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WO2018064834A1 - Method and sensor for detecting ambient illumination in lamp - Google Patents

Method and sensor for detecting ambient illumination in lamp Download PDF

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Publication number
WO2018064834A1
WO2018064834A1 PCT/CN2016/101575 CN2016101575W WO2018064834A1 WO 2018064834 A1 WO2018064834 A1 WO 2018064834A1 CN 2016101575 W CN2016101575 W CN 2016101575W WO 2018064834 A1 WO2018064834 A1 WO 2018064834A1
Authority
WO
WIPO (PCT)
Prior art keywords
visible light
module
illuminance value
luminaire
detecting
Prior art date
Application number
PCT/CN2016/101575
Other languages
French (fr)
Chinese (zh)
Inventor
梅张武
程亚兵
Original Assignee
惠州市海尼克电子科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 惠州市海尼克电子科技有限公司 filed Critical 惠州市海尼克电子科技有限公司
Priority to PCT/CN2016/101575 priority Critical patent/WO2018064834A1/en
Publication of WO2018064834A1 publication Critical patent/WO2018064834A1/en

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Classifications

    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • H05B47/17Operational modes, e.g. switching from manual to automatic mode or prohibiting specific operations

Definitions

  • the invention relates to the technical field of lighting control, in particular to a method and an inductor for detecting ambient illuminance in a lamp.
  • the fixture can automatically turn off, and automatically turn on when the ambient illumination value is lower than the preset illumination value. Or, according to the illumination of the ambient light, automatically adjust the brightness of the light to achieve the interaction between the light and the natural light to achieve intelligent lighting effects. Therefore, the luminaire manufacturer hopes to integrate the sensor and luminaire with light detection into the built-in type, which not only increases the intelligent control of the luminaire, but also maintains the appearance of the luminaire itself, and also reduces the wiring cost and installation difficulty of the end user.
  • the photoelectric sensor built in the luminaire receives the artificial spectrum emitted by the luminaire itself, and the intensity of visible light in the artificial spectrum emitted or reflected by the luminaire itself through the translucent cover is much greater than
  • the intensity of visible light in the natural spectrum around the sensor, and the invisible illuminance value of the artificial spectrum emitted by the lamp itself will also change with the color temperature.
  • the lower the color temperature of the light source the larger the non-visible light value emitted by the lamp itself.
  • the inductor built in the lamp can not effectively and accurately detect the natural light intensity of the surrounding environment of the sensor by the ordinary light sensing method, and therefore can not truly realize the brightness control and the turn-off control of the lamp according to the intensity of the natural light.
  • the technical problem to be solved by the present invention is to provide a method and an inductor for detecting ambient illuminance in a luminaire, which can accurately detect natural illuminance when the sensor is placed in an integrated illumination fixture without being artificially produced by the luminaire itself.
  • the interference of spectral illumination makes accurate and stable control of the lighting fixture.
  • a method of detecting ambient illuminance placed in a luminaire comprising the steps of:
  • the lighting fixture When the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on; at the same time, the visible light band mixed illuminance value of the light and the natural light is obtained by the visible light detecting module, and the non-visible light band of the light and the natural light is mixed by the non-visible light detecting module.
  • Illuminance value When the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on; at the same time, the visible light band mixed illuminance value of the light and the natural light is obtained by the visible light detecting module, and the non-visible light band of the light and the natural light is mixed by the non-visible light detecting module.
  • the calculation formula of the shutdown threshold is as follows:
  • LuxOff (LuxS+LuxO+LuxL)* k
  • LuxOff is the closing threshold of the luminaire
  • LuxS is the preset illuminance value
  • LuxO is the fixed illuminance value
  • LuxL is the non-visible illuminance value of the luminaire
  • k is the adjustment coefficient
  • the adjustment coefficient k is greater than 1.
  • the visible light detecting module is configured to detect an illuminance value of visible light in a wavelength range of 400 nm to 700 nm in real time; and the non-visible light detecting module is configured to detect an illuminance value of a non-visible light in a wavelength range of 700 nm to 1050 nm in real time.
  • the human body motion sensing signal is acquired in real time, and when the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on.
  • the lighting fixture comprises a delay brightness working mode and a waiting brightness working mode. After the lighting fixture is turned on, the lighting brightness working mode is first entered, and after the delay time, the waiting brightness working module is entered; corresponding to the delayed brightness working mode, Calculating the turn-off threshold of the delayed brightness mode of operation, corresponding to the waiting brightness mode of operation, calculating a turn-off threshold for obtaining the brightness mode of operation.
  • the present invention also provides an inductor for detecting ambient illuminance in a luminaire, comprising a visible light detecting module, a non-visible light detecting module, an inductive detecting module, and a function interface.
  • the photosensitive element is a photodiode, a phototransistor, a silicon photo cell, a photo IC or a photoresistor.
  • the inductive detection module includes, but is not limited to, any one of a microwave sensor, an infrared sensor, and an acoustic wave sensor.
  • the function interface setting module includes, but is not limited to, a sensitivity setting unit, a preset illuminance value setting unit, a delay time setting unit, a waiting delay time setting unit, a waiting brightness setting unit, and a remote control.
  • Interface setting unit and APP interface setting unit The MCU program control module includes a dual-detection light signal sampling unit, a motion sensing signal sampling unit, an A/D sampling signal processing unit, a calculation analysis unit, an output control instruction unit, an output dimming instruction unit, and an output control instruction unit output switch.
  • Figure 1 is a diagram showing the distribution of radiation energy corresponding to different wavelength spectra of sunlight
  • 2 is a photosensitive characteristic curve of a photosensitive member in a PD1 visible light detecting module
  • 3 is a photosensitive characteristic curve of an infrared photosensitive element in a PD2 non-visible light detecting module
  • FIG. 4 is a flow chart of a method for detecting ambient illuminance in a luminaire according to the present invention
  • FIG. 5 is a schematic diagram of a three-stage dimming function for implementing a method for detecting ambient illuminance in a luminaire according to the present invention
  • FIG. 6 is a schematic diagram of an inductor implementation of the present invention for detecting ambient illuminance in a luminaire
  • Figure 7 is a block diagram showing the structure of an inductor for detecting ambient illuminance in a luminaire according to the present invention.
  • 11-power supply module 12-induction detection module, 13-function interface setting module, 14-visible light detection module, 15-non-visible light detection module, 16-MCU program control module, 17-drive circuit control module.
  • FIG. 1 is a radiation energy distribution map corresponding to different wavelengths of sunlight
  • visible light in the natural spectrum of the sun is stronger than non-visible radiation, that is, the most concentrated energy in the natural spectrum is the visible light portion, and the existing light.
  • the sensing method selects the visible light portion with the most concentrated energy or at least the visible light portion.
  • the advantage is that the low-end illumination resolution is high, and the purpose of the artificial spectrum of the lamp is illumination. Therefore, the artificial spectrum of the lamp must also select the visible light with the most concentrated energy.
  • the spectral band is used to maximize efficiency, so the disadvantage is that the artificial spectrum is too strong to interfere with the visible light sensor built in the lamp when lighting, and it is easy to reach the saturation value of the visible light detection without distinguishing the natural spectrum change. Turn off the luminaire accurately.
  • the non-visible infrared spectrum energy of the artificial light source lamp changes with the color temperature.
  • the energy value of the non-visible infrared spectrum of the luminaire itself does not reach the saturation value of the non-visible light sensation detection, so the non-visible infrared illuminance value of the luminaire itself can be deducted by software sampling and algorithm, and the real value can be obtained.
  • the illuminance value of the invisible infrared spectrum in the natural spectrum can be deducted by software sampling and algorithm, and the real value can be obtained.
  • the invention is based
  • the characteristics of the diurnal variation of the visible and non-visible spectral energy in the natural spectrum of the sun are the same.
  • the non-visible light detection method is used to control the lamp load to turn off with the increase of the natural spectral energy. So using non-visible light detection methods, the advantage is The artificial spectrum at the time of lighting is relatively weak to the non-visible light sensor built into the luminaire. The disadvantage is that the low-end illumination resolution is low and the lamp load cannot be accurately turned on as the natural spectral energy becomes lower.
  • the present invention provides a method of detecting ambient illuminance placed within a luminaire, comprising the steps of:
  • the lighting fixture When the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on; at the same time, the visible light band mixed illuminance value of the light and the natural light is obtained by the visible light detecting module, and the non-visible light band of the light and the natural light is mixed by the non-visible light detecting module.
  • Illuminance value When the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on; at the same time, the visible light band mixed illuminance value of the light and the natural light is obtained by the visible light detecting module, and the non-visible light band of the light and the natural light is mixed by the non-visible light detecting module.
  • the calculation formula of the shutdown threshold is as follows:
  • LuxOff (LuxS+LuxO+LuxL)* k
  • LuxOff is the closing threshold of the luminaire
  • LuxS is the preset illuminance value
  • LuxO is the fixed illuminance value
  • LuxL is the non-visible illuminance value of the luminaire
  • k is the adjustment coefficient, and the adjustment coefficient is greater than 1.
  • the visible light detecting module is configured to detect the illuminance value of the visible light in the 400 nm-700 nm band in real time; and the non-visible light detecting module is configured to detect the illuminance value of the non-visible light in the 700 nm-1050 nm band in real time.
  • FIG. 2 is a photosensitive characteristic curve of the photosensitive member in the visible light detecting module PD1
  • FIG. 3 is a photosensitive characteristic curve of the infrared photosensitive member in the non-visible light detecting module PD2.
  • step S2 the human body motion sensing signal is acquired in real time, and when the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on.
  • the lighting fixture comprises a delay brightness working mode and a waiting brightness working mode. After the lighting fixture is turned on, the lighting brightness working mode is first entered, and after the delay time, the waiting brightness working module is entered; corresponding to the delayed brightness working mode, the calculation is performed. The shutdown threshold of the delayed brightness operation mode is obtained, and the shutdown threshold of the waiting brightness operation mode is calculated corresponding to the waiting brightness operation mode.
  • Figure 4 is a flow chart of a method for detecting ambient illuminance by using dual-detection technology in a luminaire
  • Figure 5 is a method for detecting ambient illuminance by using dual-detection technology in a luminaire to realize three-stage dimming function wave.
  • the PD1 visible light detection module obtains the ambient illuminance value 'LuxEnvironment' of the visible light when the lamp is OFF, and when it is less than the preset illuminance value 'LuxSetting', the 'LuxEnvironment' is the opening threshold before the lighting.
  • the LuxOffT1 is the turn-off threshold when the brightness is T1
  • the LuxOffT2 is the turn-off threshold when the brightness is T2 (the T2 time range is 0s-+ ⁇ can be set freely)
  • the LuxSetting (the simple LuxS) is the preset illuminance value.
  • LuxOffSet (simplified LuxO) is the fixed compensation illuminance value
  • LuxLightT1 (simplified LuxLT1) is the non-visible illuminance value of the luminaire when T1 brightness
  • LuxLightT2 is the non-visible illuminance value of the luminaire when T2 brightness
  • k is the adjustment factor
  • the adjustment factor is greater than one.
  • the present invention further provides an inductor for detecting ambient illuminance in a luminaire, including a visible light detecting module 14 and a non-visible light detecting module. 15.
  • the circuit control module 17 is electrically connected to the MCU program control module 16; the visible light detecting module 14 is configured to obtain the illuminance value of the visible light in real time, the non-visible light detecting module 15 is configured to obtain the illuminance value of the non-visible light, and the inductive detecting module 12 is configured to obtain the human body in real time.
  • the motion sensing signal, the function interface setting module 13 is used for parameter input and display, and the MCU program control module 16 calculates an output control command according to the visible light illuminance value and the non-visible light illuminance value and the human body activity signal, and the control command is transmitted to the driving circuit control module 17,
  • the drive circuit control module 17 is coupled to the LED light set.
  • the photosensitive element is a photodiode, a phototransistor, a silicon photo cell, a photo IC or a photoresistor.
  • the inductor further includes a power supply module 11 for supplying the visible light detecting module 14, the non-visible light detecting module 15, the sensing detecting module 12, the function interface setting module 13, the MCU program control module 16, and the driving
  • the circuit control module 17 provides a working load, respectively.
  • the function interface setting module 13 includes, but is not limited to, a sensitivity setting unit, a preset illuminance value setting unit, a delay time setting unit, a waiting delay time setting unit, a waiting brightness setting unit, and a remote control interface.
  • the MCU program control module 16 includes a dual light sensing signal sampling unit, a motion sensing signal sampling unit, an A/D sampling signal processing unit, a calculation analysis unit, an output control instruction unit, an output dimming instruction unit, and an output control instruction unit output switching signal.
  • the drive circuit control module uses RELAY, MOSFET, TRIAC, SCR and other switching devices to control the load lamp switch or dimming, and the output dimming command unit can output 0/1-10V
  • the dimming signal, the DALI signal, the high and low level signals, and the PWM pulse width modulation signal are sent to the driving circuit control module to control the brightness adjustment of the load lamp.
  • the sensing detection module 12 When the sensing detection module 12 detects the human body or object movement signal, it outputs to the motion sensing signal sampling unit processing in the MCU program control module 16. At the same time, the PD1 visible light detecting module 14 samples the ambient illuminance value 'LuxEnvironment' of the visible light when the lamp is OFF, and outputs it to the MCU program control module 16 for the A/D sampling signal processing unit, and the function interface setting module 13 sets the preset illuminance value 'LuxSetting'.
  • the output control command module in the MCU program control module 16 outputs a switch signal to the drive circuit control module 17 to turn on the luminaire to enter the T1 brightness and time; the PD2 non-visible light detection module 15 samples and updates the 'environment and luminaire' mixed non-visible illuminance value.
  • the dimming signal to the driving circuit control module 17 controls the load luminaire to enter the T2 brightness and time; the PD2 non-visible light detecting module 15 samples and updates the 'environment and luminaire' mixed non-visible illuminance value 'LuxB'; if the LuxB continues to exceed the turn-off threshold LuxOffT2 Time LuxTime (including but not limited to eg.5 Min), the output control command module in the MCU program control module 16 outputs a switch signal to the drive circuit control module 17 to forcibly turn off the lamp load and enter the standby mode to achieve the purpose of energy saving.

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Abstract

A method and sensor for detecting the ambient illumination in a lamp, comprising the following steps: acquiring a visible light waveband ambient illumination value by means of a visible light detection module (14) and acquiring a non-visible light waveband ambient illumination value by means of a non-visible light detection module (15); when the ambient illumination value of the visible light is less than a preset illumination value, switching on the lamp; acquiring a lamp light and natural light visible light waveband mixed illumination value and a lamp light and natural light non-visible light waveband mixed illumination value; and, on the basis of the ambient illumination values and the mixed illumination values, calculating a shutdown threshold for switching off the lamp. The sensor comprises the visible light detection module (14), the non-visible light detection module (15), a sensing and detection module (12), a functional interface settings module (13), an MCU program control module (16), and a drive circuit control module (17). Accurate detection of natural light spectrum illumination is implemented without interference from the synthetic light spectrum illumination of the lamp, enabling accurate and stable control of the lamp.

Description

一种置于灯具内检测环境照度的方法及感应器  Method and sensor for detecting ambient illumination in a lamp 一种置于灯具内检测环境照度的方法及感应器  Method and sensor for detecting ambient illumination in a lamp
技术领域 Technical field
本发明涉及照明控制技术领域,特别涉及一种置于灯具内检测环境照度的方法及感应器。 The invention relates to the technical field of lighting control, in particular to a method and an inductor for detecting ambient illuminance in a lamp.
背景技术 Background technique
随着智能照明灯具大批量使用,越来越多的消费者希望得到一种更节能更人性化的产品,当外界光线超过一定照度值时灯具能够自动关闭,低于预设照度值时自动开启,或按照周围环境光的照度,自动地调整灯光的亮度,以实现灯光与自然光的互动,达到智能照明效果。因此灯具厂商希望将带有光感检测的感应器和灯具整合在一起内置式使用,这样既增加灯具智能控制,也保持灯具本身外观,还可以减少终端用户布线成本和安装难度。 With the large-scale use of intelligent lighting fixtures, more and more consumers hope to obtain a more energy-saving and more user-friendly product. When the external light exceeds a certain illumination value, the fixture can automatically turn off, and automatically turn on when the ambient illumination value is lower than the preset illumination value. Or, according to the illumination of the ambient light, automatically adjust the brightness of the light to achieve the interaction between the light and the natural light to achieve intelligent lighting effects. Therefore, the luminaire manufacturer hopes to integrate the sensor and luminaire with light detection into the built-in type, which not only increases the intelligent control of the luminaire, but also maintains the appearance of the luminaire itself, and also reduces the wiring cost and installation difficulty of the end user.
但是内置于灯具内的光电传感器在使用的时候除了接收到外界自然光谱外,还接收到灯具本身发出的人造光谱,对于灯具本身通过透光罩发出或反射的人造光谱中可见光的强度远远大于感应器周边自然光谱中可见光的强度,而且灯具本身发出的人造光谱中非可见光照度值,也会随着色温高低而变化,光源色温越低,灯具本身发出的非可见光照度值越大。这样内置于灯具内的感应器,通过普通光感检测方法就不能有效准确的检测传感器周边环境自然光的强度,因此也就无法真正根据自然光的强度实现灯具的亮度控制和关断控制。目前市场上大多数内置于灯具内的感应器都没有检测计算灯具本身的灯光照度值,当环境自然光开启阀值低于预设照度值时,比如黎明,此时有人经过触发灯具负载亮灯,由于亮灯期间无法检测真实的自然光照度,延时时间内不断有人经过感应时,就会不断刷新延时时间一直亮灯,即使外界自然光很亮时,负载灯也关不断,这样一来就会浪费能源。针对该问题和实际需求,大家一般采用灯具与传感器分开设置的方法,如将光传感器通过引线引出的方案,让光传感器远离灯具本身外置式使用,来达到只采集自然光的效果,这种方案对灯具尺寸及安装结构需重新设计定制,而且影响灯具本身外观整体性,因此难以大批量推广,且成本高。 However, in addition to receiving the natural spectrum of the outside world, the photoelectric sensor built in the luminaire receives the artificial spectrum emitted by the luminaire itself, and the intensity of visible light in the artificial spectrum emitted or reflected by the luminaire itself through the translucent cover is much greater than The intensity of visible light in the natural spectrum around the sensor, and the invisible illuminance value of the artificial spectrum emitted by the lamp itself will also change with the color temperature. The lower the color temperature of the light source, the larger the non-visible light value emitted by the lamp itself. The inductor built in the lamp can not effectively and accurately detect the natural light intensity of the surrounding environment of the sensor by the ordinary light sensing method, and therefore can not truly realize the brightness control and the turn-off control of the lamp according to the intensity of the natural light. At present, most of the sensors built into the luminaire on the market do not detect the illuminance value of the lamp itself. When the ambient natural light opening threshold is lower than the preset illuminance value, such as dawn, someone flashes the light through the trigger lamp. Since the real natural illuminance cannot be detected during the lighting period, when the person is inductive during the delay time, the delay time will be constantly lit, even if the natural light is very bright, the load lamp will be turned off continuously, so that Waste energy. In response to this problem and actual needs, we generally use a method in which the luminaire and the sensor are separately arranged, such as a scheme in which the optical sensor is led out through the lead, and the optical sensor is used away from the external use of the luminaire to achieve the effect of collecting only natural light. The size and installation structure of the luminaire need to be redesigned and customized, and it affects the overall appearance of the luminaire itself, so it is difficult to promote in large quantities and the cost is high.
发明内容 Summary of the invention
本发明要解决的技术问题是提供一种置于灯具内检测环境照度的方法及感应器,能够在感应器置于照明灯具一体设置时,实现对自然光谱照度的准确检测而不受灯具本身人造光谱照度的干扰,从而对照明灯具准确稳定控制。 The technical problem to be solved by the present invention is to provide a method and an inductor for detecting ambient illuminance in a luminaire, which can accurately detect natural illuminance when the sensor is placed in an integrated illumination fixture without being artificially produced by the luminaire itself. The interference of spectral illumination makes accurate and stable control of the lighting fixture.
为了解决上述技术问题,本发明的技术方案如下: In order to solve the above technical problem, the technical solution of the present invention is as follows:
一种置于灯具内检测环境照度的方法,包括以下步骤: A method of detecting ambient illuminance placed in a luminaire, comprising the steps of:
S1 、照明灯具关闭时,通过可见光检测模块获取可见光波段环境照度值以及通过非可见光检测模块获取非可见光波段环境照度值; S1 When the lighting fixture is turned off, obtaining the ambient illuminance value of the visible light band through the visible light detecting module and obtaining the ambient illuminance value of the non-visible light band by the non-visible light detecting module;
S2 、当可见光的所述环境照度值小于预设照度值,照明灯具开启;同时,通过可见光检测模块获取灯光与自然光的可见光波段混合照度值以及通过非可见光检测模块获取灯光与自然光的非可见光波段混合照度值; S2 When the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on; at the same time, the visible light band mixed illuminance value of the light and the natural light is obtained by the visible light detecting module, and the non-visible light band of the light and the natural light is mixed by the non-visible light detecting module. Illuminance value
S3 、通过所述非可见光波段的环境照度值和混合照度值,计算获得灯光的非可见光照度值,从而进一步计算获得关闭照明灯具的关断阀值,当非可见光检测模块获得的非可见光混合照度值大于所述关断阀值时,照明灯具关闭。 S3 And obtaining, by the ambient illuminance value and the mixed illuminance value in the non-visible light band, obtaining a non-visible light illuminance value of the light, thereby further calculating a turn-off threshold value of the closed lighting fixture, and obtaining a non-visible light mixed illuminance value obtained by the non-visible light detecting module When the threshold is greater than the shutdown threshold, the lighting fixture is turned off.
进一步的,所述步骤S3中,所述关断阀值的计算公式如下: Further, in the step S3, the calculation formula of the shutdown threshold is as follows:
LuxOff=(LuxS+LuxO+LuxL)* k ;其中LuxOff为灯具的关断阀值,LuxS为预设照度值,LuxO为固定补偿照度值,LuxL为灯具的非可见光照度值,k为调整系数,所述调整系数k大于1。 LuxOff=(LuxS+LuxO+LuxL)* k LuxOff is the closing threshold of the luminaire, LuxS is the preset illuminance value, LuxO is the fixed illuminance value, LuxL is the non-visible illuminance value of the luminaire, k is the adjustment coefficient, and the adjustment coefficient k is greater than 1.
进一步的,所述可见光检测模块用于实时检测400nm-700nm波段可见光的照度值;所述非可见光检测模块用于实时检测700nm-1050nm波段非可见光的照度值。 Further, the visible light detecting module is configured to detect an illuminance value of visible light in a wavelength range of 400 nm to 700 nm in real time; and the non-visible light detecting module is configured to detect an illuminance value of a non-visible light in a wavelength range of 700 nm to 1050 nm in real time.
进一步的,所述步骤S2中,实时获取人体移动感应信号,同时可见光的所述环境照度值小于预设照度值时,照明灯具开启。 Further, in the step S2, the human body motion sensing signal is acquired in real time, and when the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on.
进一步的,照明灯具包括延时亮度工作模式和守候亮度工作模式,照明灯具开启后,首先进入延时亮度工作模式,经过延时时间后进入守候亮度工作模块;对应所述延时亮度工作模式,计算获得延时亮度工作模式的关断阀值,对应所述守候亮度工作模式,计算获得守候亮度工作模式的关断阀值。 Further, the lighting fixture comprises a delay brightness working mode and a waiting brightness working mode. After the lighting fixture is turned on, the lighting brightness working mode is first entered, and after the delay time, the waiting brightness working module is entered; corresponding to the delayed brightness working mode, Calculating the turn-off threshold of the delayed brightness mode of operation, corresponding to the waiting brightness mode of operation, calculating a turn-off threshold for obtaining the brightness mode of operation.
为了实现上述一种置于灯具内检测环境照度的方法,本发明还提供了一种置于灯具内检测环境照度的感应器,包括可见光检测模块、非可见光检测模块、感应检测模块、功能界面设定模块、MCU程序控制模块以及驱动电路控制模块,所述可见光检测模块、非可见光检测模块、感应检测模块、功能界面设定模块和驱动电路控制模块与所述MCU程序控制模块电性连接;所述可见光检测模块用于实时获得可见光的照度值,所述非可见光检测模块用于获得非可见光的照度值,所述感应检测模块用于实时获得人体移动感应信号,所述功能界面设定模块用于参数输入和显示,所述MCU程序控制模块根据可见光照度值和非可见光照度值以及人体活动信号,计算输出控制指令,所述控制指令传送到驱动电路控制模块,所述驱动电路控制模块与LED灯组连接。 In order to realize the above method for detecting ambient illuminance in a luminaire, the present invention also provides an inductor for detecting ambient illuminance in a luminaire, comprising a visible light detecting module, a non-visible light detecting module, an inductive detecting module, and a function interface. a fixed module, an MCU program control module, and a driving circuit control module, wherein the visible light detecting module, the non-visible light detecting module, the sensing detecting module, the function interface setting module, and the driving circuit control module are electrically connected to the MCU program control module; The visible light detecting module is configured to obtain the illuminance value of the visible light in real time, the non-visible light detecting module is configured to obtain the illuminance value of the non-visible light, and the sensing detecting module is configured to obtain the human body moving sensing signal in real time, and the function interface setting module is used by For parameter input and display, the MCU program control module calculates an output control command according to the visible light illuminance value and the non-visible light illuminance value and the human body activity signal, and the control command is transmitted to the driving circuit control module, the driving circuit control module and the LED Light group connection.
进一步的,所述可见光检测模块中的光电传感器为峰值敏感波长λp=520 nm,光谱敏感波段400-750 nm的光敏元件;所述非可见光检测模块中的光电传感器为峰值敏感波长λp=880nm,光谱敏感波段700-1050 nm的光敏元件。 Further, the photoelectric sensor in the visible light detecting module has a peak sensitive wavelength λp=520 nm, and a spectral sensitive band 400-750 The photosensitive element of the non-visible light detecting module is a photosensitive element with a peak sensitive wavelength λp=880 nm and a spectral sensitive band of 700-1050 nm.
进一步的,所述光敏元件是光电二极管、光电三极管、硅光电池、光电IC或光敏电阻。 Further, the photosensitive element is a photodiode, a phototransistor, a silicon photo cell, a photo IC or a photoresistor.
进一步的,所述感应检测模块包含且不限于微波传感器、红外传感器以及声波传感器的任一种。 Further, the inductive detection module includes, but is not limited to, any one of a microwave sensor, an infrared sensor, and an acoustic wave sensor.
进一步的,所述感应器还包括电源供电模块,所述电源供电模块用于向所述可见光检测模块、非可见光检测模块、感应检测模块、功能界面设定模块、MCU程序控制模块以及驱动电路控制模块分别提供工作载荷。 Further, the inductor further includes a power supply module, and the power supply module is configured to control the visible light detecting module, the non-visible light detecting module, the sensing detecting module, the function interface setting module, the MCU program control module, and the driving circuit The modules provide working loads respectively.
进一步的,所述功能界面设定模块包含且不限于:灵敏度设定单元、预设照度值设定单元、延时时间设定单元、守候延时时间设定单元、守候亮度设定单元、遥控界面设定单元以及APP界面设定单元。所述MCU程序控制模块包括双鉴光感信号采样单元、移动感应信号采样单元、A/D采样信号处理单元、计算分析单元、输出控制指令单元、输出调光指令单元;输出控制指令单元输出开关信号或前后沿切相信号至驱动电路控制模块,驱动电路控制模块利用RELAY,MOSFET,TRIAC,SCR等开关器件控制负载灯具开关或调光,输出调光指令单元可以输出0/1-10V 调光信号、DALI信号、高低电平信号、PWM 脉宽调制信号至驱动电路控制模块控制负载灯具亮度调节。 Further, the function interface setting module includes, but is not limited to, a sensitivity setting unit, a preset illuminance value setting unit, a delay time setting unit, a waiting delay time setting unit, a waiting brightness setting unit, and a remote control. Interface setting unit and APP interface setting unit. The MCU program control module includes a dual-detection light signal sampling unit, a motion sensing signal sampling unit, an A/D sampling signal processing unit, a calculation analysis unit, an output control instruction unit, an output dimming instruction unit, and an output control instruction unit output switch. The signal or the front-end phase-cut signal is sent to the driving circuit control module, and the driving circuit control module controls the load lamp switch or dimming by using a switching device such as RELAY, MOSFET, TRIAC, SCR, etc., and the output dimming command unit can output 0/1-10V. The dimming signal, the DALI signal, the high and low level signals, and the PWM pulse width modulation signal are sent to the driving circuit control module to control the brightness adjustment of the load lamp.
采用上述技术方案,本发明结合峰值波长520nm和峰值波长880nm 两种波段的光感检测模块,实现了灯具内置式感应器对于环境照度的双鉴检测方法,而不受灯具本身人造光谱照度干扰的影响,实现准确检测自然光谱照度。并用此双鉴检测方法获取灯具本身的灯光照度值,亮灯后的环境照度值,亮灯前的环境照度值,然后根据感应器预设的照度值,得出灯具内置式感应器的开启照度阀值和关断照度阀值,从而实现对灯具的开关控制及调光控制,节约了能源消耗。 With the above technical solution, the present invention combines a peak wavelength of 520 nm and a peak wavelength of 880 nm. The two-band optical sensing module realizes the dual-detection method for the ambient illuminance of the built-in luminaire of the luminaire, and is not affected by the artificial spectral illuminance interference of the luminaire itself, so as to accurately detect the natural spectral illuminance. And using the double detection method to obtain the illuminance value of the lamp itself, the ambient illuminance value after the lighting, the ambient illuminance value before the lighting, and then according to the preset illuminance value of the sensor, the illuminance of the built-in sensor of the luminaire is obtained. The threshold value and the illuminance threshold are turned off, thereby realizing the switch control and dimming control of the luminaire, thereby saving energy consumption.
附图说明 DRAWINGS
图1是太阳光不同波长光谱对应的放射能量分布图; Figure 1 is a diagram showing the distribution of radiation energy corresponding to different wavelength spectra of sunlight;
图2是PD1可见光检测模块中光敏元件的感光特性曲线; 2 is a photosensitive characteristic curve of a photosensitive member in a PD1 visible light detecting module;
图3是PD2非可见光检测模块中红外光敏元件的感光特性曲线; 3 is a photosensitive characteristic curve of an infrared photosensitive element in a PD2 non-visible light detecting module;
图4是本发明的置于灯具内检测环境照度的方法流程图; 4 is a flow chart of a method for detecting ambient illuminance in a luminaire according to the present invention;
图5是本发明的置于灯具内检测环境照度的方法实现三段调光功能波示图; 5 is a schematic diagram of a three-stage dimming function for implementing a method for detecting ambient illuminance in a luminaire according to the present invention;
图6是本发明的置于灯具内检测环境照度的感应器实现示意图; 6 is a schematic diagram of an inductor implementation of the present invention for detecting ambient illuminance in a luminaire;
图7是本发明的置于灯具内检测环境照度的感应器的结构框图。 Figure 7 is a block diagram showing the structure of an inductor for detecting ambient illuminance in a luminaire according to the present invention.
其中,11-电源供应模块,12-感应检测模块,13-功能界面设定模块,14-可见光检测模块,15-非可见光检测模块,16-MCU程序控制模块,17-驱动电路控制模块。 Among them, 11-power supply module, 12-induction detection module, 13-function interface setting module, 14-visible light detection module, 15-non-visible light detection module, 16-MCU program control module, 17-drive circuit control module.
具体实施方式 detailed description
下面结合附图对本发明的具体实施方式作进一步说明。在此需要说明的是,对于这些实施方式的说明用于帮助理解本发明,但并不构成对本发明的限定。此外,下面所描述的本发明各个实施方式中所涉及的技术特征只要彼此之间未构成冲突就可以相互组合。 The specific embodiments of the present invention are further described below in conjunction with the accompanying drawings. It is to be noted that the description of the embodiments is intended to facilitate the understanding of the invention, but is not intended to limit the invention. Further, the technical features involved in the various embodiments of the present invention described below may be combined with each other as long as they do not constitute a conflict with each other.
本发明的原理说明: The principle of the invention illustrates:
参考附图1,其中是太阳光不同波长光谱对应的放射能量分布图,可以看出太阳自然光谱中可见光比非可见光放射能力强,也就是自然光谱中能量最为集中的是可见光部分,现有光感检测方法都选择检测能量最为集中的可见光部分或至少包含可见光部分,优点是低端照度分辨率高,而灯具人造光谱的目的是照明,因此灯具人造光谱也必定是选择在能量最为集中的可见光光谱波段以实现效率最大化,所以缺点是亮灯时人造光谱对内置于灯具内可见光传感器的干扰太强,很容易达到可见光光感检测的饱和值而分辨不出自然光谱的变化,也就不能准确地关断灯具。 Referring to Figure 1, which is a radiation energy distribution map corresponding to different wavelengths of sunlight, it can be seen that visible light in the natural spectrum of the sun is stronger than non-visible radiation, that is, the most concentrated energy in the natural spectrum is the visible light portion, and the existing light. The sensing method selects the visible light portion with the most concentrated energy or at least the visible light portion. The advantage is that the low-end illumination resolution is high, and the purpose of the artificial spectrum of the lamp is illumination. Therefore, the artificial spectrum of the lamp must also select the visible light with the most concentrated energy. The spectral band is used to maximize efficiency, so the disadvantage is that the artificial spectrum is too strong to interfere with the visible light sensor built in the lamp when lighting, and it is easy to reach the saturation value of the visible light detection without distinguishing the natural spectrum change. Turn off the luminaire accurately.
通过测试大量不同功率和色温的人造光源灯具发现,人造光源灯具非可见红外光谱能量会随着色温高低而变化,散热功率越大,光源色温越低,灯具本身发出的非可见红外光谱照度值越大。 但灯具本身的非可见 红外光谱的 灯光值能量 没达到非可见光光感检测的饱和值,所以可以通过软件采样和算法扣除灯具本身的非可见红外光谱照度值,就可得到真正 自然光谱中非可见红外光谱的照度值。同时本发明 根据 太阳自然光谱中可见光和非可见光的光谱能量昼夜变化趋势相同的特性,通过非可见光检测方法实现灯具负载随自然光谱能量升高而关断控制。所以采用非可见光检测方法,优点是 亮灯时人造光谱对内置于灯具内非可见光传感器的干扰相对较弱。 缺点是 低端照度分辨率低,不能准确地 实现灯具负载随自然光谱能量变低而开启 灯具。 By testing a large number of artificial light source lamps with different power and color temperature, it is found that the non-visible infrared spectrum energy of the artificial light source lamp changes with the color temperature. The higher the heat dissipation power, the lower the color temperature of the light source, and the more the non-visible infrared spectrum illuminance value emitted by the lamp itself Big. However, the energy value of the non-visible infrared spectrum of the luminaire itself does not reach the saturation value of the non-visible light sensation detection, so the non-visible infrared illuminance value of the luminaire itself can be deducted by software sampling and algorithm, and the real value can be obtained. The illuminance value of the invisible infrared spectrum in the natural spectrum. At the same time the invention is based The characteristics of the diurnal variation of the visible and non-visible spectral energy in the natural spectrum of the sun are the same. The non-visible light detection method is used to control the lamp load to turn off with the increase of the natural spectral energy. So using non-visible light detection methods, the advantage is The artificial spectrum at the time of lighting is relatively weak to the non-visible light sensor built into the luminaire. The disadvantage is that the low-end illumination resolution is low and the lamp load cannot be accurately turned on as the natural spectral energy becomes lower.
根据上述原理,本发明提供了一种置于灯具内检测环境照度的方法,包括以下步骤: In accordance with the above principles, the present invention provides a method of detecting ambient illuminance placed within a luminaire, comprising the steps of:
S1 、照明灯具关闭时,通过可见光检测模块获取可见光波段环境照度值以及通过非可见光检测模块获取非可见光波段环境照度值; S1 When the lighting fixture is turned off, obtaining the ambient illuminance value of the visible light band through the visible light detecting module and obtaining the ambient illuminance value of the non-visible light band by the non-visible light detecting module;
S2 、当可见光的所述环境照度值小于预设照度值,照明灯具开启;同时,通过可见光检测模块获取灯光与自然光的可见光波段混合照度值以及通过非可见光检测模块获取灯光与自然光的非可见光波段混合照度值; S2 When the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on; at the same time, the visible light band mixed illuminance value of the light and the natural light is obtained by the visible light detecting module, and the non-visible light band of the light and the natural light is mixed by the non-visible light detecting module. Illuminance value
S3 、通过所述非可见光波段的环境照度值和混合照度值,计算获得灯光的非可见光照度值,从而进一步计算获得关闭照明灯具的关断阀值,当非可见光检测模块获得的非可见光混合照度值大于所述关断阀值时,照明灯具关闭。 S3 And obtaining, by the ambient illuminance value and the mixed illuminance value in the non-visible light band, obtaining a non-visible light illuminance value of the light, thereby further calculating a turn-off threshold value of the closed lighting fixture, and obtaining a non-visible light mixed illuminance value obtained by the non-visible light detecting module When the threshold is greater than the shutdown threshold, the lighting fixture is turned off.
其中,所述步骤S3中,所述关断阀值的计算公式如下: Wherein, in the step S3, the calculation formula of the shutdown threshold is as follows:
LuxOff=(LuxS+LuxO+LuxL)* k ;其中LuxOff为灯具的关断阀值,LuxS为预设照度值,LuxO为固定补偿照度值,LuxL为灯具的非可见光照度值,k为调整系数,所述调整系数大于1。 LuxOff=(LuxS+LuxO+LuxL)* k LuxOff is the closing threshold of the luminaire, LuxS is the preset illuminance value, LuxO is the fixed illuminance value, LuxL is the non-visible illuminance value of the luminaire, and k is the adjustment coefficient, and the adjustment coefficient is greater than 1.
其中,所述可见光检测模块用于实时检测400nm-700nm波段可见光的照度值;所述非可见光检测模块用于实时检测700nm-1050nm波段非可见光的照度值。 The visible light detecting module is configured to detect the illuminance value of the visible light in the 400 nm-700 nm band in real time; and the non-visible light detecting module is configured to detect the illuminance value of the non-visible light in the 700 nm-1050 nm band in real time.
参考附图2、3,图2是可见光检测模块PD1中光敏元件的感光特性曲线,图3是非可见光检测模块PD2中红外光敏元件的感光特性曲线。综合上述两种单一光感检测方法的优缺点,本发明创造性的结合可见光和非可见光双鉴技术和方法检测环境照度,通过PD1可见光检测模块获取400nm-700nm波段可见光的环境照度值,利用软件算法得出亮灯前的开启阀值,以及通过PD2非可见光检测模块获取700nm-1050nm波段非可见光的环境照度值,利用软件算法得出亮灯后的关断阀值。 2 and 3, FIG. 2 is a photosensitive characteristic curve of the photosensitive member in the visible light detecting module PD1, and FIG. 3 is a photosensitive characteristic curve of the infrared photosensitive member in the non-visible light detecting module PD2. Combining the advantages and disadvantages of the above two single light sensing detection methods, the inventive combination of visible light and non-visible light double detection techniques and methods for detecting ambient illuminance, obtaining the ambient illuminance value of visible light in the 400 nm-700 nm band by the PD1 visible light detecting module, using a software algorithm The opening threshold before the lighting is obtained, and the ambient illuminance value of the non-visible light in the 700 nm-1050 nm band is obtained by the PD2 non-visible light detecting module, and the shutdown threshold after the lighting is obtained by using a software algorithm.
其中,在步骤S2中,实时获取人体移动感应信号,同时可见光的所述环境照度值小于预设照度值时,照明灯具开启。 Wherein, in step S2, the human body motion sensing signal is acquired in real time, and when the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on.
其中,照明灯具包括延时亮度工作模式和守候亮度工作模式,照明灯具开启后,首先进入延时亮度工作模式,经过延时时间后进入守候亮度工作模块;对应所述延时亮度工作模式,计算获得延时亮度工作模式的关断阀值,对应所述守候亮度工作模式,计算获得守候亮度工作模式的关断阀值。 The lighting fixture comprises a delay brightness working mode and a waiting brightness working mode. After the lighting fixture is turned on, the lighting brightness working mode is first entered, and after the delay time, the waiting brightness working module is entered; corresponding to the delayed brightness working mode, the calculation is performed. The shutdown threshold of the delayed brightness operation mode is obtained, and the shutdown threshold of the waiting brightness operation mode is calculated corresponding to the waiting brightness operation mode.
参考附图4、5,图4是置于灯具内采用双鉴技术检测环境照度的方法实现流程图,图5是置于灯具内采用双鉴技术检测环境照度的方法实现三段调光功能波示图;用PD1可见光检测模块获取灯具OFF时可见光的环境照度值'LuxEnvironment',当小于预设照度值'LuxSetting'时,'LuxEnvironment'作为亮灯前的开启阀值。用PD2非可见光检测模块获取灯具OFF时非可见光的环境照度值'LuxA',开启灯具到T2亮度,用PD2非可见光检测模块获取'环境和灯具'混合的非可见光照度值'LuxB',计算出T2亮度时灯具的非可见光照度值LuxLightT2=LuxB-LuxA。开启灯具到T1亮度,用PD2非可见光检测模块获取'环境和灯具'混合的非可见光LuxC,计算出T1亮度时灯具的非可见光照度值LuxLightT1=LuxC-LuxA。然后利用如下公式计算出关闭灯具负载的关断阀值: Referring to Figures 4 and 5, Figure 4 is a flow chart of a method for detecting ambient illuminance by using dual-detection technology in a luminaire, and Figure 5 is a method for detecting ambient illuminance by using dual-detection technology in a luminaire to realize three-stage dimming function wave. The PD1 visible light detection module obtains the ambient illuminance value 'LuxEnvironment' of the visible light when the lamp is OFF, and when it is less than the preset illuminance value 'LuxSetting', the 'LuxEnvironment' is the opening threshold before the lighting. Use the PD2 non-visible light detection module to obtain the non-visible ambient illuminance value 'LuxA' when the luminaire is OFF, turn on the luminaire to T2 brightness, and use the PD2 non-visible light detection module to obtain the 'environment and luminaire' mixed non-visible illuminance value 'LuxB', and calculate The invisible illuminance value of the luminaire at Lux brightness is LuxLightT2=LuxB-LuxA. Turn on the luminaire to T1 brightness, use the PD2 non-visible light detection module to obtain the 'environment and luminaire' mixed non-visible LuxC, and calculate the non-visible illuminance value of the luminaire when the T1 brightness is LuxLightT1=LuxC-LuxA. Then use the following formula to calculate the turn-off threshold for turning off the lamp load:
LuxOffT1=(LuxSetting+LuxOffSet+LuxLightT1)* k ; LuxOffT1=(LuxSetting+LuxOffSet+LuxLightT1)* k ;
LuxOffT2=(LuxSetting+LuxOffSet+LuxLightT2)* k LuxOffT2=(LuxSetting+LuxOffSet+LuxLightT2)* k
所述LuxOffT1为T1亮度时的关断阀值,LuxOffT2为T2(T2时间范围0s-+∞可自由设定)守候亮度时的关断阀值,LuxSetting(简略式LuxS)为预设照度值,LuxOffSet(简略式LuxO)为固定补偿照度值,LuxLightT1(简略式LuxLT1)为T1亮度时灯具的非可见光照度值,LuxLightT2(简略式LuxLT2)为T2亮度时灯具的非可见光照度值,k为调整系数,所述调整系数大于1。 The LuxOffT1 is the turn-off threshold when the brightness is T1, the LuxOffT2 is the turn-off threshold when the brightness is T2 (the T2 time range is 0s-+∞ can be set freely), and the LuxSetting (the simple LuxS) is the preset illuminance value. LuxOffSet (simplified LuxO) is the fixed compensation illuminance value, LuxLightT1 (simplified LuxLT1) is the non-visible illuminance value of the luminaire when T1 brightness, LuxLightT2 (simplified LuxLT2) is the non-visible illuminance value of the luminaire when T2 brightness, k is the adjustment factor The adjustment factor is greater than one.
为了实现上述一种置于灯具内检测环境照度的方法,参考附图6、7,本发明还提供了一种置于灯具内检测环境照度的感应器,包括可见光检测模块14、非可见光检测模块15、感应检测模块12、功能界面设定模块13、MCU程序控制模块16以及驱动电路控制模块17,可见光检测模块14、非可见光检测模块15、感应检测模块12、功能界面设定模块13和驱动电路控制模块17与MCU程序控制模块16电性连接;可见光检测模块14用于实时获得可见光的照度值,非可见光检测模块15用于获得非可见光的照度值,感应检测模块12用于实时获得人体移动感应信号,功能界面设定模块13用于参数输入和显示,MCU程序控制模块16根据可见光照度值和非可见光照度值以及人体活动信号计算输出控制指令,控制指令传送到驱动电路控制模块17,驱动电路控制模块17与LED灯组连接。 In order to achieve the above method for detecting ambient illuminance in a luminaire, referring to FIGS. 6 and 7, the present invention further provides an inductor for detecting ambient illuminance in a luminaire, including a visible light detecting module 14 and a non-visible light detecting module. 15. Inductive detection module 12, function interface setting module 13, MCU program control module 16 and driving circuit control module 17, visible light detecting module 14, non-visible light detecting module 15, inductive detecting module 12, function interface setting module 13 and driving The circuit control module 17 is electrically connected to the MCU program control module 16; the visible light detecting module 14 is configured to obtain the illuminance value of the visible light in real time, the non-visible light detecting module 15 is configured to obtain the illuminance value of the non-visible light, and the inductive detecting module 12 is configured to obtain the human body in real time. The motion sensing signal, the function interface setting module 13 is used for parameter input and display, and the MCU program control module 16 calculates an output control command according to the visible light illuminance value and the non-visible light illuminance value and the human body activity signal, and the control command is transmitted to the driving circuit control module 17, The drive circuit control module 17 is coupled to the LED light set.
其中,可见光检测模块14中的光电传感器为峰值敏感波长λp=520 nm,光谱敏感波段400-750 nm的光敏元件;非可见光检测模块15中的光电传感器为峰值敏感波长λp=880nm,光谱敏感波段700-1050 nm的光敏元件。 Wherein, the photoelectric sensor in the visible light detecting module 14 has a peak sensitive wavelength λp=520 nm, and the spectral sensitive band is 400-750. The photosensitive element of the non-visible light detecting module 15 is a photosensitive element having a peak-sensitive wavelength λp=880 nm and a spectrally sensitive band of 700-1050 nm.
其中,光敏元件是光电二极管、光电三极管、硅光电池、光电IC或光敏电阻。 Among them, the photosensitive element is a photodiode, a phototransistor, a silicon photo cell, a photo IC or a photoresistor.
其中,感应检测模块12包含且不限于微波传感器、红外传感器以及声波传感器的任一种。 The sensing detection module 12 includes, but is not limited to, any one of a microwave sensor, an infrared sensor, and an acoustic wave sensor.
其中,感应器还包括电源供电模块11,电源供电模块11用于向所述可见光检测模块14、非可见光检测模块15、感应检测模块12、功能界面设定模块13、MCU程序控制模块16以及驱动电路控制模块17分别提供工作载荷。 The inductor further includes a power supply module 11 for supplying the visible light detecting module 14, the non-visible light detecting module 15, the sensing detecting module 12, the function interface setting module 13, the MCU program control module 16, and the driving The circuit control module 17 provides a working load, respectively.
其中,功能界面设定模块13包含且不限于:灵敏度设定单元、预设照度值设定单元、延时时间设定单元、守候延时时间设定单元、守候亮度设定单元、遥控界面设定单元以及APP界面设定单元。MCU程序控制模块16包括双鉴光感信号采样单元、移动感应信号采样单元、A/D采样信号处理单元、计算分析单元、输出控制指令单元、输出调光指令单元;输出控制指令单元输出开关信号或前后沿切相信号至驱动电路控制模块,驱动电路控制模块利用RELAY,MOSFET,TRIAC,SCR等开关器件控制负载灯具开关或调光,输出调光指令单元可以输出0/1-10V 调光信号、DALI信号、高低电平信号、PWM 脉宽调制信号至驱动电路控制模块控制负载灯具亮度调节。 The function interface setting module 13 includes, but is not limited to, a sensitivity setting unit, a preset illuminance value setting unit, a delay time setting unit, a waiting delay time setting unit, a waiting brightness setting unit, and a remote control interface. The unit and the APP interface setting unit. The MCU program control module 16 includes a dual light sensing signal sampling unit, a motion sensing signal sampling unit, an A/D sampling signal processing unit, a calculation analysis unit, an output control instruction unit, an output dimming instruction unit, and an output control instruction unit output switching signal. Or the front and rear edge-cut signal to the drive circuit control module, the drive circuit control module uses RELAY, MOSFET, TRIAC, SCR and other switching devices to control the load lamp switch or dimming, and the output dimming command unit can output 0/1-10V The dimming signal, the DALI signal, the high and low level signals, and the PWM pulse width modulation signal are sent to the driving circuit control module to control the brightness adjustment of the load lamp.
当感应检测模块12检测到人体或物体移动信号时,输出至MCU程序控制模块16中移动感应信号采样单元处理。同时PD1可见光检测模块14采样灯具OFF时可见光的环境照度值'LuxEnvironment',输出至MCU程序控制模块16进行A/D采样信号处理单元,功能界面设定模块13设定预设照度值'LuxSetting',当LuxEnvironment < LuxSetting时,MCU程序控制模块16中的输出控制指令模块输出开关信号至驱动电路控制模块17开启灯具进入T1亮度并计时;PD2非可见光检测模块15采样更新'环境和灯具'混合的非可见光照度值'LuxC',MCU程序控制模块16中软件程序及算法模块计算出关断阀值LuxOffT1,如果LuxC持续超过关断阀值LuxOffT1的时间LuxTime(包含但不限于eg.5 Min), 则MCU程序控制模块16中的输出控制指令模块输出开关信号至驱动电路控制模块17强行关断灯具负载进入待机模式,达到节能的目的。如果LuxC没有超过关断阀值LuxOffT1的时间LuxTime(包含但不限于eg.5 Min),T1延时时间到后,MCU程序控制模块16中输出调光指令模块可输出0/1-10V 调光信号至驱动电路控制模块17控制负载灯具进入T2亮度并计时;PD2非可见光检测模块15采样更新'环境和灯具'混合的非可见光照度值'LuxB';如果LuxB持续超过关断阀值LuxOffT2的时间LuxTime(包含但不限于eg.5 Min),则MCU程序控制模块16中的输出控制指令模块输出开关信号至驱动电路控制模块17强行关断灯具负载进入待机模式,达到节能的目的。 When the sensing detection module 12 detects the human body or object movement signal, it outputs to the motion sensing signal sampling unit processing in the MCU program control module 16. At the same time, the PD1 visible light detecting module 14 samples the ambient illuminance value 'LuxEnvironment' of the visible light when the lamp is OFF, and outputs it to the MCU program control module 16 for the A/D sampling signal processing unit, and the function interface setting module 13 sets the preset illuminance value 'LuxSetting'. When LuxEnvironment < In LuxSetting, the output control command module in the MCU program control module 16 outputs a switch signal to the drive circuit control module 17 to turn on the luminaire to enter the T1 brightness and time; the PD2 non-visible light detection module 15 samples and updates the 'environment and luminaire' mixed non-visible illuminance value. 'LuxC', the software program and algorithm module in the MCU program control module 16 calculates the shutdown threshold LuxOffT1, if LuxC continues to exceed the time of the shutdown threshold LuxOffT1 LuxTime (including but not limited to eg.5 Min), Then, the output control command module in the MCU program control module 16 outputs a switch signal to the drive circuit control module 17 to forcibly turn off the lamp load and enter the standby mode to achieve the purpose of energy saving. If LuxC does not exceed the time of the shutdown threshold LuxOffT1 LuxTime (including but not limited to eg.5 Min), after the delay time of T1, the output dimming command module in the MCU program control module 16 can output 0/1-10V. The dimming signal to the driving circuit control module 17 controls the load luminaire to enter the T2 brightness and time; the PD2 non-visible light detecting module 15 samples and updates the 'environment and luminaire' mixed non-visible illuminance value 'LuxB'; if the LuxB continues to exceed the turn-off threshold LuxOffT2 Time LuxTime (including but not limited to eg.5 Min), the output control command module in the MCU program control module 16 outputs a switch signal to the drive circuit control module 17 to forcibly turn off the lamp load and enter the standby mode to achieve the purpose of energy saving.
以上结合附图对本明的实施方式作了详细说明,但本发明不限于所描述的实施方式。对于本领域的技术人员而言,在不脱离本发明原理和精神的情况下,对这些实施方式进行多种变化、修改、替换和变型,仍落入本发明的保护范围内。 The embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and variations of the embodiments are possible without departing from the spirit and scope of the invention.

Claims (10)

  1. 一种置于灯具内检测环境照度的方法,其特征在于:包括以下步骤: A method for detecting ambient illuminance in a luminaire, comprising: the following steps:
    S1、照明灯具关闭时,通过可见光检测模块获取可见光波段环境照度值以及通过非可见光检测模块获取非可见光波段环境照度值;S1. When the lighting fixture is turned off, the visible light band ambient illuminance value is obtained by the visible light detecting module, and the non-visible light band ambient illuminance value is obtained by the non-visible light detecting module;
    S2、当可见光的所述环境照度值小于预设照度值,照明灯具开启;同时,通过可见光检测模块获取灯光与自然光的可见光波段混合照度值以及通过非可见光检测模块获取灯光与自然光的非可见光波段混合照度值;S2, when the ambient illuminance value of the visible light is less than the preset illuminance value, the lighting fixture is turned on; at the same time, the visible illuminance value of the visible light band of the light and the natural light is obtained by the visible light detecting module, and the non-visible light band of the light and the natural light is obtained by the non-visible light detecting module. Mixed illuminance value;
    S3、通过所述非可见光波段的环境照度值和混合照度值,计算获得灯光的非可见光照度值,从而进一步计算获得关闭照明灯具的关断阀值,当非可见光检测模块获得的非可见光混合照度值大于所述关断阀值时,照明灯具关闭。 S3, calculating, by using the ambient illuminance value and the mixed illuminance value in the non-visible light band, obtaining a non-visible light illuminance value of the light, thereby further calculating a turn-off threshold value of the closed lighting fixture, and the non-visible light mixed illuminance obtained by the non-visible light detecting module When the value is greater than the turn-off threshold, the light fixture is turned off.
  2. 根据权利要求1所述的一种置于灯具内检测环境照度的方法,其特征在于: A method for detecting ambient illuminance placed in a luminaire according to claim 1, wherein:
    所述步骤S3中,所述关断阀值的计算公式如下:In the step S3, the calculation formula of the shutdown threshold is as follows:
    LuxOff=(LuxS+LuxO+LuxL)* k;其中LuxOff为灯具的关断阀值,LuxS为预设照度值,LuxO为固定补偿照度值,LuxL为灯具的非可见光照度值,k为调整系数,所述调整系数大于1。LuxOff=(LuxS+LuxO+LuxL)* k; where LuxOff is the closing threshold of the luminaire, LuxS is the preset illuminance value, LuxO is the fixed illuminance value, LuxL is the non-visible illuminance value of the luminaire, and k is the adjustment coefficient, and the adjustment coefficient is greater than 1.
  3. 根据权利要求1所述的一种置于灯具内检测环境照度的方法,其特征在于所述可见光检测模块用于实时检测400nm-700nm波段可见光的照度值;所述非可见光检测模块用于实时检测700nm-1050nm波段非可见光的照度值。The method for detecting ambient illuminance in a luminaire according to claim 1, wherein the visible light detecting module is configured to detect illuminance value of visible light in a 400 nm-700 nm band in real time; and the non-visible light detecting module is used for real-time detection. Illuminance value of non-visible light in the range of 700 nm to 1050 nm.
  4. 根据权利要求1所述的一种置于灯具内检测环境照度的方法,其特征在于所述步骤S2中,实时获取人体移动感应信号,同时可见光的所述环境照度值小于预设照度值时,照明灯具开启。The method for detecting ambient illuminance in a luminaire according to claim 1, wherein in the step S2, the human body motion sensing signal is acquired in real time, and when the ambient illuminance value of the visible light is less than the preset illuminance value, The lighting fixture is turned on.
  5. 根据权利要求4所述的一种置于灯具内检测环境照度的方法,其特征在于照明灯具包括延时亮度工作模式和守候亮度工作模式,照明灯具开启后,首先进入延时亮度工作模式,经过延时时间后进入守候亮度工作模块;对应所述延时亮度工作模式,计算获得延时亮度工作模式的关断阀值,对应所述守候亮度工作模式,计算获得守候亮度工作模式的关断阀值。The method for detecting ambient illuminance in a luminaire according to claim 4, wherein the illuminating luminaire comprises a delayed brightness working mode and a waiting brightness working mode, and after the lighting device is turned on, first entering the delayed brightness working mode, After the delay time, enter the waiting brightness working module; corresponding to the delayed brightness working mode, calculate the closing threshold of the delayed brightness working mode, corresponding to the waiting brightness working mode, and calculate the closing valve for obtaining the waiting brightness working mode value.
  6. 一种置于灯具内检测环境照度的感应器,其特征在于:包括可见光检测模块、非可见光检测模块、感应检测模块、功能界面设定模块、MCU程序控制模块以及驱动电路控制模块,所述可见光检测模块、非可见光检测模块、感应检测模块、功能界面设定模块和驱动电路控制模块与所述MCU程序控制模块电性连接;所述可见光检测模块用于实时获得可见光的照度值,所述非可见光检测模块用于获得非可见光的照度值,所述感应检测模块用于实时获得人体移动感应信号,所述功能界面设定模块用于参数输入和显示,所述MCU程序控制模块根据可见光照度值和非可见光照度值以及人体活动信号,计算输出控制指令,所述控制指令传送到驱动电路控制模块,所述驱动电路控制模块与LED灯组连接。An inductor for detecting ambient illuminance in a luminaire, comprising: a visible light detecting module, a non-visible light detecting module, an inductive detecting module, a function interface setting module, an MCU program control module, and a driving circuit control module, wherein the visible light The detection module, the non-visible light detection module, the sensing detection module, the function interface setting module, and the driving circuit control module are electrically connected to the MCU program control module; the visible light detecting module is configured to obtain the illuminance value of the visible light in real time, the non- The visible light detecting module is configured to obtain a illuminance value of the non-visible light, the sensing detecting module is configured to obtain a human body motion sensing signal in real time, the function interface setting module is used for parameter input and display, and the MCU program control module is configured according to the visible light illuminance value. And the non-visible light illuminance value and the human body activity signal, the output control command is calculated, and the control command is transmitted to the driving circuit control module, and the driving circuit control module is connected to the LED light group.
  7. 根据权利要求6所述的一种置于灯具内检测环境照度的感应器,其特征在于:所述可见光检测模块中的光电传感器为峰值敏感波长λp=520 nm,光谱敏感波段400-750 nm的光敏元件;所述非可见光检测模块中的光电传感器为峰值敏感波长λp=880nm,光谱敏感波段700-1050 nm的光敏元件。The sensor for detecting ambient illuminance in a luminaire according to claim 6, wherein the photoelectric sensor in the visible light detecting module has a peak sensitive wavelength λp=520 Nm, photosensitive element of spectral sensitivity band 400-750 nm; photoelectric sensor in the non-visible light detection module is peak sensitive wavelength λp=880nm, spectral sensitive band 700-1050 Photosensitive element of nm.
  8. 根据权利要求6所述的一种置于灯具内检测环境照度的感应器,其特征在于:还包括电源供电模块,所述电源供电模块用于向所述可见光检测模块、非可见光检测模块、感应检测模块、功能界面设定模块、MCU程序控制模块以及驱动电路控制模块分别提供工作载荷。The sensor for detecting ambient illuminance in a luminaire according to claim 6, further comprising: a power supply module, wherein the power supply module is configured to the visible light detecting module, the non-visible light detecting module, and the sensing The detection module, the function interface setting module, the MCU program control module, and the driving circuit control module respectively provide working loads.
  9. 根据权利要求7所述的一种置于灯具内检测环境照度的感应器,其特征在于:所述光敏元件是光电二极管、光电三极管、硅光电池、光电IC或光敏电阻。The sensor for detecting ambient illuminance in a luminaire according to claim 7, wherein the photosensitive element is a photodiode, a phototransistor, a silicon photo cell, a photo IC or a photoresistor.
  10. 根据权利要求6所述的一种置于灯具内检测环境照度的感应器,其特征在于所述感应检测模块包含且不限于微波传感器、红外传感器以及声波传感器的任一种。The sensor for detecting ambient illuminance in a luminaire according to claim 6, wherein the inductive detection module comprises, but is not limited to, any one of a microwave sensor, an infrared sensor, and an acoustic wave sensor.
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CN106304570A (en) * 2016-10-09 2017-01-04 深圳市海骏电子科技有限公司 A kind of method being placed in light fixture interior detection ambient light illumination and induction apparatus

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CN112664917A (en) * 2020-12-28 2021-04-16 江苏爱玛车业科技有限公司 Intelligent automatic headlamp device for electric vehicle and implementation method thereof
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CN113597067A (en) * 2021-07-29 2021-11-02 北京建院图茂科技有限公司 Intelligent illumination control system and method based on station illumination and environment illumination
CN113597067B (en) * 2021-07-29 2024-04-02 北京建院图茂科技有限公司 Intelligent illumination control system and method based on station illumination and environment illumination
CN117098283A (en) * 2023-08-30 2023-11-21 广东省源天工程有限公司 Power supply lighting system for port bank engineering
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