TWM282097U - Auto-lighting device capable of sensing objects and detecting brightness - Google Patents

Description

M282097 8. Description of the new type: [Technical field to which the new type belongs] This creation is to provide an automatic lighting device with both object sensing and brightness detection, especially an automatic lighting device applied to outdoor or aisle space. [Previous technology] Automatic lighting devices are currently widely used in, for example, roadways, office aisles, or outdoor environments. In the past, automatic lighting devices generally only had general infrared sensing functions, that is, the power was turned on when an object was approached. When the lighting device is turned on, it has only a single function and cannot meet other situations that require lighting. For example, when the surrounding environment becomes dark, the lighting device is not automatically turned on, and multiple lighting functions cannot be provided. [New content] Therefore, the purpose of this new model is to provide an automatic lighting device with both object sensing and brightness detection. Another object of the present invention is to provide an automatic lighting device capable of wireless remote control and linearly increasing the brightness of an illumination light source. Therefore, the new infrared sensing module, which has both object sensing and brightness detection, can output a first turn-on signal when the object's heat source is approached: a brightness integration measurement module, which can measure low brightness m. When the value is set, a second open signal, a logic unit whose input end is connected to the infrared sensing module and the brightness measurement module, and generates a control signal and a power supply according to the first and second open signals. The module is used to generate a power supply and is connected to the logic unit to control whether the power supply M282097 is turned on or off according to the control signal, and an illumination light source module is connected to the power supply module. When the logic unit receives at least one of the first and second turn-on signals', the logic unit outputs the control signal to control the power supply module to turn the supply power to the lighting light source module. [Embodiment] The foregoing and other technical contents, features, and effects of the present invention will be clearly presented in the following detailed description of the preferred embodiment with reference to the drawings.

Tea reading Figure 1 S ® 4, A A preferred embodiment of this new type of automatic lighting device, the automatic lighting device i of this embodiment includes-brightness measurement module 2, a personal infrared sensing module 3, a wireless The remote control module 4, a logic unit 7, a power supply module 5 and an illumination light source module 6. 3. As shown in FIG. 3, the personal infrared sensing module 3 includes an infrared detector 30 and a controller 31, wherein the infrared detector may be, for example, an active or passive infrared sensing element. An object heat source (eg, a person) is detected, and the “work over” signal is transmitted to the controller 31 so that the controller 3] outputs a first-on signal at a high electrical M level. On the contrary, the output voltage of the controller 31 is at a low voltage level. The brightness detection module includes a light detector. Fig. 2) The light detector 20 is, for example, a light sensor, which is 7C degrees and converted into a corresponding voltage value. The control unit 20 and a controller 21 (see that the surrounding environment 21 can be detected, for example, is a pulse-width modulation circuit, which can receive the electric dust value, and the electric pulse & value to output the corresponding pulse with wil The wave width modulation signal (PWM signal, the second open signal). The logic unit 7 is, for example, one or the alarm gate, and its two input terminals are respectively electrically connected to the human infrared sensing module 3 and the brightness detection module. Test module 2, and according to the rotation table of the personal infrared sensor module 3 and the brightness detection module 2, logic 1 is defined as the high voltage level, and logic 0 is defined as the low voltage level: ~ Brightness detection module 2 Human infrared sensing module 3 Logic unit 7 Round out 1 (second percent on signal) on signal) 1 (first on signal) -------- 0 '~ --- ---- ~~ -------- 1 0 ------- Start signal) ---- ~. 1 0 0 -------- ^ _ 0 The wireless remote control module 4 includes a wireless The remote control transmitting module 40 and a wireless remote control receiving module 4 include the remote control transmitting module 40 and output a corresponding signal after a logical operation, for example, the relationship between them is as follows: A wireless control signal can be sent to control the wireless remote control receiving module 41 to output a linear control signal. The wireless remote control receiving module 41 includes a wireless receiving circuit 410 and a controller 411 (see FIG. 4). The wireless receiving circuit receives the wireless control signal and processes it (such as filtering, amplification, etc.) to output a first- «To the controller 4U, the controller 411 is, for example, a CYTM6408ps human infrared infrared detector control IC of a company called Dingjin. It has an automatic dimming function and can output linearly rising when the first signal is received. Linear control signal. The power supply module 5 can convert, for example, AC input power of the city power source, convert the power supply output of the II stream, or receive the output transmitted by the logic unit Λ < to output the corresponding power source to turn on the light source module. Group 6 (M282097 is, for example, a light emitting diode (LED) module), and its input terminals are electrically connected to the wireless remote control receiving module 41 and the logic unit 7, respectively. Therefore, when the personal infrared sensing module 3 and the brightness detection module 2 or at least one of them output a high level voltage (that is, both or at least one of the first and second enable signals are output to the logic unit 7) ), The logic unit 7 outputs a control signal of logic # 1 (high level) to the power supply module 5 to supply power to the lighting light source module 6 to provide lighting. In addition, the user can use the wireless remote control transmitting module 40 to output the wireless control signal. The wireless receiving circuit 41 in the wireless remote control receiving module 41 sends out the-signal to the controller 411 after processing, so that the controller 4ΐι Output this

[Brief description of the diagram] is a block diagram of a circuit, and a block diagram of a road f, illustrating a comparison of the new automatic lighting device

M282097 circuit; FIG. 3 is a circuit block diagram illustrating the internal circuit of the human infrared sensing module of FIG. 1; and FIG. 4 is a circuit block diagram illustrating the internal circuit of the wireless remote control receiving module of FIG. M282097 [Symbol description of main components]

1 .......… Automatic lighting device group 2 .......… Brightness detection module 41 ••… •… Wireless remote control receiving module 20 ……… Light detector group 21 ……… Controller 410 ... • Wireless receiving circuit 3 ......... Personal infrared sensor 411 ... Controller module 5 ... Power supply module 30 ... IR detector 50 " ... Input power 31 ……… controller 6 ............ • Illumination light source module 4 ....... 40 ……… Wireless remote control module… Wireless remote control transmission module 7 ...... •… Logic Unit 10

Claims (1)

M282097 9. Scope of patent application: 1. An automatic lighting device with both object sensing and brightness detection, including: a personal infrared sensor module, which can turn on a first open signal when it detects that the object's heat source is approaching; A shell detection module, which can turn on a second open signal when the detection brightness is lower than a set value; ^ a logic unit whose input end is connected to the infrared sensing module and the brightness detection module And generating a control signal according to the first and second enable signals; a power supply module for generating a supply power and connecting with the logic unit to control the output of the supply power according to the control signal; and ^ An illumination light source module connected to the power supply module; when the logic unit receives at least one of the first and second on signals, the logic unit outputs the control signal to control the power supply module The power source is output to the illumination light source module. "Kang Shenming's patent scope 帛 丨 Automatic lighting device with both object sensing and brightness detection, t includes a wireless remote control module connected to the power supply module 'The wireless remote control module includes: A wireless remote control transmitting module for a wireless control signal; and a controller having: a wireless receiving circuit that receives the wireless control signal and processes a first signal after processing; and a controller based on the first signal Output a linear control signal M282097 After receiving the linear supply signal from f Hai, the Taguchi Hai power supply unit can output a linearly rising power supply to the lighting unit to control the lighting source module to linearly increase its brightness. 3. According to the patent application JfJ 筮 1 TS β, 4, ^ 孳 巳 / U, the automatic lighting device described in item 1, its application infrared sensor module includes an infrared detector, which detects objects When the heat source approaches, a control signal is output; and-the controller 'outputs the first open signal when the control signal is received. 4. According to the automatic lighting bag set described in item 丨 of the patent scope, where the set value is a reference voltage, the brightness detection module includes:-The light detector 'detects the surrounding environment brightness and converts the output An analog signal corresponding to a voltage value; and 'a control | §, receiving the analog signal and outputting a second enable signal corresponding to a pulse width according to the voltage value. 5. The automatic lighting device according to item 丨 of the scope of Shenqing patent, where the logic unit is an OR gate, and the two input ends of the OR gate are connected to the infrared sensing module and the brightness detection module, respectively. , And output the control signal after logic operation according to the first one ~ open signal. 6 · The automatic lighting device according to item 1 of Shenyan's patent scope, wherein the power supply module is connected to a mains. ~ 7 _ According to the automatic lighting device described in item 1 of the scope of the patent application, the light source lighting module is a light emitting diode module. 12