CN110831302A - Light regulation and control device - Google Patents

Abstract

The invention discloses a light regulation and control device and a light regulation and control method. The invention has the advantages of accurate and reliable regulation and control, simple structure, low manufacturing cost and easy manufacture.

Description

Light regulation and control device

Technical Field

The invention relates to a light regulating device, in particular to a light regulating device, and belongs to the technical field of electronic spare and accessory parts.

Background

The lamp is one of electrical equipment commonly used in daily life, and becomes one of electrical equipment essential for people to have a holy back and work. Especially, in an underground parking lot, the lights are continuously turned on for 24 hours in the daytime or at night, which not only causes energy waste, but also causes light pollution.

In order to save power and reduce light pollution, a control system capable of adjusting light has been invented, but such a control system cannot adjust and control light well, and sometimes fails to adjust and control, so that a reliable light adjustment and control device is needed to be developed.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the light regulation and control device which can automatically regulate the brightness of light, does not need manual dimming, has high automation degree, saves electric energy and reduces light pollution.

The invention relates to a light regulation and control device, which comprises a photosensitive sensor, an infrared sensor, a sound sensor, a controller, a current regulation and control circuit and an output circuit, wherein the photosensitive sensor is connected with the infrared sensor; the output ends of the photosensitive sensor, the infrared sensor and the sound sensor are respectively connected with the input end of the controller through the digital-to-analog converter, the output end of the controller is connected with the input end of the output circuit, the output end of the output circuit is connected with the power input end of the lamp, the input end of the current regulation and control circuit is connected with the output end of the controller, and the output end of the current regulation and control circuit is connected with the output circuit.

Preferably, the lamp further comprises a Bluetooth receiver installed on the lamp and a client, wherein the input end of the controller is connected with the Bluetooth receiver, and the Bluetooth receiver is connected with the client through a wireless signal.

The control method based on the regulation and control device comprises the following steps:

the photosensitive sensor collects the intensity of the light source in real time and transmits the intensity to the controller; the infrared sensor collects infrared signals in real time and transmits the infrared signals to the controller; the sound sensor collects sound information in real time and transmits the sound information to the controller;

if the light source intensity acquired by the photosensitive sensor is higher than the light source intensity stored in the controller, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit to enable the light to be intensified; if the light source intensity collected by the photosensitive sensor is lower than the light source intensity stored in the controller, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the adjusted current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

If the infrared signal collected by the infrared sensor indicates that someone is under the lamp at the moment and the intensity of the lamp light needs to be enhanced, the controller receives the infrared signal, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit to enable the lamp light to be enhanced; if the infrared signal is not collected by the infrared sensor and the controller does not receive the infrared signal, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the regulated current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

If the decibel signal collected by the sound sensor indicates that someone is under the lamp at the moment, the intensity of the lamp light needs to be enhanced, and the decibel signal exceeds the decibel intensity stored in the controller, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit, so that the lamp light is enhanced; if the sound sensor does not collect the decibel signal, the controller does not receive the decibel signal, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the regulated current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

In order to more conveniently control the intensity of light, the Bluetooth receiver is installed on the lamp, and the Bluetooth lamp further comprises a client side, wherein the client side is connected with the Bluetooth receiver through a Bluetooth signal. The user can open the bluetooth of customer end, links to each other with the bluetooth receiver of lamp, adjusts the luminance of light through the customer end.

Compared with the prior art, the light intensity of the lamp is controlled by acquiring the light intensity, the infrared signal and the sound signal through the photosensitive sensor, the infrared sensor and the sound sensor and then controlling the current regulation and control circuit to regulate the current through the controller. The invention has the advantages of accurate and reliable regulation and control, simple structure, low manufacturing cost and easy manufacture.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Detailed Description

The invention will be further explained with reference to the drawings.

As shown in the figure, the light regulation and control device comprises a photosensitive sensor, an infrared sensor, a sound sensor, a controller, a Bluetooth receiver, a client, a current regulation and control circuit and an output circuit; photosensitive sensor, infrared sensor, the sound sensor output passes through digital-to-analog converter and links to each other with the controller input respectively, the controller output links to each other with the output circuit input, the output circuit output links to each other with the power input end of lamp, the controller input links to each other with bluetooth receiver, bluetooth receiver passes through radio signal and links to each other with the customer end, current regulation and control circuit input links to each other with the controller output, the output links to each other with output circuit.

The control method based on the regulation and control device comprises the following steps:

the photosensitive sensor collects the intensity of the light source in real time and transmits the intensity to the controller; the infrared sensor collects infrared signals in real time and transmits the infrared signals to the controller; the sound sensor collects sound information in real time and transmits the sound information to the controller;

if the light source intensity acquired by the photosensitive sensor is higher than the light source intensity stored in the controller, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit to enable the light to be intensified; if the light source intensity collected by the photosensitive sensor is lower than the light source intensity stored in the controller, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the adjusted current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

If the infrared signal collected by the infrared sensor indicates that someone is under the lamp at the moment and the intensity of the lamp light needs to be enhanced, the controller receives the infrared signal, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit to enable the lamp light to be enhanced; if the infrared signal is not collected by the infrared sensor and the controller does not receive the infrared signal, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the regulated current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

If the decibel signal collected by the sound sensor indicates that someone is under the lamp at the moment, the intensity of the lamp light needs to be enhanced, and the decibel signal exceeds the decibel intensity stored in the controller, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit, so that the lamp light is enhanced; if the sound sensor does not collect the decibel signal, the controller does not receive the decibel signal, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the regulated current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

In order to more conveniently control the intensity of light, the Bluetooth receiver is installed on the lamp, and the Bluetooth lamp further comprises a client side, wherein the client side is connected with the Bluetooth receiver through a Bluetooth signal. The user can open the bluetooth of customer end, links to each other with the bluetooth receiver of lamp, adjusts the luminance of light through the customer end.

Claims (4)

1. A light regulation and control device is characterized by comprising a photosensitive sensor, an infrared sensor, a sound sensor, a controller, a current regulation and control circuit and an output circuit; the output ends of the photosensitive sensor, the infrared sensor and the sound sensor are respectively connected with the input end of the controller through the digital-to-analog converter, the output end of the controller is connected with the input end of the output circuit, the output end of the output circuit is connected with the power input end of the lamp, the input end of the current regulation and control circuit is connected with the output end of the controller, and the output end of the current regulation and control circuit is connected with the output circuit.

2. A light regulating device according to claim 1, further comprising a bluetooth receiver mounted on the lamp, and a client, wherein the input of the controller is connected to the bluetooth receiver, and the bluetooth receiver is connected to the client via a wireless signal.

3. A regulation and control method of a light regulation and control device is characterized in that a photosensitive sensor collects the intensity of a light source in real time and transmits the intensity to a controller; the infrared sensor collects infrared signals in real time and transmits the infrared signals to the controller; the sound sensor collects sound information in real time and transmits the sound information to the controller;

if the light source intensity acquired by the photosensitive sensor is higher than the light source intensity stored in the controller, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit to enable the light to be intensified; if the light source intensity collected by the photosensitive sensor is lower than the light source intensity stored in the controller, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the adjusted current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

If the infrared signal collected by the infrared sensor indicates that someone is under the lamp at the moment and the intensity of the lamp light needs to be enhanced, the controller receives the infrared signal, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit to enable the lamp light to be enhanced; if the infrared signal is not collected by the infrared sensor and the controller does not receive the infrared signal, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the regulated current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

If the decibel signal collected by the sound sensor indicates that someone is under the lamp at the moment, the intensity of the lamp light needs to be enhanced, and the decibel signal exceeds the decibel intensity stored in the controller, the controller controls the current regulating and controlling circuit to increase the current in the circuit, and the current enters the power supply input end of the lamp through the output circuit, so that the lamp light is enhanced; if the sound sensor does not collect the decibel signal, the controller does not receive the decibel signal, the controller controls the current regulating and controlling circuit to reduce the current in the circuit, and the regulated current enters the power input end of the lamp through the output circuit, so that the lamp tube is weakened, and the electric quantity is saved.

4. A method as claimed in claim 1, wherein a bluetooth receiver is mounted on the lamp, and further comprising a client, the client being connected to the bluetooth receiver via a bluetooth signal.

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