of excessive electric energy is easily caused, and the use requirements of different scenes cannot be well met even in monochromatic temperature. Entering the 21 st century Internet information era, smart homes are used as a new trend of social development, so that the use of users is greatly facilitated, the user experience is improved, and more power resources can be saved. Therefore, in order to solve the above problems, it is necessary to design a multifunctional wireless-controlled intelligent lamp with adjustable color temperature.
Accordingly, the prior art is deficient and needs improvement.
SUMMERY OF THE UTILITY MODEL
The technical problems to be solved by the utility model are as follows: the utility model provides an intelligent lamp that colour temperature luminance is adjustable of RFID remote control and bluetooth control, convenience of customers carries out wireless control to the desk lamp and adjusts the colour temperature.
The technical scheme of the utility model is as follows: the utility model provides a colour temperature adjustable intelligent lamp of luminance of RFID remote control and bluetooth control, includes: remote controller, intelligent lamp body, the remote controller includes: the RFID system comprises a first power supply, a first RFID circuit, a key switch circuit and an adjusting circuit, wherein the first RFID circuit, the key switch circuit and the adjusting circuit are connected with the first power supply; the intelligent lamp body includes: the LED lamp comprises a second power supply, a power supply switch circuit, a voltage reduction circuit, a boosting circuit, an LED lamp, a second RFID circuit and a Bluetooth module, wherein the power supply switch circuit and the voltage reduction circuit are respectively connected with the second power supply; the first RFID circuit is communicatively coupled to the second RFID circuit.
The first power supply is used for supplying power to the first RFID circuit, the key switch circuit and the adjusting circuit, the first RFID circuit is used for carrying out wireless communication with the second RFID circuit, the key switch circuit is used for awakening the first RFID circuit, and the adjusting circuit is used for outputting a control signal to the first RFID circuit. The second power is used for supplying power to each module of the intelligent lamp, the Bluetooth module controls the voltage input of the booster circuit through the power supply switch circuit, and the booster circuit is used for boosting the voltage of the power and outputting the boosted voltage to the LED lamp.
The remote controller is connected with the second RFID circuit through the first RFID circuit in a communication mode, the intelligent lamp body is controlled, the Bluetooth module can be connected with the intelligent mobile phone, the intelligent lamp body can be controlled through the intelligent mobile phone, and a user can adjust color temperature of the intelligent lamp through wireless control.
Further, the power supply switching circuit includes: the Bluetooth module comprises an NPN type triode and a p-channel MOS tube, wherein the base electrode of the NPN type triode is electrically connected with the Bluetooth module, the emitting electrode of the NPN type triode is grounded, the collecting electrode of the NPN type triode is electrically connected with the G electrode of the p-channel MOS tube through a first voltage dividing resistor, the S electrode of the p-channel MOS tube is connected with a second power supply, the second power supply is connected with the G electrode of the p-channel MOS tube through a second voltage dividing resistor, and the D electrode of the p-channel MOS tube is connected with the voltage input end of the boosting circuit.
The switching principle of the power supply switching circuit is as follows: the Bluetooth module outputs high level to the base electrode of the NPN type triode, so that the collector electrode of the NPN type triode is conducted with the emitter electrode, the collector electrode is grounded, the G pole of the p-channel MOS tube is in low level, the S pole and the D pole of the p-channel MOS tube are conducted, and the second power supply supplies power for the booster circuit. When the second power supply is not needed to supply power to the booster circuit, the Bluetooth module outputs a low level to the NPN type triode, so that an emitting electrode and a collecting electrode of the NPN type triode are not conducted, a G electrode of the p-channel MOS tube is not in the low level, an S electrode and a D electrode of the p-channel MOS tube are not conducted, and the second power supply cannot supply power to the booster circuit.
Further, the boost circuit is two sets, the LED lamp includes: the warm light LED and the cold light LED are respectively connected with the voltage output end of the group of booster circuits.
Further, the first power supply includes: the dry battery is connected with the voltage stabilizing circuit.
Further, the second power supply is a charging interface and/or a rechargeable battery.
Further, the adjusting circuit adopts a stepless knob switch.
By adopting the scheme, the color temperature and brightness adjustable intelligent lamp controlled by the RFID and the Bluetooth is provided, the remote controller is in communication connection with the second RFID circuit through the first RFID circuit, the intelligent lamp body is controlled, the Bluetooth module can be connected with the intelligent mobile phone, the intelligent lamp body can be controlled through the intelligent mobile phone, and a user can conveniently adjust the color temperature by wirelessly controlling the intelligent lamp.
Drawings
FIG. 1 is a functional block diagram of the present invention;
FIG. 2 is a circuit schematic of a first RFID circuit;
FIG. 3 is a schematic circuit diagram of a keyswitch circuit;
FIG. 4 is a circuit schematic of the regulating circuit;
FIG. 5 is a circuit diagram of a dry cell battery of the first power source;
FIG. 6 is a circuit schematic of a voltage regulator circuit of the first power supply;
FIG. 7 is a circuit diagram of a second power supply;
FIG. 8 is a circuit schematic of a power switching circuit;
FIG. 9 is a circuit schematic of the voltage step-down circuit;
FIG. 10 is a schematic circuit diagram of a first boost circuit;
FIG. 11 is a schematic circuit diagram of a second boost circuit;
FIG. 12 is a circuit diagram of warm light LEDs;
FIG. 13 is a circuit diagram of a cold light LED;
FIG. 14 is a circuit schematic of a second RFID circuit;
fig. 15 is a circuit connection diagram of the bluetooth module.
Detailed Description
The utility model is described in detail below with reference to the figures and the specific embodiments.
Referring to fig. 1 to 15, the present invention provides an intelligent lamp with adjustable color temperature and brightness controlled by RFID remote control and bluetooth, comprising: remote controller, intelligent lamp body, the remote controller includes: the RFID system comprises a first power supply 15, a first RFID circuit 10, a key switch circuit 11 and an adjusting circuit 12, wherein the first RFID circuit 10 is connected with the first power supply 15, and the key switch circuit 11 and the adjusting circuit 12 are connected with the first RFID circuit 10; the intelligent lamp body includes: the second power supply 27, the power supply switch circuit and the voltage reducing circuit 21 which are respectively connected with the second power supply 27, the boost circuit 22 which is connected with the power supply switch circuit, the LED lamp which is connected with the boost circuit 22, the second RFID circuit 25 and the Bluetooth module 26 which are respectively connected with the voltage reducing circuit 21, and the Bluetooth module 26 are respectively connected with the power supply switch circuit, the boost circuit 22 and the second RFID circuit 25; the first RFID circuit 10 is communicatively coupled to the second RFID circuit 25.
The first power supply 15 is used for supplying power to the first RFID circuit 10, the key switch circuit 11 and the adjusting circuit 12, the first RFID circuit 10 is used for performing wireless communication with the second RFID circuit 25, the key switch circuit 11 is used for waking up the first RFID circuit 10, and the adjusting circuit 12 is used for outputting a control signal to the first RFID circuit 10. The second power supply 27 is used for supplying power to each module of the intelligent lamp, the bluetooth module 26 controls the voltage input of the booster circuit 22 through the power supply switch circuit, and the booster circuit 22 is used for boosting the voltage of the power supply and outputting the boosted voltage to the LED lamp.
The remote controller is in communication connection with the second RFID circuit 25 through the first RFID circuit 10, and the intelligent lamp body is controlled, the Bluetooth module 26 can be connected with the intelligent mobile phone, the intelligent lamp body can be controlled through the intelligent mobile phone, and a great convenience of customers can adjust color temperature by performing wireless control on the intelligent lamp.
In this embodiment, the power supply switching circuit includes: the base of the NPN-type triode 31 is electrically connected to the bluetooth module 26, the emitter of the NPN-type triode 31 is grounded, the collector of the NPN-type triode 31 is electrically connected to the G-pole of the p-channel MOS 32 through a first voltage-dividing resistor 33, the S-pole of the p-channel MOS 32 is connected to the second power supply 27, the second power supply 27 is connected to the G-pole of the p-channel MOS 32 through a second voltage-dividing resistor 34, and the D-pole of the p-channel MOS 32 is connected to the voltage input terminal of the voltage-boosting circuit 22.
The switching principle of the power supply switching circuit is as follows: the bluetooth module 26 outputs a high level to the base of the NPN transistor 31, so that the collector of the NPN transistor 31 is connected to the emitter, and the collector is grounded, so that the G pole of the p-channel MOS transistor 32 is at a low level, so that the S pole and the D pole of the p-channel MOS transistor 32 are connected, and the second power supply 27 supplies power to the boost circuit 22. When the second power supply 27 is not needed to supply power to the boost circuit 22, the bluetooth module 26 outputs a low level to the NPN transistor 31, so that the emitter and the collector of the NPN transistor 31 are not conducted, and thus the G pole of the p-channel MOS transistor 32 is not at a low level, so that the S pole and the D pole of the p-channel MOS transistor 32 are not conducted, and the second power supply 27 cannot supply power to the boost circuit 22.
In this embodiment, the boosting circuits 22 are two groups, and the LED lamp includes: the warm light LED23 and the cold light LED24, the warm light LED23 and the cold light LED24 are respectively connected with the voltage output ends of the group of the booster circuits 22.
In the present embodiment, the first power supply 15 includes: the dry battery 13, with the voltage regulator circuit 14 that the said dry battery 13 connects.
In this embodiment, the second power supply 27 is a charging interface, and the charging interface is a type-c interface.
In the present embodiment, the adjusting circuit 12 is a stepless knob switch.
In summary, the utility model provides an intelligent lamp with adjustable color temperature and brightness, which is controlled by an RFID remote control and a bluetooth, wherein the remote control is in communication connection with a second RFID circuit through a first RFID circuit to control the intelligent lamp body, the bluetooth module can be connected with an intelligent mobile phone, and the intelligent lamp body can be controlled through the intelligent mobile phone, so that a user can adjust the color temperature by wirelessly controlling the intelligent lamp.
The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (6)
1. An intelligent lamp that colour temperature luminance is adjustable of RFID remote control and bluetooth control, its characterized in that includes: remote controller, intelligent lamp body, the remote controller includes: the RFID system comprises a first power supply, a first RFID circuit, a key switch circuit and an adjusting circuit, wherein the first RFID circuit, the key switch circuit and the adjusting circuit are connected with the first power supply; the intelligent lamp body includes: the LED lamp comprises a second power supply, a power supply switch circuit, a voltage reduction circuit, a boosting circuit, an LED lamp, a second RFID circuit and a Bluetooth module, wherein the power supply switch circuit and the voltage reduction circuit are respectively connected with the second power supply; the first RFID circuit is communicatively coupled to the second RFID circuit.
2. The RFID remote control and Bluetooth controlled color temperature and brightness adjustable intelligent lamp as claimed in claim 1, wherein the power supply switch circuit comprises: the Bluetooth module comprises an NPN type triode and a p-channel MOS tube, wherein the base electrode of the NPN type triode is electrically connected with the Bluetooth module, the emitting electrode of the NPN type triode is grounded, the collecting electrode of the NPN type triode is electrically connected with the G electrode of the p-channel MOS tube through a first voltage dividing resistor, the S electrode of the p-channel MOS tube is connected with a second power supply, the second power supply is connected with the G electrode of the p-channel MOS tube through a second voltage dividing resistor, and the D electrode of the p-channel MOS tube is connected with the voltage input end of the boosting circuit.
3. The RFID remote control and Bluetooth controlled intelligent lamp with adjustable color temperature and brightness as claimed in claim 1, wherein the boost circuits are two groups, and the LED lamp comprises: the warm light LED and the cold light LED are respectively connected with the voltage output end of the group of booster circuits.
4. The RFID remote-control and Bluetooth-controlled color temperature and brightness adjustable intelligent lamp as claimed in claim 1, wherein the first power supply comprises: the dry battery is connected with the voltage stabilizing circuit.
5. The RFID remote control and Bluetooth controlled color temperature and brightness adjustable intelligent lamp as claimed in claim 1, wherein the second power supply is a charging interface and/or a rechargeable battery.
6. The RFID remote-control and Bluetooth controlled intelligent lamp with adjustable color temperature and brightness as claimed in claim 1, wherein the adjusting circuit is a stepless knob switch.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121813269.3U CN215379285U (en) | 2021-08-04 | 2021-08-04 | Intelligent lamp with adjustable color temperature and brightness controlled by RFID (radio frequency identification) remote control and Bluetooth |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121813269.3U CN215379285U (en) | 2021-08-04 | 2021-08-04 | Intelligent lamp with adjustable color temperature and brightness controlled by RFID (radio frequency identification) remote control and Bluetooth |
Publications (1)
Publication Number | Publication Date |
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CN215379285U true CN215379285U (en) | 2021-12-31 |
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Family Applications (1)
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CN202121813269.3U Active CN215379285U (en) | 2021-08-04 | 2021-08-04 | Intelligent lamp with adjustable color temperature and brightness controlled by RFID (radio frequency identification) remote control and Bluetooth |
Country Status (1)
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CN (1) | CN215379285U (en) |
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2021
- 2021-08-04 CN CN202121813269.3U patent/CN215379285U/en active Active
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