CN220962714U - Light-emitting component and flag surface lighting system - Google Patents

Abstract

The application relates to the field of intelligent illumination technology, in particular to a light-emitting component and a flag surface illumination system, wherein the light-emitting component comprises a plurality of illumination lamps used for illuminating a flag, and the illumination lamps are arranged in a surrounding manner by taking the central axis of a flagpole as the center; the lighting lamp is fixedly arranged at the middle section of the side wall of the flagpole in the height direction, a plurality of lamp beads are arranged on the lighting lamp, and the tops of the flagpoles in the light projection direction of the lamp beads are obliquely arranged. The application has the effect of reducing the possibility of glare phenomenon.

Description

Light-emitting component and flag surface lighting system

Technical Field

The application relates to the technical field of intelligent illumination, in particular to a light-emitting component and a flag lighting system.

Background

In order to create a holiday atmosphere or to match with an urban intelligent landscape design, a lighting lamp is generally used for lighting a flag which is hung higher at night. The prior art flag lighting design generally uses a buried projection lamp or a vertical projection lamp, and adopts a large-angle projection lighting mode to illuminate the flag, so that the flag can be irradiated by light in a fluttering direction.

The direction of the flag waving is determined by external factors such as wind direction, and the direction of the flag waving every day is random; when the above-mentioned floodlight illumination is used, a plurality of lamps are usually required to be arranged around the base of the flagpole, and the plurality of lamps are simultaneously turned on to illuminate the flag from bottom to top; because the lamp is arranged on the ground, when an observer watches the flag in a short distance, part of light rays emitted by the lamp are easy to be shot into eyes of the observer, so that a glare phenomenon is caused, and eyes of the observer are easy to feel uncomfortable.

Disclosure of utility model

In order to reduce the possibility of glare, the application provides a light emitting component and a flag lighting system.

In a first aspect, the present application provides a light emitting assembly according to the following technical solution:

The light-emitting assembly comprises a plurality of lighting lamps used for lighting the flag, wherein the lighting lamps are arranged around the central axis of the flag pole; the lighting lamp is fixedly arranged at the middle section of the side wall of the flagpole in the height direction, a plurality of lamp beads are arranged on the lighting lamp, and the tops of the flagpoles in the light projection direction of the lamp beads are obliquely arranged.

By adopting the technical scheme, the lamp emitted by the lighting lamp can irradiate the flag, so that the lighting brightness of the flag surface is ensured; the plurality of lighting lamps are arranged at the middle section of the flagpole, so that the lighting lamps can perform close-range lighting on the flag, and the possibility of light escaping towards the ground is reduced; the light projecting direction of the lamp beads is directed obliquely upwards, so that the possibility that light emitted by the lamp beads is directly irradiated to eyes of a viewer can be reduced, and the possibility of glare phenomenon is reduced.

Optionally, the plurality of lighting fixtures are detachably connected; a plurality of connecting columns are arranged on the side wall of one side of the lighting lamp in a protruding mode, a plurality of adapting grooves matched with the connecting columns are concavely formed in the side wall of the other side of the lighting lamp, and the connecting columns and the adapting grooves are arranged one by one; the switching groove can be used for buckling the connecting column adjacent to the lighting lamp.

By adopting the technical scheme, when two adjacent illumination lamps and lanterns splice, the spliced pole can detain in the switching groove of adjacent illumination lamps and lanterns for a plurality of illumination lamps and lanterns become a whole, thereby improve the stability between a plurality of illumination lamps and lanterns.

Optionally, a waterproof layer is arranged on the outer wall of the lighting lamp in a covering manner.

Through adopting above-mentioned technical scheme, the waterproof layer can protect illumination lamps and lanterns and lamp pearl, reduces illumination lamps and lanterns and takes place to damage because of exposing outdoor for a long time, leads to the inside possibility of rainwater infiltration illumination lamps and lanterns to can reduce the possibility that leads to illumination lamps and lanterns to take place to damage because of the mainboard that the rainwater immersed in the illumination lamps and lanterns.

In a second aspect, the present application provides a flag lighting system, which adopts the following technical scheme:

the flag lighting system comprises a control host and a monitoring component, wherein the signal output end of the monitoring component is in communication connection with the control host; the system also comprises a light-emitting component, wherein the monitoring component is used for acquiring and sending the direction information of the flag waving;

the control host is used for receiving the direction information of the flag waving;

The plurality of lighting lamps are all in communication connection with the control host;

the control host is used for respectively controlling the on-off of the plurality of lighting lamps.

By adopting the technical scheme, the control host can respectively control the on-off of a plurality of lighting fixtures, the monitoring component can acquire the direction information of the flag waving and send the direction information to the control host, and the control host can control one or a plurality of lighting fixtures at proper positions to be started according to the received direction information of the flag waving; illuminating the flag so that light near the flag remains bright; the plurality of lighting lamps do not need to be continuously turned on, so that the illumination brightness of the flag surface is ensured, and the energy consumption of illumination electricity is reduced.

Optionally, the monitoring component comprises a tracking radar, a signal output end of the tracking radar is in communication connection with an input end of the control host, and the tracking radar is used for tracking the position of the flag.

By adopting the technical scheme, the tracking radar can track the flying flag, and generate the flying direction information of the flag based on the position and the angle of the flag, so as to acquire the flying direction information of the flag.

Optionally, the monitoring assembly further comprises a plurality of photosensitive sensors, and the plurality of photosensitive sensors are all in communication connection with the control host; the photosensitive sensors are arranged on the end wall of the flagpole.

By adopting the technical scheme, the photosensitive sensor can detect the light intensity around the flag, and when the light intensity around the flag is lower than the preset threshold range, a warning instruction of the illumination intensity is sent to the control host, so that the control host turns on the illumination lamp, and the illumination control system of the flag can conveniently control the on-off of the illumination lamp.

Optionally, the photosensitive sensor is connected with a switch assembly in a communication manner, the switch assembly is connected with the control host, the switch assembly is connected with the lighting lamp in a communication manner, and the switch assembly is used for controlling the lighting lamp to be turned on or turned off; the light intensity photosensitive ranges of the photosensitive sensors are different, the switch assembly comprises a plurality of gears, and the photosensitive sensors with different light intensity photosensitive ranges are correspondingly arranged with the gears.

By adopting the technical scheme, a plurality of photosensitive sensors with different light sensitivity ranges for illumination intensity are arranged, and the control computer can control the gear of the switch assembly to be opened according to the condition of the photosensitive sensors on the surrounding light of the flag; the lighting system can adjust the brightness of the lighting lamp according to the real-time ambient brightness, so that the proper brightness ratio of the flag brightness to the ambient environment is maintained, and the flag can maintain the optimal lighting parameter level at any time.

Optionally, the control host is in communication connection with an input module, and the input module is used for receiving external information.

By adopting the technical scheme, the input module can be connected with an external host, so that staff can set relevant parameters of the flag lighting system through the external host, and the flexibility of the system is improved.

In summary, the application has the following beneficial technical effects:

1. The light emitted by the lighting lamp can irradiate the flag, so that the lighting brightness of the flag surface is ensured; the plurality of lighting lamps are arranged at the middle section of the flagpole, so that the lighting lamps can perform close-range lighting on the flag, and the possibility of light escaping towards the ground is reduced; the light projecting direction of the lamp beads is directed obliquely upwards, so that the possibility that light emitted by the lamp beads is directly irradiated to eyes of a viewer can be reduced, and the possibility of glare phenomenon is reduced.

2. The monitoring component can acquire the direction information of the flying of the flag and send the information to the control host, and the control host can control one or more lighting lamps to be turned on according to the received direction information of the flying of the flag, and illuminate the flying position of the flag, so that light rays nearby the flag are kept bright; the plurality of lighting lamps do not need to be completely started, so that the lighting brightness of the flag surface is ensured, and the energy consumption for increasing the lighting power consumption is reduced.

Drawings

Fig. 1 is a schematic diagram of a light emitting device according to the present embodiment;

FIG. 2 is an exploded view of the lighting device of the present embodiment;

Fig. 3 is a block diagram of a banner lighting system in accordance with yet another embodiment of the present application.

Reference numerals: 1. a flagpole; 2. a lighting fixture; 21. a connecting column; 22. a transfer groove; 23. a lamp bead; 6. a waterproof layer; 3. a control host; 4. a monitoring component; 41. tracking a radar; 42. a photosensitive sensor; 43. a switch assembly; 5. and an input module.

Detailed Description

The application is described in further detail below with reference to fig. 1-3.

The embodiment of the application discloses a light-emitting component.

Referring to fig. 1, a lighting assembly includes a plurality of lighting fixtures 2 capable of lighting a flag, wherein the plurality of lighting fixtures 2 are arranged around an axis of a flagpole 1 in a vertical direction as a center, sidewalls of adjacent lighting fixtures 2 are abutted, and after the plurality of lighting fixtures 2 are spliced, a cross-section profile along a horizontal direction is in a ring shape;

Referring to fig. 1, in this embodiment, the plurality of lighting fixtures 2 are all fixedly disposed at the middle section of the side wall of the flagpole 1 in the height direction, and the lighting direction of the lighting fixtures 2 is obliquely above (i.e. far away from the human eyes), the lighting fixtures 2 disposed at the middle section of the flagpole 1 can perform close-range lighting on the flag, so that the possibility of light scattering and light pollution phenomena occurring due to a wider lighting range of the lighting fixtures 2 is reduced, the lighting fixtures 2 illuminate in a direction far away from the human eyes, the possibility that light emitted by the lighting fixtures 2 irradiates into the human eyes can be reduced, and the possibility that the eyes of an observer feel uncomfortable due to the glare phenomena can be reduced.

Referring to fig. 2, a plurality of lighting fixtures 2 are detachably connected, a plurality of connecting columns 21 are convexly arranged on the side wall of one side of the lighting fixture 2, a plurality of adapting grooves 22 for adapting the connecting columns 21 are concavely arranged on the side wall of the other side, the plurality of connecting columns 21 are uniformly arranged along the height direction of the side wall of the lighting fixture 2, and the plurality of connecting columns 21 and the plurality of adapting grooves 22 are arranged one to one; when two adjacent lighting fixtures 2 are spliced, the connecting posts 21 are buckled into the switching grooves 22 of the adjacent lighting fixtures 2, so that the adjacent lighting fixtures 2 are integrated, and the stability among the plurality of lighting fixtures 2 is improved.

Referring to fig. 2, a plurality of lamp beads 23 are arranged on the lighting lamp 2, and the lamp beads 23 are uniformly distributed on the side wall of the lighting lamp 2 far away from the flagpole 1; the light projecting directions of the lamp beads 23 are all oriented obliquely upwards, so that the lamp beads 23 can radiate light on the flag after being started, and the illumination brightness of the flag surface is ensured; the light is projected to the obliquely upper area, so that the possibility that the light emitted by the lamp beads 23 is directly projected to eyes of a viewer is reduced, and the possibility of glare is reduced.

Referring to fig. 2, the outer wall of the lighting fixture 2 is covered with a waterproof layer 6, the lighting fixture 2 is installed outdoors for a long time, the waterproof layer 6 can protect the lighting fixture 2 and the small lamp beads 23, and the possibility that the lamp beads 23 or the lighting fixture 2 are damaged due to wind and rain is reduced; the shell of the embodiment adopts PC/ABS plastic alloy formed by combining polycarbonate and polyacrylonitrile, and the PC/ABS plastic alloy has good waterproof property and strong mechanical capability, so that the service life of the lighting lamp 2 can be prolonged.

The implementation principle of the light-emitting component of the embodiment of the application is as follows: the plurality of lighting lamps 2 are fixedly arranged at the middle section of the side wall of the flagpole 1 in the height direction and are used for lighting the flag in a short distance; the illumination directions of the plurality of illumination lamps 2 are oriented obliquely upwards, so that the possibility that light emitted by the illumination lamps 2 is incident into human eyes can be reduced, and the possibility that scattered light and light pollution phenomena occur due to the wider illumination range of the illumination lamps 2 is reduced

Based on the same design concept, referring to fig. 3, the application also discloses a flag lighting system, which comprises a control host 3, a monitoring component 4, an input module 5 and a lighting component, wherein in the embodiment, a plurality of lighting fixtures 2 in the monitoring component 4, the input module 5 and the lighting component are all in communication connection with the control host 3;

The control host 3 can respectively control the on-off of the plurality of lighting fixtures 2, the monitoring component 4 can acquire the direction information of the flag waving and send the information to the control host 3, and the control host 3 can control the on-off of the lighting fixtures 2 according to the received direction information of the flag waving; the input module 5 is connected with an external host, and a worker can configure relevant parameters of the monitoring assembly 4 by connecting the external host with the input module 5, so that the lighting control system can adapt to flags with various lighting requirements; the control host 3 can control one or a plurality of lighting lamps 2 facing the flying position of the flag to be started according to the flying direction of the flag, and the flag is illuminated, so that the light near the flag is kept bright; the plurality of lighting fixtures 2 do not need to be in all continuous on states, so that the energy consumption for increasing lighting power consumption is reduced while the lighting brightness of the flag surface is ensured.

Referring to fig. 3, the monitoring component 4 includes a tracking radar 41, the tracking radar 41 can track a flying flag, a signal output end of the tracking radar 41 and an input end of the control host 3, the tracking radar 41 can send the sensed azimuth information of the flag to the control host 3, and the control host 3 in this embodiment adopts an upper computer; in this embodiment, the horizontal angle of the flag may change during the flying process, and since the lighting fixtures 2 are circumferentially arranged in the direction of the flagpole 1, each lighting fixture 2 corresponds to the lighting range of the specific included angle area, so that one or several lighting fixtures 2 can always project light onto the flag after the flag is flying to a certain angle; when the tracking radar 41 monitors that the azimuth information of the flag is at the angle threshold value of the lighting lamp 2, the control host 3 sends an on command to the lighting lamp 2 corresponding to the area, and the lighting lamp 2 corresponding to the area is turned on to illuminate the flag.

Referring to fig. 3, the monitoring assembly 4 further includes a plurality of photosensitive sensors 42 and a switch assembly 43, wherein signal output ends of the photosensitive sensors 42 are all in communication connection with signal input ends of the control host 3, and signal output ends of the control host 3 are in communication connection with signal input ends of the switch assembly 43; the photosensitive sensors 42 have different light sensing ranges of illumination intensity, the switch assembly 43 comprises a plurality of gears, and the photosensitive sensors 42 with different light sensing ranges are arranged one by one with the gears of the switch assembly 43; when the switch assembly 43 is turned on in different gear positions, the brightness of the light emitted by the lighting lamp 2 is different.

Referring to fig. 1 and 3, the photosensor 42 is disposed on a side wall of the flagpole 1, in this embodiment, the photosensor 42 is disposed at an end of the side wall of the flagpole 1 far from the ground, the photosensor 42 can detect the light intensity around the flag, and when the photosensor 42 detects that the light intensity around the flag is within a preset threshold range, an on command is sent to the switch assembly 43; the switch component 43 is turned on according to the gear corresponding to the photosensitive sensor 42, so that the lighting system can adjust the light output brightness of the lighting fixture 2 according to the real-time ambient brightness, so that the proper brightness ratio of the flag brightness to the ambient environment is maintained, and the flag can maintain the optimal lighting parameter level at any time.

The implementation principle of the flag surface lighting system provided by the embodiment of the application is as follows: the tracking radar 41 can send the sensed azimuth information of the flag to the control host 3, and the control host 3 controls one or more lighting lamps 2 facing the flying position of the flag to be turned on according to the flying direction of the flag, so as to illuminate the flag, and the light near the flag is kept bright; the light intensity around the flag can be detected by the photosensitive sensor 42, and the switch component 43 is adjusted to be turned on according to the light brightness around the flag, so that the lighting system can adjust the light emitting brightness of the lighting lamp 2 according to the real-time environment brightness, and the flag lighting system can reduce the energy consumption for increasing the lighting power consumption while guaranteeing the lighting brightness of the flag surface.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. A light emitting assembly, characterized in that: the device comprises a plurality of lighting lamps (2) for lighting the flag, wherein the plurality of lighting lamps (2) are arranged around the central axis of the flagpole (1) as the center; the lighting lamp (2) is fixedly arranged at the middle section of the side wall of the flagpole (1) in the height direction, a plurality of lamp beads (23) are arranged on the lighting lamp (2), and the tops of the light projecting direction flagpoles (1) of the lamp beads (23) are obliquely arranged.

2. A lighting assembly as recited in claim 1, wherein: the illumination lamps (2) are detachably connected; a plurality of connecting columns (21) are arranged on the side wall of one side of the lighting lamp (2) in a protruding mode, a plurality of adapting grooves (22) which are matched with the connecting columns (21) are concavely formed in the side wall of the other side of the lighting lamp, and the connecting columns (21) and the adapting grooves (22) are arranged one to one; the switching groove (22) can be used for buckling the connecting column (21) adjacent to the lighting lamp (2).

3. A lighting assembly as recited in claim 1, wherein: the outer wall of the lighting lamp (2) is covered and provided with a waterproof layer (6).

4. A flag lighting system, characterized by: the intelligent monitoring system comprises a control host (3) and a monitoring assembly (4), wherein the signal output end of the monitoring assembly (4) is in communication connection with the control host (3); a lighting assembly according to any one of claims 1 to 3, wherein the monitoring assembly (4) is used for acquiring and transmitting the direction information of the flag waving;

The control host (3) is used for receiving the direction information of the flag waving;

The plurality of lighting fixtures (2) are all in communication connection with the control host (3);

The control host (3) is used for respectively controlling the on-off of the plurality of the lighting lamps (2).

5. A flag lighting system according to claim 4, wherein: the monitoring assembly (4) comprises a tracking radar (41), a signal output end of the tracking radar (41) is in communication connection with an input end of the control host (3), and the tracking radar (41) is used for tracking the position of a flag.

6. A flag lighting system according to claim 4, wherein: the monitoring assembly (4) further comprises a plurality of photosensitive sensors (42), and the photosensitive sensors (42) are all in communication connection with the control host (3); the photosensitive sensors (42) are arranged on the end wall of the flagpole (1).

7. A flag lighting system according to claim 6, wherein: the light sensor (42) is in communication connection with a switch assembly (43), the switch assembly (43) is connected with the control host (3), the switch assembly (43) is in communication connection with the lighting lamp (2), and the switch assembly (43) is used for controlling the opening and closing of the lighting lamp (2); the light intensity photosensitive ranges of the photosensitive sensors (42) are different, the switch assembly (43) comprises a plurality of gears, and the photosensitive sensors (42) with different light intensity photosensitive ranges are correspondingly arranged with the gears.

8. A flag lighting system according to claim 4, wherein: the control host (3) is in communication connection with an input module (5), and the input module (5) is used for receiving external information.