CN203882213U - Classroom lamplight and temperature monitoring device - Google Patents
Classroom lamplight and temperature monitoring device Download PDFInfo
- Publication number
- CN203882213U CN203882213U CN201420316461.5U CN201420316461U CN203882213U CN 203882213 U CN203882213 U CN 203882213U CN 201420316461 U CN201420316461 U CN 201420316461U CN 203882213 U CN203882213 U CN 203882213U
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- relay
- temperature
- human body
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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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- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
A classroom lamplight and temperature monitoring device is designed taking an STM8S105K6T6 single-chip microcomputer as a core through combination with sensor and other technologies. The classroom lamplight and temperature monitoring device is composed of a single-chip microcomputer controller (1), an illumination intensity sensor module (2), a temperature detection module (3), a human body infrared ray sensing module (4), a relay switch circuit (5) and an infrared remote control receiving circuit (6) together. When a human body infrared ray signal is detected and acquired illumination intensity is below a set value, control of a lamplight power supply is achieved through control of a relay; when a human body infrared ray signal is detected and an acquired temperature value is below a set value, power supply control of a temperature adjusting device is achieved through control of the relay; remote control codes are detected through the infrared remote control receiving circuit, so illumination intensity and temperature parameter values are set in an infrared remote control manner; and the device has the substantial advantages of strong practicality, the high intelligent degree, convenient parameter setting and the like.
Description
Technical field
The utility model relates to single-chip microcomputer control technology, collecting sensor signal technology, Control technology, Infrared Ray Remote Control Technology, especially a kind of classroom lighting, device for monitoring temperature.
Background technology
Classroom lighting, device for monitoring temperature can not only meet indoor occupant to illumination and the requirement of temperature again can be energy-conservation, extend light fixture and thermostatic life-span, reduce electric cost, there is the advantages such as practical, easy to use.
It is that core combined sensor technology, Control technology, Infrared Ray Remote Control Technology are designed a kind of classroom lighting, device for monitoring temperature that this device adopts high performance-price ratio STM8S105K6T6 single-chip microcomputer.
Summary of the invention
The purpose of this utility model is to provide a kind of classroom lighting, device for monitoring temperature, gathers human body infrared signal by intensity of illumination sensor collection intensity of illumination data, temperature sensor collecting temperature data, human body infrared induction sensor; In the time detecting that the intensity of illumination data of human body infrared signal and collection are less than setting value, realize the control of light power by pilot relay; In the time detecting that the temperature value of human body infrared signal and collection is less than setting value, realize thermostatic power supply control by pilot relay; Infrared remote control reception circuit detects remote control mode, realizes infrared remote control intensity of illumination, temperature parameter value are set.
The utility model solves the technical scheme that its technical matters adopts: the utility model is taking high performance-price ratio STM8S105K6T6 single-chip microcomputer as core combined sensor technology, Control technology, Infrared Ray Remote Control Technology designs, by singlechip controller (1), intensity of illumination sensor assembly (2), temperature detecting module (3), human body infrared induction module (4), relay switching circuit (5), infrared remote control reception circuit (6) forms jointly, it is characterized in that: form singlechip controller (1) by STM8S105K6T6 single-chip microcomputer, by ISL29010 module composition intensity of illumination sensor assembly (2), by DS18B20 module composition temperature detecting module (3), by CD-208 module composition human body infrared induction module (4), by 9013 triodes, 8050 triodes, HF32F-5V relay, PA1A-5V relay forms relay switching circuit (5), by HX1838 infrared receiving module, LM393 voltage comparator forms infrared remote control reception circuit (6), the PA4 of STM8S105K6T6 single-chip microcomputer, SDI, the SCLK port that PA5 port connects ISL29010 module, gather intensity of illumination data, the PB1 port of STM8S105K6T6 single-chip microcomputer connects the DQ port of DS18B20 module, by one-line digital interface collecting temperature value, otherwise its digital level output port output high level signal output low level signal when CD-208 module detects human body infrared signal, the PB2 port of STM8S105K6T6 single-chip microcomputer connects the digital level output port of CD-208 module, realizes human body infrared signals collecting, the PB3 port of STM8S105K6T6 single-chip microcomputer connects the base stage of 9013 triodes, PB4 port connects the base stage of 8050 triodes, the collector of 9013 triodes connects the input port of HF32F-5V relay, the output port of HF32F-5V relay connects light power, the collector of 8050 triodes connects the input port of PA1A-5V relay, the power supply of the output port jointing temp regulating device of PA1A-5V relay, in the time detecting that the intensity of illumination data of human body infrared signal and collection are less than setting value, PB3 port output high level signal makes the output port turn-on lamp photoelectric source bright light of HF32F-5V relay, otherwise close lamp, in the time detecting that the temperature value of human body infrared signal and collection is less than setting value, PB4 port output high level signal makes the output port of PA1A-5V relay connect thermostatic power supply, otherwise the power supply of closing temperature regulating device, realize intelligence control lamp, temperature controlling function, the analog voltage output port of HX1838 module connects the in-phase voltage input port of LM393 voltage comparator, the output port of LM393 voltage comparator meets the external interrupt input port PB7 of STM8S105K6T6 single-chip microcomputer, detect remote control mode, realize infrared remote control intensity of illumination, temperature parameter value are set.
The beneficial effects of the utility model are: design taking high performance-price ratio STM8S105K6T6 single-chip microcomputer as core combined sensor technology, Control technology, Infrared Ray Remote Control Technology, in the time detecting that the intensity of illumination data of human body infrared signal and collection are less than setting value, realize the control of light power by pilot relay; In the time detecting that the temperature value of human body infrared signal and collection is less than setting value, realize thermostatic power supply control by pilot relay; Detect remote control mode by infrared remote control reception circuit, realize infrared remote control intensity of illumination, temperature parameter value are set; Practical, intelligent degree that device has is high, parameter arranges the distinguishing features such as convenient.
Brief description of the drawings
Below in conjunction with accompanying drawing, the utility model will be further described.
Shown in Fig. 1, be theory structure block diagram of the present utility model, in figure: 1. singlechip controller, 2. intensity of illumination sensor assembly, 3. temperature detecting module, 4. human body infrared induction module, 5. relay switching circuit, 6. infrared remote control reception circuit.
Embodiment
Jointly formed by singlechip controller (1), intensity of illumination sensor assembly (2), temperature detecting module (3), human body infrared induction module (4), relay switching circuit (5), infrared remote control reception circuit (6) referring to Fig. 1 the utility model.
Form singlechip controller (1) by STM8S105K6T6 single-chip microcomputer, by ISL29010 module composition intensity of illumination sensor assembly (2), ISL29010 module adopts IIC interface to communicate, adopt the PA4 of STM8S105K6T6 single-chip microcomputer, PA5 port Simulation with I IC sequential, write control word by IIC interface to ISL29010 module and obtain illumination intensity value, " COMMAND " control word arranges the inside ADC mode of operation of ISL29010 module, device mode of operation, timer internal pattern, inner photosensitive number of diodes is according to pattern, resolution arranges, this arranges COMMAND=0x88, " CONTROL " control word arranges the internal amplifier gain of ISL29010 module, and this arranges CONTROL=0x0C, STM8S105K6T6 single-chip microcomputer can be realized intensity of illumination data acquisition by the data register address 0x04 and the 0x05 that read ISL29010 module.
By DS18B20 module composition temperature detecting module (3), the PB1 port of STM8S105K6T6 single-chip microcomputer connects the DQ port of DS18B20 module, reads the address ram 0,1 of DS18B20 module by one-line digital interface, directly collecting temperature value.
By CD-208 module composition human body infrared induction module (4), otherwise its digital level output port output high level signal output low level signal when CD-208 module detects human body infrared signal, the PB2 port of STM8S105K6T6 single-chip microcomputer connects the digital level output port of CD-208 module, realizes human body infrared signals collecting.
By 9013 triodes, 8050 triodes, HF32F-5V relay, PA1A-5V relay forms relay switching circuit (5), the PB3 port of STM8S105K6T6 single-chip microcomputer connects the base stage of 9013 triodes, PB4 port connects the base stage of 8050 triodes, the collector of 9013 triodes connects the input port of HF32F-5V relay, the output port of HF32F-5V relay connects light power, the collector of 8050 triodes connects the input port of PA1A-5V relay, the power supply of the output port jointing temp regulating device of PA1A-5V relay, in the time detecting that the intensity of illumination data of human body infrared signal and collection are less than setting value, PB3 port output high level signal makes the output port turn-on lamp photoelectric source bright light of HF32F-5V relay, otherwise close lamp, in the time detecting that the temperature value of human body infrared signal and collection is less than setting value, PB4 port output high level signal makes the output port of PA1A-5V relay connect thermostatic power supply, otherwise the power supply of closing temperature regulating device, realize intelligence control lamp, temperature controlling function.
Form infrared remote control reception circuit (6) by HX1838 infrared receiving module, LM393 voltage comparator, the analog voltage output port of HX1838 module connects the in-phase voltage input port of LM393 voltage comparator, the output port of LM393 voltage comparator meets the external interrupt input port PB7 of STM8S105K6T6 single-chip microcomputer, detect remote control mode, realize infrared remote control intensity of illumination, temperature parameter value are set.
Claims (1)
1. a classroom lighting, device for monitoring temperature, by singlechip controller (1), intensity of illumination sensor assembly (2), temperature detecting module (3), human body infrared induction module (4), relay switching circuit (5), infrared remote control reception circuit (6) forms jointly, it is characterized in that: a). form singlechip controller (1) by STM8S105K6T6 single-chip microcomputer, by ISL29010 module composition intensity of illumination sensor assembly (2), by DS18B20 module composition temperature detecting module (3), by CD-208 module composition human body infrared induction module (4), by 9013 triodes, 8050 triodes, HF32F-5V relay, PA1A-5V relay forms relay switching circuit (5), by HX1838 infrared receiving module, LM393 voltage comparator forms infrared remote control reception circuit (6), b) PA4 of .STM8S105K6T6 single-chip microcomputer, PA5 port connect SDI, the SCLK port of ISL29010 module, gather intensity of illumination data, c) the PB1 port of .STM8S105K6T6 single-chip microcomputer connects the DQ port of DS18B20 module, by one-line digital interface collecting temperature value, otherwise its digital level output port output high level signal output low level signal when d) .CD-208 module detects human body infrared signal, the PB2 port of STM8S105K6T6 single-chip microcomputer connects the digital level output port of CD-208 module, realizes human body infrared signals collecting, e) the PB3 port of .STM8S105K6T6 single-chip microcomputer connects the base stage of 9013 triodes, PB4 port connects the base stage of 8050 triodes, the collector of 9013 triodes connects the input port of HF32F-5V relay, the output port of HF32F-5V relay connects light power, the collector of 8050 triodes connects the input port of PA1A-5V relay, the power supply of the output port jointing temp regulating device of PA1A-5V relay, in the time detecting that the intensity of illumination data of human body infrared signal and collection are less than setting value, PB3 port output high level signal makes the output port turn-on lamp photoelectric source bright light of HF32F-5V relay, otherwise close lamp, in the time detecting that the temperature value of human body infrared signal and collection is less than setting value, PB4 port output high level signal makes the output port of PA1A-5V relay connect thermostatic power supply, otherwise the power supply of closing temperature regulating device, realize intelligence control lamp, temperature controlling function, f) the analog voltage output port of .HX1838 module connects the in-phase voltage input port of LM393 voltage comparator, the output port of LM393 voltage comparator meets the external interrupt input port PB7 of STM8S105K6T6 single-chip microcomputer, detect remote control mode, realize infrared remote control intensity of illumination, temperature parameter value are set.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420316461.5U CN203882213U (en) | 2014-06-10 | 2014-06-10 | Classroom lamplight and temperature monitoring device |
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CN201420316461.5U CN203882213U (en) | 2014-06-10 | 2014-06-10 | Classroom lamplight and temperature monitoring device |
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CN203882213U true CN203882213U (en) | 2014-10-15 |
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CN201420316461.5U Expired - Fee Related CN203882213U (en) | 2014-06-10 | 2014-06-10 | Classroom lamplight and temperature monitoring device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104930583A (en) * | 2015-06-30 | 2015-09-23 | 中国科学院自动化研究所 | Concentrating warmer |
CN106227270A (en) * | 2016-06-28 | 2016-12-14 | 安徽华脉科技发展有限公司 | A kind of indoor energy-saving Control management system |
-
2014
- 2014-06-10 CN CN201420316461.5U patent/CN203882213U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104930583A (en) * | 2015-06-30 | 2015-09-23 | 中国科学院自动化研究所 | Concentrating warmer |
CN104930583B (en) * | 2015-06-30 | 2018-09-21 | 中国科学院自动化研究所 | Light-focusing type heater |
CN106227270A (en) * | 2016-06-28 | 2016-12-14 | 安徽华脉科技发展有限公司 | A kind of indoor energy-saving Control management system |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141015 Termination date: 20150610 |
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EXPY | Termination of patent right or utility model |