WO2015021794A1 - Intelligent led emergency lamp - Google Patents

Abstract

Disclosed is an intelligent LED emergency lamp, comprising a microwave sensor, an LED lamp, a processor, an LED driver, a transformer, and a storage battery. A signal output end of the microwave sensor is connected to a signal input end of the processor, a signal output end of the processor is connected to a signal input end of the LED driver, and a control end of the LED driver is connected to the LED lamp; an alternating current input end of the transformer is connected to an alternating current power source, and a direct current output end of the transformer is connected to the storage battery, the LED driver, and the processor separately. The intelligent LED emergency lamp of the present utility model can automatically regulate the brightness of a fluorescent lamp on the premise of complying with relevant safety standards, thereby conserving an electric resource; the LED lamp has low heat production and long service life; and a storage battery continues to supply electricity when an alternating current power source is interrupted, thereby achieving an emergency lighting function.

Description

 Intelligent emergency LED fluorescent lamp

 The utility model relates to a fire emergency luminaire, in particular to an intelligent emergency LED fluorescent lamp.

Background technique

 Fire emergency lighting belongs to an important part of fire emergency lighting. Its main function is to provide emergency lighting when the normal lighting system can no longer provide lighting in emergency situations, and provide security for personnel safety evacuation, special post work and fire fighting and rescue operations. The public can easily identify the location of the safe exit and the prescribed evacuation route by means of a certain illumination. Fire emergency luminaires play an important role in promoting public safety in emergencies.

 However, improper use of fire emergency lights can also cause great waste of power resources, such as leaving the scene after the fire emergency lights are turned on to keep them on, or the fire emergency lights remain illuminated during the use of stairs, passages, etc.; There is also a fire emergency light, which uses a passive infrared detector or body sensor. When someone passes by, the fire emergency light is on, which relieves the waste of lighting power to a certain extent, but there are still two problems. First, due to technology. Limiting the reaction time is long. Second, in some countries or regions, the building law and the fire protection law stipulate that no one should maintain normal lighting, so the fire emergency light can only be kept on, passive infrared detector or body sensor. Cannot be used here.

 Therefore, it is an urgent problem to solve the fire emergency light in the prior art that the fire emergency light can simultaneously save power resources, comply with relevant safety regulations, and fully utilize the requirements of its emergency lighting function.

Summary of the invention

 The utility model discloses an intelligent emergency LED fluorescent lamp, which can automatically adjust the brightness of the LED fluorescent lamp under the premise of complying with relevant safety regulations, realizes the saving of power resources, has small heat generation, long service life, and can To the role of emergency lighting.

 The technical scheme of the utility model is as follows:

 A smart emergency LED fluorescent lamp, including a microwave sensor, a processor, an LED driver, an LED lamp, a transformer, and a battery;

a signal output end of the microwave sensor is connected to a signal input end of the processor, a signal output end of the processor is connected to a signal input end of the LED driver, and a control end of the LED driver and the LED are a light connection; the AC input end of the transformer is connected to an AC power source, and the DC output end of the transformer is respectively connected to the battery, the LED driver and the processor;

 When the AC power is turned on, the transformer converts the AC power to DC power and supplies power to the microwave sensor, processor, LED driver and LED lamp, and simultaneously charges the battery; when the AC power is cut off, the battery starts and gives the microwave sensor, processor, LED The driver and the LED lamp supply power; the microwave sensor detects the moving object within the detection range, and when the moving object is detected, the microwave sensor sends a sensing signal to the processor; the processor sends a control signal to the LED driver after receiving the sensing signal; The LED driver receives the control signal to adjust the brightness of the LED lamp to a predetermined high brightness; the LED driver adjusts the brightness of the LED lamp to a predetermined low brightness after a predetermined delay time after the control signal is not received.

 The intelligent emergency LED fluorescent lamp of the utility model uses the sensor, the processor and the LED driver to detect the working environment of the LED lamp and make an intelligent judgment, thereby automatically adjusting the luminous intensity of the LED, and when there is a moving object, the illumination of the LED lamp The intensity is automatically adjusted to a predetermined high intensity to ensure sufficient intensity of illumination for the moving object to ensure its safety; when there is no moving object, the luminous intensity of the LED light is automatically adjusted to a predetermined low intensity, which satisfies some countries and regions. The fire emergency light keeps the normally open requirement, retains part of the lighting intensity, and realizes the power resource saving; the LED lamp works in the low brightness interval for a long time, the heat generation is small, and the service life is long; when the AC power is cut off, the battery continues Provide electricity and play the role of emergency lighting. DRAWINGS

 Figure 1 is a schematic view showing the internal structure of an embodiment of the present invention;

 2 is a schematic view of an external structure of an embodiment of the present invention. detailed description

 The specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

 As shown in FIG. 1 to FIG. 2, the intelligent emergency LED fluorescent lamp of the present invention comprises a microwave sensor, a processor, an LED driver, an LED lamp, a transformer and a battery;

a signal output end of the microwave sensor is connected to a signal input end of the processor, a signal output end of the processor is connected to a signal input end of the LED driver, and a control end of the LED driver is connected to the LED lamp; The AC input of the transformer is connected to the AC power supply, and the DC output of the transformer is respectively Battery, LED driver and processor connection;

 When the AC power is turned on, the transformer converts the AC power provided by the AC power source into DC power, and supplies power to the microwave sensor, the processor, the LED driver, and the LED lamp, and simultaneously charges the battery through the charging circuit. In a specific implementation, the charging circuit can be Integrated in the transformer; when the AC power is cut off, the battery is activated, and the battery supplies power to the microwave sensor, processor, LED driver and LED lamp; the microwave sensor detects the moving object within the detection range, when detecting the moving object, The microwave sensor sends a sensing signal to the processor; the processor sends a control signal to the LED driver after receiving the sensing signal; the LED driver receives the control signal to adjust the brightness of the LED lamp to a predetermined high brightness, for example, in a specific implementation When the AC power is supplied, the predetermined high brightness may be set to 100% of the brightness when the LED light is fully loaded; when the AC power is turned off, when the battery is powered, the predetermined high brightness may be set to be when the LED light is fully loaded. 80% of the brightness, reducing the power consumption under the premise of ensuring safe lighting, In order to extend the battery life; when the LED driver does not receive the control signal, it indicates that the microwave sensor does not detect the moving object within its detection range, and the LED driver adjusts the brightness of the LED lamp to a predetermined low brightness within a predetermined delay time. For example, in a specific implementation, the predetermined low brightness may be set to 30% of the brightness of the LED lamp at full load to maintain a certain basic illumination intensity, and the predetermined delay time may be set according to actual needs, for example, The predetermined delay time is set to 15 seconds, so that the passer leaves the detection range of the microwave detector and retains a buffer time to further improve the safety factor.

 The intelligent emergency LED fluorescent lamp of the utility model uses the sensor, the processor and the LED driver to detect the working environment of the LED lamp and make an intelligent judgment, thereby automatically adjusting the luminous intensity of the LED, and when there is a moving object, the illumination of the LED lamp The intensity is automatically adjusted to a predetermined high intensity to ensure sufficient intensity of illumination for the moving object to ensure its safety; in the absence of moving objects, the luminous intensity of the LED lamp is automatically adjusted to a predetermined low intensity, which satisfies some countries and regions. The fire emergency light keeps the normally open requirement, maintains the minimum illumination required for safe lighting, and realizes the saving of power resources; in addition, the LED lamp of the present invention works for a long time under the low luminous intensity, and the heat generated by the work Small, thus reducing the light decay caused by heat, making the LED lamp have a longer service life, and also more energy-saving and environmentally friendly; when the AC power is cut off, the battery continues to provide power, which acts as an emergency lighting, so that the illumination is uninterrupted. .

 Preferably, the battery is a nickel-hydrogen rechargeable battery, and the nickel-hydrogen rechargeable battery is stable and storage-resistant, and is more economical and convenient to use;

Preferably, the processor is an MCU, and the MCU is inexpensive as a type of microcontroller, and has One-time programmable capability, suitable for applications requiring both flexibility and low cost; Preferably, the intelligent emergency LED fluorescent lamp 1 of the present invention is provided with an AC power indicator 2 for displaying an AC power supply state. When the AC power is available, the AC power indicator 2 lights up. When the AC power is off, the AC power indicator 2 goes out, which is convenient for visually determining the power supply status of the AC power supply. Further, the exterior of the intelligent emergency LED fluorescent lamp 1 of the present invention There is also a charging indicator lamp 3 for displaying the state of charge of the battery. When the AC power is turned on, the battery starts to be charged. At this time, the charging indicator lamp 3 lights up, indicating that the battery is charging, and the charging indicator lamp 3 is off after the battery is charged, which is convenient and intuitive. Judging the state of charge of the battery;

 Preferably, the intelligent emergency LED fluorescent lamp 1 of the present invention is further provided with a test switch 4 for cutting off the AC power supply. In the normal inspection, the AC power supply can be cut off by the test switch 4 to simulate the power failure state, so as to power off the AC power supply. The working state of the intelligent emergency LED fluorescent lamp is detected.

 The embodiments of the present invention described above are not intended to limit the scope of the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and scope of the present invention are intended to be included within the scope of the appended claims.

Claims

claims

1. An intelligent emergency LED fluorescent lamp, characterized by: including a microwave sensor, a processor, an LED driver, an LED lamp, a transformer and a battery;

The signal output end of the microwave sensor is connected to the signal input end of the processor, the signal output end of the processor is connected to the signal input end of the LED driver, and the control end of the LED driver is connected to the LED lamp; so The AC input end of the transformer is connected to the AC power supply, and the DC output end of the transformer is connected to the battery, LED driver and processor respectively;

When the AC power supply is powered on, the transformer converts the AC power into DC power and supplies power to the microwave sensor, processor, LED driver and LED light, and at the same time charges the battery; when the AC power supply is cut off, the battery starts up and supplies power to the microwave sensor, processor, LED Power supply to the driver and LED lights; The microwave sensor detects moving objects within the detection range. When a moving object is detected, the microwave sensor sends an induction signal to the processor; after receiving the induction signal, the processor sends a control signal to the LED driver; The LED driver receives the control signal and adjusts the brightness of the LED light to a predetermined high brightness; the LED driver adjusts the brightness of the LED light to a predetermined low brightness after a predetermined delay time after not receiving the control signal.

2. The intelligent emergency LED fluorescent lamp according to claim 1, characterized in that: the battery is a nickel metal hydride rechargeable battery.

3. The intelligent emergency LED fluorescent lamp according to claim 1 or 2, characterized in that: the processor is an MCU.

4. The intelligent emergency LED fluorescent lamp according to claim 1, characterized in that: the intelligent emergency

The exterior of the LED fluorescent lamp is provided with an AC power indicator light for displaying the AC power supply status.

5. The intelligent emergency LED fluorescent lamp according to claim 1, characterized in that: a charging indicator light for displaying the charging status of the battery is provided on the outside of the intelligent emergency LED fluorescent lamp.

6. The intelligent emergency LED fluorescent lamp according to claim 1, characterized in that: a test switch for cutting off the AC power supply is provided on the outside of the intelligent emergency LED fluorescent lamp.