CN117858296A - Environment-friendly luminous control device and intelligent lamp - Google Patents

Abstract

The invention discloses an environment-friendly luminous control device and an intelligent lamp, which are applicable to indoor and outdoor, and comprise a photosensitive sensor (4), a radar sensor (5), a circuit control area (6), an LED lamp panel (8), a lens group (9), an AI system (102), an ultrasonic output device (11), a scraping piece (2), a base (3), a heat radiating device (7), a side fixing part (12), a mechanical arm (16) and a lampshade (18).

Description

Environment-friendly luminous control device and intelligent lamp

Technical Field

The invention relates to illumination, in particular to an environment-friendly luminous control device and the field of intelligent lamps.

Background

With the acceleration of urban construction, outdoor lighting plays an important role in urban construction. At night, proper brightness can provide a sense of security and comfort, but too bright lighting can interfere with the migration and proliferation of wild animals and disrupt the starry sky view. Even more serious, unreasonable outdoor lighting creates many problems, such as energy waste, light pollution, and biodiversity destruction. Therefore, we should pay more attention to the use of the eco-friendly illumination lamp, reasonably control the brightness and time of the outdoor illumination, and avoid excessive illumination. Thereby reducing the negative impact on living beings.

CN204733416U discloses an intelligent induction lamp for landscape architecture, comprising a plurality of detection devices, a controller and lamps, wherein the detection devices are arranged on the road surface or two sides of the road surface, are used for collecting traffic information on the road and converting the traffic information into a first digital signal; the controller is in wireless communication connection with the plurality of detection devices and is used for receiving the first digital signals and generating a control signal according to the first digital signals; the lamp is in wireless communication connection with the controller and is used for receiving the control signal and adjusting the light brightness according to the control signal. The patent achieves the purposes of energy conservation and environmental protection by realizing intelligent regulation. However, when the traffic is low, dim light is unfavorable for illumination, and when people enter the illumination range of the lamp from a bright road, discomfort is easily caused. Moreover, even when the lamp is turned on, the light intensity of the environment cannot be controlled.

CN105276422a discloses a microwave radar intelligent induction lamp, comprising: the lighting assembly comprises a shell and a heat dissipation mechanism encapsulated at the shell, the working states of the lighting assembly and the rotatable mounting seat can be adjusted in real time according to the visibility of the environment, and the lighting assembly is not suitable for outdoor places due to the fact that the influence of light on living things is not considered.

Disclosure of Invention

The invention provides an environment-friendly light-emitting control device and an intelligent lamp for solving the problems in the background technology.

The invention discloses an environment-friendly luminous control device which comprises a photosensitive sensor (4), a radar sensor (5), a line control area (6), an LED lamp panel (8), a lens group (9), an AI system (102) and an ultrasonic output device (11).

Further, the AI system (102) is electrically connected with the photosensitive sensor (4), the radar sensor (5), the line control area (6) and the LED lamp panel (8).

Further, the lens group (9) is arranged above the LED lamp panel (8), the photosensitive sensor (4) is used for detecting surrounding light, the radar sensor (5) is used for detecting people or insects, and the AI system (102) is used for expelling insects, receiving signals of the photosensitive sensor (4) and the radar sensor (5) and controlling the ultrasonic output assembly (11) and the LED lamp panel (8).

Further, the photosensor (4) can receive the light intensity signal and convert the light intensity signal into an electrical signal which can be recognized by the AI system (102).

Further, the radar sensor (5) is a heat-sensitive sensor or a laser sensor.

Further, a plurality of LED arrays are arranged in the LED board (8), and lens arrays (901) which are in one-to-one correspondence with the plurality of LED arrays (801) on the LED board (8) are arranged in the lens group (9).

Furthermore, the lens array (901) is doped with quantum dot materials and is used for being excited by light rays emitted by the LED board (8).

The AI system (102) includes the following control steps:

s1: the AI system (102) acquires and analyzes an electric signal corresponding to the illumination intensity returned by the photosensitive sensor (4);

s2: the AI system (102) judges whether the detected range is a pedestrian or an insect by judging an electric signal returned by the radar sensor;

s3: when the radar sensor (5) detects a pedestrian within a set distance of 2-10 meters, judging whether the pedestrian is close to or far from the radar sensor (5) according to whether the pedestrian is far from the radar sensor (5) or close to the radar sensor (5);

s4: the AI system (102) is close to the radar sensor (5) through the pedestrian judged, and then the LED board (8) is adjusted to preset brightness, when the pedestrian is far away from the range set by the radar sensor (5), the AI system (102) controls the area on the LED board (8) where the LED array (801) is lighted, and then the lens array (901) of the corresponding lens group (9) of the LED array is excited, and then the emitted light is controlled, and the intensity of the emitted light is controlled within 1 lux.

S5: when the radar sensor (5) detects insects within a set distance of 2-10 meters and no pedestrians are detected, the ultrasonic output assembly (11) is started to repel the insects.

The invention also provides an environment-friendly intelligent lamp, which comprises an environment-friendly luminous control device, a scraping piece (2), a base (3), a heat radiating device (7), a fixing part (12), a mechanical arm (16) and a lamp shade (18).

Furthermore, the environment-friendly luminous control device, the heat dissipation device (7), the top cover (10), the mechanical arm (16), the side fixing part (12) and the lampshade (18) are arranged beside the base (3).

Furthermore, the side fixing part (12) is a screw hole or a magnetic attraction device and is used for installing the lamp in a plane such as a wall, a ceiling and the like, so that more ground space is saved, and the space utilization rate is increased. .

Furthermore, the heat dissipation device can cool the lamp through air heat convection, heat conduction and heat radiation, maintain the temperature inside the lamp, ensure the normal use and the efficacy life of the lamp, and can select a fan and refrigerate ceramic through the power of the lamp.

The foldable cleaning scraping piece is arranged at the lower part of the lampshade, after the lampshade is used for a period of time, the scraping piece can automatically clean the outside of the lampshade at regular time, manual work is reduced on the premise that the light intensity is not influenced by stains on the lampshade, and maintenance cost is reduced.

The invention has the following beneficial effects:

1. adjustable lighting effect: the wavelength and the direction of light can be adjusted, and an adjustable lighting effect is realized; by adjusting the color temperature and brightness, the LED lamp can provide appropriate lighting levels and color effects according to different environmental requirements. For example, soft warm light or bright cold light may be provided in different scenes. Meanwhile, the design of the lens or the quantum dot excitation plate can flexibly adapt to different lighting requirements and design requirements. The light distribution and projection angles can be customized according to specific scenes and applications, and accurate illumination effects can be provided for different areas.

2. Reducing light pollution: the lens or the quantum dot excitation plate can more intensively project light to a target area by adjusting the propagation mode of the light, thereby improving the illumination efficiency. This means that the LED lamp can use less energy to achieve the same lighting effect, thereby reducing light pollution. The LED lamp can more accurately control the light propagation direction by using the lens or the quantum dot excitation plate, and projects the light to the area needing to be illuminated, so that the light scattering in the surrounding environment and the sky is reduced, and the interference to the surrounding environment and wild animals is reduced.

3. Intelligent control and adaptivity: the lamp can be combined with an intelligent control system to realize automatic dimming and self-adaptive illumination. Through the sensor and the algorithm, the LED lamp can automatically adjust the brightness and the illumination mode according to the change of the ambient light and the requirement. For example, the brightness may be increased when the light is darker and the brightness may be automatically turned on when a pedestrian passes.

Drawings

FIG. 1 is a schematic diagram of an environment-friendly lighting control device according to an embodiment of the invention;

FIG. 2 is a control flow chart of an environment-friendly lighting control device according to an embodiment of the invention;

FIG. 3 is a schematic diagram of an LED board and a lens assembly of an environment-friendly lighting control device according to an embodiment of the invention;

FIG. 4 is an overall structure diagram of an environment-friendly intelligent lamp in an embodiment of the invention;

FIG. 5 is a cut-away view of a body of an environment-friendly intelligent luminaire according to an embodiment of the present invention;

FIG. 6 is a cut-away view of a body of an environment-friendly intelligent luminaire according to an embodiment of the present invention;

fig. 7 is an overall structure diagram of an environment-friendly intelligent lamp in an embodiment of the invention.

Description of the reference numerals

The LED lamp comprises an environment-friendly luminous intelligent lamp, a 2 scraping piece, a 3 base, a 4 photosensitive sensor, a 5 radar sensor, a 6 line control area, a 7 heat radiating device, an 8LED plate, an 801LED array, a 9 lens group, a 901 lens array, a 10 top cover, an 11 ultrasonic output device, a 12 side fixing part, a 16 mechanical arm, an 18 lampshade and a 102AI system;

Detailed Description

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Example 1

Referring to fig. 1, 2 and 3, an environment-friendly lighting control device comprises a photosensitive sensor (4), a radar sensor (5), a circuit control area (6), an LED lamp panel (8), a lens group (9), an AI system (102) and an ultrasonic output device (11).

Further, the AI system (102) is electrically connected with the photosensitive sensor (4), the radar sensor (5), the line control area (6) and the LED lamp panel (8).

Further, the lens group (9) is arranged above the LED lamp panel (8), the photosensitive sensor (4) is used for detecting surrounding light, the radar sensor (5) is used for detecting people or insects, and the AI system (102) is used for expelling insects, receiving signals of the photosensitive sensor (4) and the radar sensor (5) and controlling the ultrasonic output assembly (11) and the LED lamp panel (8).

Further, the photosensor (4) can receive the light intensity signal and convert the light intensity signal into an electrical signal which can be recognized by the AI system (102).

Further, the radar sensor (5) is a heat-sensitive sensor or a laser sensor.

Further, a plurality of LED arrays (801) are arranged in the LED board (8), and lens arrays (901) which are in one-to-one correspondence with the LED arrays on the LED board (8) are arranged in the lens group (9).

Furthermore, the lens array (901) is doped with quantum dot materials and is used for being excited by light rays emitted by the LED board (8).

The AI system (102) includes the following control steps:

s1: the AI system (102) acquires and analyzes an electric signal corresponding to the illumination intensity returned by the photosensitive sensor (4);

s2: the AI system (102) judges whether the detected range is a pedestrian or an insect by judging an electric signal returned by the radar sensor;

s3: when the radar sensor (5) detects a pedestrian within a set distance of 2-10 meters, judging whether the pedestrian is close to or far from the radar sensor (5) according to whether the pedestrian is far from the radar sensor (5) or close to the radar sensor (5);

s4: the AI system (102) is close to the radar sensor (5) through the pedestrian judged, and then the LED board (8) is adjusted to preset brightness, when the pedestrian is far away from the range set by the radar sensor (5), the AI system (102) controls the area of the LED board (8) where the LED array is lighted, and then the lens array (901) of the corresponding lens group (9) of the LED array is excited, and then the emitted light is controlled, and the intensity of the emitted light is controlled within 1 lux.

S5: when the radar sensor (5) detects insects within a set distance of 2-10 meters and no pedestrians are detected, the ultrasonic output assembly (11) is started to repel the insects.

Example two

Referring to fig. 4, 5 and 6, an environment-friendly intelligent lamp comprises an environment-friendly lighting control device, a scraper (2), a base (3), a heat dissipation device (7), a side fixing part (12) and a lamp shade (18). The environment-friendly luminous control device is characterized in that the environment-friendly luminous control device, the heat dissipation device (7), the top cover (10), the side fixing part (12) and the lampshade (18) are arranged above the base (3), and the scraping piece (2) is arranged below the base (3).

The side fixing part (12) is a screw hole or a magnetic attraction device and is used for installing the lamp in a plane such as a wall, a ceiling and the like.

When the light-sensitive sensor (4) of the lamp is used outdoors, the light signal in the surrounding environment is received (according to the weather, the climate and the light enhancement or light attenuation in the environment), the light signal is converted into an electric signal and is transmitted to the AI system (102) through the circuit control area (6), after the AI system (102) analyzes the light signal, the LED board (8) realizes a switch lamp with a certain interval rule (for example, when the light is weaker but not very dark in the lunar hours, the LED board (8) can be lighted at intervals of one LED array (801), so that the sufficient illumination of plants is ensured, the light pollution and the light waste are not generated, the adjustment of the lamp breadth can be realized, and meanwhile, the service life of the lamp is prolonged.

When the lamp works, the radar sensor (4) on the base (3) also works simultaneously to detect pedestrians or insects within the range of 2-10 meters of the lamp.

When a pedestrian is detected, the radar sensor (5) transmits corresponding electric signals to the AI system (102) after recognizing a human body, and the AI system (102) transmits control commands to the LED board (8) after analyzing the electric signals, so that the LED board (8) fully lights the LED array (801) in the direction of detecting the pedestrian, and the effect of illuminating passers-by is achieved.

When a human body moves, the LED board (8) is controlled to start a light tracking mode according to a signal AI (102) detected by a radar, namely, the number of LED arrays (801) lightened by the LED board (8) in the direction of a person is increased, so that the light at the place is lightened, and the effect of illuminating passers-by is achieved. When the radar sensor (5) detects that a person walks out of the set range, the lamp is restored to the initial set value again, and the waste of energy and light pollution are reduced.

When insects are detected, the radar system transmits another electric signal to the AI transmission system to the ultrasonic output device (11), so that the ultrasonic output device (11) emits corresponding sound waves to expel the insects, and the damage of the insects to plants is reduced.

Example III

Referring to fig. 4, 5 and 6, an environment-friendly intelligent lamp comprises an environment-friendly lighting control device, a scraper (2), a base (3), a heat dissipating device (7), a side fixing part (12), a mechanical arm (16) and a lamp shade (18).

The scraping piece (2) is connected with the valve base (3) through a mechanical arm (16).

The lamp is mainly used indoors, and can always emit harmless ultrasonic waves to human bodies and expel insects harmful to human bodies, such as mosquitoes, cockroaches, mice and the like.

When the radar sensor (5) detects movement of a human body, a daytime illumination mode in the AI system (102) can be selected, at the moment, the LED arrays (801) on the LED board (8) are all lighted, the emitted light is uniformly irradiated out through the lens group (9) to achieve the effect of daily illumination, and meanwhile, the LED arrays (801) on the LED board (8) can be set to be cold-color light or warm-color light sources according to personal selection.

When the radar sensor (5) detects that the human body is static, a night illumination mode in the AI system can be selected, when a daily illumination lamp is turned off, the photosensitive sensor (6) receives the external light intensity to weaken, and can transmit a light signal into an electric signal to the AI system (102) for processing, and convert the processed result into a control command to be transmitted to the LED board (8), so that a few LED arrays (801) are lightened, light can stably irradiate on the lamp shade (18) after passing through the lens group (9), and the lamp shade (18) is lighted to enable the lamp to emit soft light, thereby being beneficial to human sleep.

When the radar sensor (5) detects that a person is stationary for a period of time and detects movement of the person again, the AI system (102) transmits a control command to the LED board (8) after analyzing an electric signal sent by the radar sensor (5) so that the number of the lighted LED arrays (801) on the LED board (8) is increased to achieve the effect of illuminating the person.

Meanwhile, in daily use, the AI system (102) can set the frequency of using the scraping piece (2) through judging factors such as environment, and then the scraping piece (2) is used for cleaning the lampshade (18) regularly to remove dirt, so that the light intensity is ensured not to be influenced by the dirt on the lampshade (18).

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. An environment-friendly lighting control device, characterized in that: including photosensitive sensor (4), radar sensor (5), circuit control area (6), LED lamp plate (8), lens group (9), AI system (102), ultrasonic output device (11), AI system (102) with photosensitive sensor (4), radar sensor (5), circuit control area (6), LED lamp plate (8) with electric connection, lens group (9) set up the top of LED lamp plate (8), photosensitive sensor (4) be used for detecting illumination around, radar sensor (5) be used for detecting people or insect, AI system (102) be used for expelling insect and receiving the signal of photosensitive sensor (4) and radar sensor (5) and control ultrasonic output subassembly (11), LED lamp plate (8).

2. The environment-friendly lighting control device as claimed in claim 1, wherein said photosensor (4) is capable of receiving an optical signal and converting it into an electrical signal and transmitting it to said AI system (102).

3. The environment-friendly lighting control device as claimed in claim 1, wherein said radar sensor (5) is one of a thermo-sensitive sensor and a laser sensor.

4. The environment-friendly lighting control device as claimed in claim 1, wherein a plurality of LED arrays (801) are arranged in the LED board (8).

5. An environment-friendly lighting control device as claimed in claim 1, characterized in that a plurality of lens arrays (901) are arranged in the lens group (9).

6. An environment-friendly luminescence control device as claimed in claim 5, wherein the lens array (901) is doped with quantum dot material.

7. The environment-friendly lighting control device as claimed in claim 1, wherein said AI system (102) comprises the control steps of:

s1: the AI system (102) acquires and analyzes an electric signal corresponding to the illumination intensity returned by the photosensitive sensor (4);

s2: the AI system (102) judges whether the detected range is a pedestrian or an insect by judging an electric signal returned by the radar sensor;

s3: when the radar sensor (5) detects a pedestrian within a set distance of 2-10 meters, judging whether the pedestrian is close to or far from the radar sensor (5) according to whether the pedestrian is far from the radar sensor (5) or close to the radar sensor (5);

s4: the AI system (102) is close to the radar sensor (5) through the pedestrian judged, and then the LED board (8) is adjusted to preset brightness, when the pedestrian is far away from the range set by the radar sensor (5), the AI system (102) controls the area on the LED board (8) where the LED array (801) is lighted, and then the lens array (901) of the corresponding lens group (9) of the LED array is excited, and then the emitted light is controlled, and the intensity of the emitted light is controlled within 1 lux.

S5: when the radar sensor (5) detects insects within a set distance of 2-10 meters and no pedestrians are detected, the ultrasonic output assembly (11) is started to repel the insects.

8. An environment-friendly intelligent lamp (1) is characterized by comprising the environment-friendly luminous control device, a scraping piece (2), a base (3), a heat radiating device (7), a side fixing part (12), a mechanical arm (16) and a lampshade (18) according to the claims 1-5.

9. The intelligent environment-friendly lamp (1) according to claim 8, wherein the environment-friendly lighting control device, the heat dissipation device (7), the top cover (10), the mechanical arm (16), the side fixing component (12) and the lampshade (18) are arranged above the base (3), and the scraper (2) is coupled to the base (3).

10. The intelligent environment-friendly lamp (1) as claimed in claim 8, wherein the side fixing part (12) is a screw hole or a magnetic attraction device.