WO2018161445A1 - Smart lighting device - Google Patents

Abstract

A smart lighting device, comprising at least one primary device unit (A) and multiple secondary device units (B). The primary device unit (A) and secondary device units (B) are respectively provided with a control circuit (1, 2), and a human detection module (12, 22), a lamp (15, 25), and a power supply module (11, 21) connected to the control circuit (1, 2). The power supply module (11, 21) consists of a solar panel (111, 211) and a wind power generator set (112, 212). The primary device unit (A) is further provided with a light source detection module (13) and a transmission module (14) connected to the control circuit (1) thereof. The secondary device units (B) are correspondingly provided with a receiving module (23) in signal communication with the transmission module (14). Advantageous features of the present invention include smart lighting adjustment based on detection of an outdoor light irradiation intensity and an indoor illumination intensity requirement. In addition, when a user enters into a house or a different room, the device turns on a different lamp and assigns a corresponding illumination intensity to achieve smart lighting, thus saving energy and realizing environmental friendliness.

Description

Intelligent lighting device [Technical Field]

The invention relates to the field of lighting technology, in particular to an intelligent lighting device which realizes intelligent lighting by detecting different users to open different lamps before entering the room and entering different rooms, so as to achieve energy saving and environmental protection purposes.

【Background technique】

Because the earth's energy is consumed in a large amount, countries around the world do not invest considerable funds and manpower, hoping to develop alternative energy sources and ways to save energy. In life, when used at night or when lighting is poor, high power and high consumption. Energy products account for a considerable proportion of energy consumption, and some lighting appliances have lower power and are also dependent on solar energy and wind power. Although energy-saving lamps such as LEDs have been successfully developed and widely used in recent years, they can improve the disadvantages of high energy consumption of traditional lamps. In daily life, people often turn on the lamps for a long time, which is not very helpful for saving energy. Therefore, how to make the lighting fixtures turn on and off according to actual needs, thereby achieving energy saving effect. In view of this, it is necessary to design an intelligent lighting device to detect the user to turn off or adjust different lamps and lighting intensity before entering the room and entering different rooms to achieve intelligent lighting, so as to achieve energy saving and environmental protection.

[Summary of the Invention]

The object of the present invention is to overcome the deficiencies of the prior art, and provide an intelligent lighting device that intelligently adjusts illumination by detecting outdoor light radiation intensity and indoor required light intensity; and when the user enters the house and enters different rooms, the device Intelligently turn on different luminaires and adjust the corresponding light intensity to achieve Intelligent lighting, in order to save energy and environmental protection.

In order to solve the above technical problem, an intelligent lighting device provided by an embodiment of the present invention includes at least one host unit and a plurality of slave units. The host unit and the slave unit are respectively provided with a control circuit and a human body detection connected to the control circuit. The module, the luminaire and the power supply module, wherein the power supply module comprises a solar panel and a wind power generator; the host unit further comprises a light source detecting module and a transmitting module connected to the control circuit, and correspondingly, the slave unit is provided with the signal of the transmitting module Connected receiver modules. The main unit is located at the door of the building, and each sub unit is located in a different room of the building. When the user enters the house, the luminaire is turned on by the detection of the main unit, and the signal is transmitted to the transmitting module through the transmitting module. Each sub-unit unit activates the sub-unit unit to turn on different lamps before the user enters different rooms, thereby realizing intelligent illumination, thereby achieving energy conservation and environmental protection.

In the above structure, the transmitting module and the receiving module of the host unit and the slave unit are connected by high frequency radio waves or Wi-Fi.

In the above structure, the human body detecting module disposed on the host unit and the slave unit is an infrared, thermal sensing or ultrasonic detecting module.

In the above structure, the control circuit is configured to adjust the illumination power of the luminaire according to the human body movement signal detected by the human body detection module, thereby achieving the purpose of saving energy.

In the above structure, the lamp is a low power, high illumination LED lamp.

Embodiments of the present invention have the following beneficial effects:

In the embodiment of the invention, the intelligent illumination device provided by the invention intelligently adjusts the illumination by detecting the outdoor light radiation intensity and the required illumination intensity in the room; and the device intelligently turns on different lamps before the user enters the house and enters different rooms. And the corresponding light intensity of the light is adjusted to realize intelligent lighting, thereby achieving the purpose of saving energy and environmental protection.

[Description of the Drawings]

1 is a perspective view of an intelligent lighting device of the present invention.

2 is a schematic diagram of power supply of the intelligent lighting device of the present invention.

3 is a circuit block diagram of the intelligent lighting device of the present invention.

4 is an implementation environment diagram of the intelligent lighting device of the present invention.

Figure 5 is a flow chart showing the operation of the intelligent lighting device of the present invention.

【detailed description】

The present invention is further described below in conjunction with the accompanying drawings and specific embodiments.

Referring to Figures 1, 2 and 3, the present invention discloses an intelligent lighting device comprising at least one host unit A and a plurality of slave units B, wherein the host unit A is provided with a control circuit 1 and is connected to the control circuit 1. The power supply module 11, the human body detection module 12, the light source detection module 13, the transmission module 14, the luminaire 15 and the power supply module 11, wherein, in this embodiment, the power supply module 11 includes a solar panel 111, a wind power generator set 112; A battery connected to the solar panel 111 and the wind power generator set 112 is provided to store the smart lighting device. The human body detecting module 12 is an infrared, thermal sensing or ultrasonic detecting module, and the transmitting module 14 uses high frequency radio waves or Wi. -Fi as an interface, the luminaire 15 is an LED lamp with low power consumption and high illumination.

The sub-unit unit B is provided with a control circuit 2 and a power supply module 21, a human body detection module 22, a receiving module 23, a luminaire 25 and a power supply module 21 connected to the control circuit 2, wherein in the embodiment, the power supply module 21 is powered by solar energy. The board 211 and the wind power generator set 212 are formed. The human body detecting module 22 is an infrared, heat sensing or ultrasonic detecting module, and the receiving module 23 is connected by high frequency radio waves or Wi-Fi. The lamp 25 is low power consumption and high illumination. Degree of LED lights.

By combining the above components, the host unit A is placed at the door of the building, and each sub-machine is Unit B is located in a different room of the building. Before the user enters the house, the luminaire 15 is turned on by the detection of the host unit A, and after the control circuit 1 interprets the signal, the signal is transmitted to each sub-unit B via the transmitting module 14, and the receiving module 23 of each sub-unit B is received. After the signal, the slave unit B is activated by the control circuit 2, and the different lamps 25 are turned on before the user enters different rooms, thereby forming intelligent lighting, and achieving energy conservation and environmental protection.

In this embodiment, when the host unit A and the slave unit B are activated, the control circuits 1 and 2 disposed in the host unit A and the slave unit B are based on the human body motion signals detected by the human body detecting modules 12 and 22. Adjusting the illumination power of the lamps 15 and 25 to save energy, for example, when the human body is closer to the host unit A or the slave unit B, the detection by the body detection modules 12 and 22, and the control circuit 1. In the interpretation of 2, the control lamps 15, 25 are adjusted to a higher power, so that the illumination is improved step by step. When the human body is away from the host unit A or the slave unit B, the control lamps 15 and 25 are adjusted to a lower power to achieve energy saving.

Referring to FIG. 4, when the intelligent lighting device of the present invention is installed, the host unit A is installed at the doorway position of the building 3, and each sub-unit unit B is disposed in the living room 31, the kitchen 32, and the bedroom of the building 3. 33, garage 34 and other different rooms. Normally, the light source detecting module 13 of the host unit A detects the light in the surrounding environment for the control circuit 1 to judge whether it is the basis for starting or not. When the night or the light is insufficient, the user enters the door of the building 3 from the outside. When the human body detecting module 12 of the host unit A detects that the human body signal is interpreted by the control circuit 1, the light emitting device 15 is turned on, and at the same time, the signal is transmitted to each of the slave unit B via the transmitting module 14, and the receiving module of each of the slave units B is received. After receiving the signal, the slave unit B is activated by the control circuit 2, so that the slave units B are in a standby state.

When the user enters a different room such as the living room 31, the kitchen 32, the bedroom 33, the garage 34 of the building 3, the human body detecting module 22 of the slave unit B disposed in the room detects the human body signal, and the control circuit 2 After the interpretation, the different lamps 25 are respectively turned on, and when the human body is closer to the slave unit B, the human body is passed through the human body. The detection of the detection module 22, and the interpretation of the control circuit 2, the control lamp 25 is adjusted to a higher power, so that the illumination is increased step by step, and when the body is far away from the unit B, the control lamp 25 is adjusted to a lower power. Therefore, the lamps 25 are not in a high-power lighting state for a long time, thereby achieving the purpose of saving energy.

Referring to FIG. 5, in conjunction with FIG. 2, the working flow chart of the intelligent lighting device of the present invention comprises the following steps:

1. The host unit A detects the user's human body and the surrounding light source signals, and inputs them to the control circuit 1 for interpretation.

2. Turn on the luminaire 15 to form illumination when detecting the human body signal.

3. The signal is transmitted by the transmitting module 14 to each of the sub-units B, and the luminaire 15 is turned off after the user enters, or the luminaire 15 is adjusted to a low-power illumination state.

4. After receiving the signal of the host unit A, each slave unit B is interpreted by the control circuit 2 and turns on the slave unit B in a standby state.

5. When the user enters different rooms, the user's body signal is detected by the different slave unit B, and the control circuit 2 interprets and turns on the different lamps 25 for illumination.

6. Each sub-unit B adjusts the power of the lamp with the movement of the human body. When the user leaves the room, the lamp 25 is turned off, or the lamp 25 is adjusted to a low-power illumination state.

Thereby, the entire intelligent lighting system can turn on and off the required lighting fixtures 15 and 25 under the condition of automatically detecting the human body and the light, and can adjust the lighting power according to the movement of the human body, thereby achieving the purpose of saving energy.

The foregoing embodiments are merely illustrative of the preferred embodiments of the present invention, and are not intended to limit the scope of the invention.

Claims (6)

1. The intelligent lighting device is characterized in that it comprises at least one main unit and a plurality of sub-units, wherein the main unit and the sub-unit are respectively provided with a control circuit and a human body detecting module, a lamp and a power supply module connected to the control circuit; The unit is further provided with a light source detecting module and a transmitting module connected to the control circuit. Correspondingly, the slave unit is provided with a receiving module connected to the signal of the transmitting module.
2. The intelligent lighting device according to claim 1, wherein the power supply module comprises a solar panel and a wind power generator.
3. The intelligent lighting device according to claim 1, characterized in that the transmitting module and the receiving module of the host unit and the slave unit are connected by high frequency radio waves or Wi-Fi.
4. The intelligent lighting device according to claim 1, wherein the human body detecting module disposed on the host unit and the slave unit is an infrared, thermal sensing or ultrasonic detecting module.
5. The intelligent lighting device according to claim 1, wherein the control circuit is configured to adjust the illumination power of the light fixture according to the human body motion signal detected by the human body detecting module.
6. The intelligent lighting device according to claim 1, wherein the lamp is a low power, high illumination LED lamp.

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