CN202713749U - Intelligent inductive lamp - Google Patents

Abstract

Provided is an intelligent inductive lamp. The intelligent inductive lamp comprises a processor with a preset light intensity threshold, a light inductive module, an infrared ray inductive module, a voltage adjusting module and a luminescence unit, wherein the voltage adjusting module, the light inductive module and the infrared ray inductive module are all electrically connected with the processor, and the voltage adjusting module is also electrically connected with an external power supply. The intelligent inductive lamp saves energy, improves safety of places, and emits lights in different light intensities according to different requirements, which is very human-based.

Description

The intelligent-induction lamp

Technical field

The utility model relates to a kind of intelligent-induction lamp.

Background technology

Illuminating lamp is provided with different switch control modes according to different places, and is for example generally manually opened by mechanical switch or turn off illuminating lamp for dwelling house, for the corridor of building, generally opens by inductive switch or turns off illuminating lamp with energy-conservation.For the place of parking valuables such as parking lot, the self-help drawing money machine service Room etc., generally keep at night light yellow by photoinduction switch control illuminating lamp at present, so, obviously be unfavorable for energy-conservation, perhaps by infra-red sensor switch according to whether the people being arranged near the control illuminating lamp, if but the people not at sensing range, then illuminating lamp does not work, so, be unfavorable for that the watch-dog in the place carries out Real-Time Monitoring, coefficient of safety is low.

The utility model content

For the deficiencies in the prior art, the purpose of this utility model is intended to provide a kind of intelligent-induction lamp, and it both had been conducive to energy-conservation, and can improve the place fail safe.

For achieving the above object, the utility model adopts following technical scheme:

A kind of intelligent-induction lamp comprises processor, photoinduction module, infrared induction module, Voltage Regulator Module and the luminescence unit of a default Intensity threshold; Voltage Regulator Module, photoinduction module and infrared induction module all are electrically connected processor, and Voltage Regulator Module also is electrical connected with the power supply of an outside;

The induced signal that generates when the photoinduction module is less than default Intensity threshold, and infrared induction module is not when generating induced signal, and the voltage transitions that processor control Voltage Regulator Module is exported power supply is the first magnitude of voltage; The induced signal that generates when the light intensity induction module is less than default Intensity threshold, and the infrared induction module is when generating induced signal, and the voltage transitions that processor control Voltage Regulator Module is exported power supply is the second voltage value; The induced signal that generates when the photoinduction module is during greater than default Intensity threshold, and processor control Voltage Regulator Module is the voltage that provides of out-put supply not, and wherein the first magnitude of voltage is less than the second voltage value.

The intelligent-induction lamp also comprises the time delay module that is connected with processor, is used for the time of delay that control second voltage value changes to the first magnitude of voltage.

The intelligent-induction lamp also comprises a microwave sensor that is electrically connected with processor, the induced signal that generates when the photoinduction module is less than default Intensity threshold, and when microwave sensor does not generate induced signal, the voltage transitions that processor control Voltage Regulator Module is exported power supply is the first magnitude of voltage, the induced signal that generates when the light intensity induction module is less than default Intensity threshold, and when microwave sensor generated induced signal, the voltage transitions that processor control Voltage Regulator Module is exported power supply was the second voltage value.

The cone angle of the induction range of microwave sensor is 180 degree, and the distance of induction range is 8 meters to 20 meters.

The light intensity induction module is photo resistance.

The cone angle of the induction range of infrared induction module is 140 degree, and the distance of induction range is 5 meters to 8 meters.

Infrared induction module is infrared ray sensor.

Luminescence unit is one or more LED lamps.

Luminescence unit is fluorescent lamp or power saving fluorescent lamps.

A kind of intelligent-induction lamp comprises processor, photoinduction module, microwave sensor, Voltage Regulator Module and the luminescence unit of a default Intensity threshold; Voltage Regulator Module, photoinduction module and microwave sensor all are electrically connected processor, and Voltage Regulator Module also is electrical connected with the power supply of an outside;

The induced signal that generates when the photoinduction module is less than default Intensity threshold, and microwave sensor is not when generating induced signal, and the voltage transitions that processor control Voltage Regulator Module is exported power supply is the first magnitude of voltage; The induced signal that generates when the light intensity induction module is less than default Intensity threshold, and microwave sensor is when generating induced signal, and the voltage transitions that processor control Voltage Regulator Module is exported power supply is the second voltage value; The induced signal that generates when the photoinduction module is during greater than default Intensity threshold, and processor control Voltage Regulator Module is the voltage that provides of out-put supply not, and wherein the first magnitude of voltage is less than the second voltage value.

The beneficial effects of the utility model are as follows:

Above-mentioned intelligent-induction lamp not only had been beneficial to energy-conservation but also can have improved the fail safe in place, and sent the light of varying strength, very hommization according to different demands.

Description of drawings

Fig. 1 is the block diagram of the better embodiment of the utility model intelligent-induction lamp.

Component symbol

Power supply	5	Processor	21
				Microwave sensor	27	The photoinduction module	22
Infrared induction module	23	The intelligent-induction lamp	2
				Voltage Regulator Module	26	Luminescence unit	24
Time delay module	25	?	?

Embodiment

Below in conjunction with accompanying drawing and embodiment, the utility model is described further:

See also Fig. 1, the utility model relates to a kind of intelligent-induction lamp, and its better embodiment comprises processor 21, microwave sensor 27, photoinduction module 22, infrared induction module 23, Voltage Regulator Module 26, time delay module 25 and luminescence unit 24.

Voltage Regulator Module 26, microwave sensor 27, time delay module 25, photoinduction module 22 and infrared induction module 23 all are electrically connected processor 21, and Voltage Regulator Module 26 also is electrical connected with the power supply 5 of an outside.

Microwave sensor 27 is used for sending in real time electromagnetic wave to detect whether there is mobile object in its induction range, if exist mobile object namely to send microwave induced signal to processor 21.The cone angle of the induction range of microwave sensor 27 is 180 degree, and the distance of induction range can be 8 meters to 20 meters.

Photoinduction module 22 is used in real time, and induction surrounding enviroment light intensity also sends corresponding photoinduction signal to processor 21.In the present embodiment, this light intensity induction module 22 is photo resistance.

Infrared induction module 23 is used for the infrared ray that the real-time detection human body sends, and namely sends the infrared induction signal to processor 21 if detect the infrared ray that human body sends.The cone angle of the induction range of infrared induction module 23 is 140 degree, and the distance of induction range is 5 meters to 8 meters.In the present embodiment, infrared induction module 23 is infrared ray sensor.

Processor 21 default Intensity thresholds, processor 21 will compare with the Intensity threshold of presetting from the photoinduction signal of photoinduction module 22, if the photoinduction signal is greater than default Intensity threshold, for example during daytime, processor 21 is in resting state, namely whether no matter whether microwave sensor 27 and infrared induction module 23 generate induced signal, all do not send voltage control signal to Voltage Regulator Module 26, then power supply 5 can't provide voltage to luminescence unit 24 by Voltage Regulator Module 26, and luminescence unit 24 is not luminous so.If the photoinduction signal is less than default Intensity threshold, for example during night, processor 31 is in running order, if microwave sensor 27 and infrared induction module 23 all do not generate induced signal, then processor 31 sends the first voltage control signal to Voltage Regulator Module 26, so that the voltage transitions that Voltage Regulator Module 26 is exported power supply 5 is one first magnitude of voltage and exports luminescence unit 25 to, then so that luminescence unit 25 works in the first power as under 5 watts, thereby so that luminescence unit 25 sends soft low-light.When if microwave sensor 27 generates microwave induced signal or infrared induction module 23 generation infrared induction signal, processor 31 namely controls signal to Voltage Regulator Module 26 according to the microwave induced signal that receives or infrared induction signal output second source, so that the voltage transitions that Voltage Regulator Module 26 is exported power supply 5 is the second voltage value and exports luminescence unit 25 to, then so that luminescence unit 25 works in the second power such as 16 watts, thereby so that luminescence unit 25 sends light.

When microwave sensor 27 or infrared induction module 23 stop to generate induced signal, processor 21 sent the first voltage control signal to Voltage Regulator Module 26 through time delay module 25 default delay times again after 30 seconds, so that the voltage transitions that Voltage Regulator Module 26 is exported power supply 5 is the first magnitude of voltage, thereby so that luminescence unit 25 works under the first power again, with energy-conservation.

Among other embodiment, the intelligent-induction lamp can not comprise infrared induction module or microwave sensor, and other elements of intelligent-induction lamp are identical with the present embodiment with annexation.

In the present embodiment, luminescence unit 24 can be one or more LED(light emitting diode, light-emitting diode) lamp.Among other embodiment, luminescence unit 24 also can be other illuminating lamps such as fluorescent lamp or power saving fluorescent lamps.

The below describes operation principle of the present utility model as example to be applied to the parking lot, and wherein some intelligent-induction lamps 2 are installed in the parking lot:

When brighter in daytime or the parking lot, all intelligent-induction lamps 2 all do not work, and are beneficial to energy-conservation.Darker in night or parking lot, and when not having vehicle or people to enter, all intelligent-induction lamp 2 equal glimmers so that have certain visibility in the parking lot, not only are beneficial to energy-conservationly, and are conducive to the image of watch-dog shooting clear.When having vehicle to enter the parking lot, detecting one of mobile vehicle or many intelligent-induction lamps 2 by little inductor 27 namely brightens, behind the vehicle stop certain hour, the intelligent-induction lamp 2 that originally brightened recovers glimmer, if this moment the people from vehicle out, ultrared one or many intelligent-induction lamps 2 of then sensing human body by infrared induction module 23 brighten.After people or vehicle left the parking lot certain hour, the intelligent-induction lamp 2 that originally brightened recovered glimmers.

Above-mentioned intelligent-induction lamp not only had been beneficial to energy-conservation but also can have improved the fail safe in place, and sent the light of varying strength, very hommization according to different demands.

For a person skilled in the art, can make other various corresponding changes and distortion according to technical scheme described above and design, and these all changes and distortion should belong within the protection range of the utility model claim all.

Claims (10)

1. intelligent-induction lamp is characterized in that: it comprises processor, photoinduction module, infrared induction module, Voltage Regulator Module and the luminescence unit of a default Intensity threshold; Voltage Regulator Module, photoinduction module and infrared induction module all are electrically connected processor, and Voltage Regulator Module also is electrical connected with the power supply of an outside;

The induced signal that generates when the photoinduction module is less than default Intensity threshold, and infrared induction module is not when generating induced signal, and the voltage transitions that processor control Voltage Regulator Module is exported power supply is the first magnitude of voltage; The induced signal that generates when the light intensity induction module is less than default Intensity threshold, and the infrared induction module is when generating induced signal, and the voltage transitions that processor control Voltage Regulator Module is exported power supply is the second voltage value; The induced signal that generates when the photoinduction module is during greater than default Intensity threshold, and processor control Voltage Regulator Module is the voltage that provides of out-put supply not, and wherein the first magnitude of voltage is less than the second voltage value.

2. intelligent-induction lamp as claimed in claim 1, it is characterized in that: it also comprises the time delay module that is connected with processor, is used for the time of delay that control second voltage value changes to the first magnitude of voltage.

3. intelligent-induction lamp as claimed in claim 1 or 2, it is characterized in that: it also comprises a microwave sensor that is electrically connected with processor, the induced signal that generates when the photoinduction module is less than default Intensity threshold, and when microwave sensor does not generate induced signal, the voltage transitions that processor control Voltage Regulator Module is exported power supply is the first magnitude of voltage, the induced signal that generates when the light intensity induction module is less than default Intensity threshold, and when microwave sensor generated induced signal, the voltage transitions that processor control Voltage Regulator Module is exported power supply was the second voltage value.

4. intelligent-induction lamp as claimed in claim 3 is characterized in that: the cone angle of the induction range of microwave sensor is 180 degree, and the distance of induction range is 8 meters to 20 meters.

5. intelligent-induction lamp as claimed in claim 1 or 2, it is characterized in that: the light intensity induction module is photo resistance.

6. intelligent-induction lamp as claimed in claim 1 or 2 is characterized in that: the cone angle of the induction range of infrared induction module is 140 degree, and the distance of induction range is 5 meters to 8 meters.

7. intelligent-induction lamp as claimed in claim 1 or 2, it is characterized in that: infrared induction module is infrared ray sensor.

8. intelligent-induction lamp as claimed in claim 1 or 2, it is characterized in that: luminescence unit is one or more LED lamps.

9. intelligent-induction lamp as claimed in claim 1 or 2, it is characterized in that: luminescence unit is fluorescent lamp or power saving fluorescent lamps.

10. intelligent-induction lamp is characterized in that: it comprises processor, photoinduction module, microwave sensor, Voltage Regulator Module and the luminescence unit of a default Intensity threshold; Voltage Regulator Module, photoinduction module and microwave sensor all are electrically connected processor, and Voltage Regulator Module also is electrical connected with the power supply of an outside;

The induced signal that generates when the photoinduction module is less than default Intensity threshold, and microwave sensor is not when generating induced signal, and the voltage transitions that processor control Voltage Regulator Module is exported power supply is the first magnitude of voltage; The induced signal that generates when the light intensity induction module is less than default Intensity threshold, and microwave sensor is when generating induced signal, and the voltage transitions that processor control Voltage Regulator Module is exported power supply is the second voltage value; The induced signal that generates when the photoinduction module is during greater than default Intensity threshold, and processor control Voltage Regulator Module is the voltage that provides of out-put supply not, and wherein the first magnitude of voltage is less than the second voltage value.

Images