CN211625118U - Main and standby lamp integrated general navigation mark flashing lamp device based on Beidou communication - Google Patents

Abstract

The utility model discloses a master and slave lamp integrated general navigation mark flashing lamp device based on Beidou communication, which comprises a base, an exhaust valve, master and slave lamp cable holes and a master and slave lamp daylight valve, wherein the mounting base is connected with a master lamp light source radiating column, a master lamp lens, a master lamp aluminum substrate and a master lamp light emitting diode; the main and standby lamp light source adapter plate is connected with the standby lamp light source heat dissipation column, the standby lamp lens, the standby lamp aluminum substrate and the standby lamp light emitting diode; the upper bracket of the light source is connected with an upper cover of the device provided with the bird-proof needle lamp; the main and standby lamp controllers are connected with the power supply through the main and standby lamp cable holes and are connected with the main and standby lamps and the main and standby lamp day-light valves; the communication unit links to each other with activestandby lamp controller and power respectively, the utility model discloses simple structure is practical, and is convenient small and exquisite, saves lamp space, can be used to the unable coverage area of mobile communication signal and has the dual luminous guarantee of activestandby lamp.

Description

Main and standby lamp integrated general navigation mark flashing lamp device based on Beidou communication

The technical field is as follows:

the utility model relates to a general fairway buoy flashing light ware of activestandby lamp integration based on big dipper communication belongs to fairway buoy technical field.

Background art: the beacon light is one of the important guarantees of ship navigation safety, but the beacon light installation position is mostly far away, for example, signals such as GPRS, CDMA and the Internet of things in the wide sea area of south sea cannot be covered, so that the communication function of the light cannot be used. And for the beacon light device, the working reliability of the light device is crucial, the beacon light device used by the light pile and the buoy at present is a light device, and a standby light device is not provided, so that the reliability of visual navigation of the light device cannot be guaranteed when the light device emits light abnormally.

The utility model has the following contents:

the utility model aims to overcome the not enough of above-mentioned prior art and provide a general fairway buoy flashing light ware of activestandby lamp integration based on big dipper communication.

The utility model provides a technical scheme as follows: a master and standby lamp integrated general navigation mark flashing lamp device based on Beidou communication comprises a base, wherein screw holes are uniformly distributed in the base, an exhaust valve is installed at the lower end of the base, and the upper end of the base is connected with an installation base through a spiral buckle; a main lamp light source adapter plate and a standby lamp light source adapter plate are fixed above the main lamp lens, the inside and the outside of the upper end of the main lamp light source adapter plate are respectively connected with a standby lamp light source heat dissipation column and a standby lamp lens, the standby lamp light source heat dissipation column is connected with a standby lamp aluminum substrate, and a standby lamp light emitting diode is connected on the standby lamp aluminum substrate; the spare lamp lens is connected with a light source upper bracket, the light source upper bracket is used for fastening a spare lamp light source heat dissipation column and the spare lamp lens and is connected with a lamp device upper cover, and the lamp device upper cover is provided with an anti-bird needle; a main lamp controller and a standby lamp controller are arranged in the base and the mounting base, the main lamp controller and the standby lamp controller are connected through a warning lead, the main lamp controller is connected with a power supply through a main lamp cable hole, the standby lamp controller is connected with the power supply through a standby lamp cable hole, the main lamp controller is connected with a main lamp and a main lamp day light valve, and the standby lamp controller is connected with a standby lamp and a standby lamp day light valve; communication units are arranged in the light source upper support and the lamp device upper cover and are respectively connected with the main lamp controller, the standby lamp controller and the power supply.

Furthermore, the communication unit is integrated with a Beidou antenna, a Beidou module and a communication unit power supply system, the power supply is connected with the communication unit power supply system, the communication unit power supply system is connected with the Beidou module, and the Beidou module is connected with the Beidou antenna; the main lamp controller comprises a main lamp power supply conversion system, a main lamp MCU control unit and a main lamp detection circuit, wherein the main lamp comprises a main lamp LED drive circuit and a main lamp light-emitting system; the main lamp MCU control unit is respectively connected with the Beidou module, the main lamp detection circuit, the main lamp LED drive circuit and the main lamp daylight valve; the Beidou module is connected with the main lamp MCU control unit; the main lamp detection circuit is connected with the main lamp LED drive circuit; the main lamp light-emitting system comprises a main lamp lens, a main lamp light source heat dissipation column, and a main lamp aluminum substrate and a main lamp light-emitting diode which are arranged on the main lamp light source heat dissipation column, and the main lamp LED driving circuit is connected with the main lamp light-emitting system and the main lamp MCU control unit; the backup lamp controller comprises a backup lamp power conversion system, a backup lamp MCU control unit and a backup lamp detection circuit, the backup lamp comprises a backup lamp LED drive circuit and a backup lamp light emitting system, a power supply is connected with the backup lamp power conversion system and the backup lamp LED drive circuit, and the backup lamp power conversion system is connected with the backup lamp MCU control unit, the backup lamp detection circuit and a backup lamp day light valve; the spare lamp MCU control unit is respectively connected with the Beidou module, the spare lamp detection circuit, the spare lamp LED drive circuit and the spare lamp day light valve; the Beidou module is connected with the spare lamp MCU control unit; the spare lamp detection circuit is connected with the spare lamp LED drive circuit; the standby lamp light-emitting system comprises a standby lamp lens, a standby lamp light source heat-radiating column, a standby lamp aluminum substrate and a standby lamp light-emitting diode, wherein the standby lamp aluminum substrate and the standby lamp light-emitting diode are arranged on the standby lamp light source heat-radiating column, and the standby lamp LED driving circuit is connected with the standby lamp light-emitting system and the standby lamp MCU control unit.

Furthermore, the main lamp cable hole and the standby lamp cable hole are centrosymmetric, and the main lamp daylight light valve and the standby lamp daylight light valve are centrosymmetric.

Further, the upper end of the mounting base is provided with an inner annular groove and an outer annular groove, the inner annular groove of the mounting base is used for fixing the main lamp light source heat dissipation column, the outer annular groove of the mounting base is used for fixing the main lamp lens, the upper end of the main lamp light source adapter plate is provided with an inner annular groove and an outer annular groove, the inner annular groove of the main lamp light source adapter plate is used for fixing the spare lamp light source heat dissipation column, and the outer annular groove of the main lamp light source adapter plate is used for fixing the spare lamp lens.

The utility model has the advantages that: the utility model discloses a real time monitoring beacon light ware's operating condition, adopt big dipper communication, big dipper communication passes through communication unit, the controller realizes, communication unit integration has big dipper antenna, big dipper module and communication unit power supply system, big dipper antenna is responsible for receiving and launching big dipper message, big dipper module carries out modem to the big dipper message of sending with receiving, the controller includes main lamp controller and is equipped with the lamp controller, send to big dipper module after the lamp ware operating information packing that the controller will gather and modulate, and read big dipper module demodulation back information. Power supply system provides stable standard's operating voltage for big dipper module, the utility model discloses coverage is wider, can seamless the coverage in the unable region that covers of other communications. The utility model discloses a activestandby lamp integral structure, the acquiescence main light is luminous, and when the main light broke down unable normal during operation, lamp ware automatic switch-over was to the lamp work of being equipped with. The utility model discloses the commonality is high, and simple structure is practical, and is convenient small and exquisite, saves the lamp space, can be used to the unable coverage area of mobile communication signal and has the dual luminous guarantee of activestandby lamp, can be applicable to buoy and light beacon.

Description of the drawings:

fig. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is an electrical schematic block diagram of the present invention;

fig. 4 is an electrical schematic block diagram of the main lamp controller portion of the present invention;

fig. 5 is an electrical schematic block diagram of the backup lamp controller portion of the present invention;

fig. 6 is an electrical schematic block diagram of a communication unit portion of the present invention.

The specific implementation mode is as follows: the following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings:

as shown in fig. 1-fig. 2, a general fairway buoy flashing light ware of activestand lamp integration based on big dipper communication, it includes base 1, and the equipartition has 4 screw holes on the base 1, is used for inciting somebody to action the utility model discloses the lamp ware is fixed on buoy or light pile, and discharge valve 2 is installed to 1 lower extreme of base, and installation base 7 is connected through 4 spiral buckles in 1 upper end of base, adopts spiral buckle to make the lamp ware installation dismantle convenient, and the other design of one of them spiral buckle has the screw hole, has assembled the back when base 1 and installation base 7, through the screw fixation, prevents to become flexible. The installation base 7 is provided with main lamp cable holes 3, spare lamp cable holes 4, a main lamp day light valve 5 and a spare lamp day light valve 6 which are distributed annularly and uniformly on four sides. The main lamp cable hole 3 and the standby lamp cable hole 4 are centrosymmetric, and the main lamp daylight valve 5 and the standby lamp daylight valve 6 are centrosymmetric. The upper end of the mounting base 7 is provided with an inner annular groove and an outer annular groove, the inner annular groove of the mounting base 7 is used for fixing a main lamp light source heat dissipation column 9, the outer annular groove of the mounting base 7 is used for fixing a main lamp lens 8, the main lamp light source heat dissipation column 9 is fixed on a main lamp aluminum substrate through screws, and a main lamp light emitting diode is mounted on the main lamp aluminum substrate. The mounting base 7 can enable the centers of the main lamp lens 8 and the main lamp light source heat dissipation column 9 to be in the same horizontal position, ensure that the main lamp light emitting diode is positioned on the focus of the main lamp lens 8, and simultaneously fasten the main lamp light source heat dissipation column 9 and the main lamp lens 8. The main lamp light source adapter plate 10 is fixed above the main lamp lens 8, the upper end of the main lamp light source adapter plate 10 is provided with an inner annular groove and an outer annular groove, the inner annular groove of the main lamp light source adapter plate 10 is used for fixing the spare lamp light source heat dissipation column 11, the outer annular groove of the main lamp light source adapter plate 10 is used for fixing the spare lamp lens 12, the spare lamp light source heat dissipation column 11 is fixed with a spare lamp aluminum substrate through screws, and a spare lamp light emitting diode is installed on the spare lamp aluminum substrate. The main and standby lamp light source adapter plate 10 can make the centers of the standby lamp lens 12 and the standby lamp light source heat dissipation column 11 be in the same horizontal position, ensure that the standby lamp light emitting diode is positioned on the focus of the standby lamp lens 12, and simultaneously fasten the standby lamp light source heat dissipation column 11 and the standby lamp lens 12. A light source upper bracket 13 is arranged above the lamp-standby lens 12, the light source upper bracket 13 is used for fastening the lamp-standby light source radiating column 11 and the lamp-standby lens 12 and installing a lamp upper cover 14, and the lamp upper cover 14 is provided with a bird-preventing needle.

As shown in fig. 3, a main lamp controller 16 and a standby lamp controller 18 are installed inside the base 1 and the installation base 7, the main lamp controller 16 and the standby lamp controller 18 are connected through a warning wire 22, the main lamp controller 16 is connected with a power supply 15 through a main lamp cable hole 3, the standby lamp controller 18 is connected with the power supply 15 through a standby lamp cable hole 4, the main lamp controller 16 is connected with a main lamp 19 and a main lamp day light valve 5, and the standby lamp controller 18 is connected with a standby lamp 21 and a standby lamp day light valve 6. The communication unit 17 is installed in the inner space of the light source upper bracket 13 and the lamp upper cover 14, and the communication unit 17 is respectively connected with the main lamp controller 16, the standby lamp controller 18 and the power supply 15.

As shown in fig. 6, the communication unit 17 is integrated with a big dipper antenna 17-1, a big dipper module 17-2 and a communication unit power supply system 17-3, the power supply 15 is connected with the communication unit power supply system 17-3, the communication unit power supply system 17-3 converts the power supply 15 into a voltage at which the big dipper module 17-2 normally works, the communication unit power supply system 17-3 is connected with the big dipper module 17-2 to supply power to the communication unit power supply system, the big dipper module 17-2 is connected with the big dipper antenna 17-1, the big dipper antenna 17-1 is responsible for receiving the lamp control information packed into the big dipper message and sending the lamp operation information packed into the big dipper message, and the big dipper module 17-2 modulates and demodulates the sent and received big dipper message, wherein the big dipper message comprises the lamp control information and the lamp. The communication unit 17 transmits the Beidou message of the lamp control information processed by the Beidou module 17-2 to the main lamp controller 16 and the standby lamp controller 18 to realize remote control of the lamps. The main lamp controller 16 and the spare lamp controller 18 send collected lamp running information of the main lamp and the spare lamp to the communication unit 17, the Beidou module 17-2 in the communication unit 7 modulates the lamp running information and packs the modulated lamp running information into Beidou messages, and the Beidou messages are sent to users through the Beidou antenna 17-1, so that remote monitoring of the lamps is achieved.

As shown in fig. 4, the main lamp controller 16 includes a main lamp power conversion system 16-1, a main lamp MCU control unit 16-2 and a main lamp detection circuit 16-3, the main lamp 19 includes a main lamp LED driving circuit 19-1 and a main lamp lighting system 19-2, the power supply 15 is connected to the main lamp power conversion system 16-1 and the main lamp LED driving circuit 19-1 to supply power thereto, the main lamp power conversion system 16-1 converts the power supply 15 into a system normal operating voltage, and the main lamp power conversion system 16-1 is respectively connected to and supplies power to the main lamp MCU control unit 16-2, the main lamp detection circuit 16-3 and the main lamp daylight lamp 5. The main lamp MCU control unit 16-2 is respectively connected with the Beidou module 17-2, the main lamp detection circuit 16-3, the main lamp LED drive circuit 19-1 and the main lamp day light valve 5. The main light day light valve 5 detects the light information of the external environment and transmits the light information to the main light MCU control unit 16-2. The Beidou module 17-2 is connected with the main lamp MCU control unit 16-2 to realize information interaction between a user and a lamp. The main lamp MCU control unit 16-2 controls the main lamp LED drive circuit 19-1, and the main lamp LED drive circuit 19-1 controls the main lamp light-emitting system 19-2 to emit light. The main lamp detection circuit 16-3 is connected with the main lamp LED drive circuit 19-1, the main lamp detection circuit 16-3 is an analog quantity acquisition circuit which is composed of an analog quantity acquisition chip as a core and can detect the voltage and the current of the main lamp 19 and transmit the detected information to the main lamp MCU control unit 16-2. The main lamp light-emitting system 19-2 comprises a main lamp lens 8, a main lamp light source heat-radiating column 9, and a main lamp aluminum substrate and a main lamp light-emitting diode which are arranged on the main lamp light source heat-radiating column 9, wherein the main lamp LED driving circuit 19-1 takes an LED driving chip as a core and is connected with the main lamp light-emitting system 19-2 and the main lamp MCU control unit 16-2; the main lamp LED driving circuit 19-1 drives the main lamp LED to emit light, and meanwhile, the main lamp light source heat dissipation column 9 takes away heat generated by the operation of the main lamp LED. The main lamp lens 8 converts light emitted by the main lamp light-emitting diode into light beams with a vertical divergence angle not less than 7 degrees, and visual navigation is completed by observation of a navigation person. The main lamp detection circuit 16-3 obtains voltage and current information of the main lamp 19 by detecting the voltage and current of the power supply 15 flowing through the main lamp LED drive circuit 19-1 and transmits the voltage and current information to the main lamp MCU control unit 16-2, the main lamp MCU control unit 16-2 processes and packages the received lamp running state information and transmits the information to the Beidou module 17-2, the Beidou module 17-2 modulates the information into Beidou messages and transmits the Beidou messages to the user through the Beidou antenna 17-1, meanwhile, the lamp control information Beidou messages transmitted by the user are received through the Beidou antenna 17-1 of the communication unit 17 and then are demodulated by the Beidou module 17-2 and transmitted to the main lamp MCU control unit 16-2 to read the lamp control information, and then the main lamp light emitting diode of the main lamp 19 is controlled to emit light.

The main lamp LED drive circuit 19-1, the main lamp day light valve 5, the main lamp controller 16 and the communication unit 17 are all designed by adopting independent PCBs, and all the parts are connected through conducting wires.

When the main lamp works abnormally, the standby lamp controller 18 receives the abnormal information of the main lamp through the warning wire 22 and switches to the standby lamp working mode.

As shown in fig. 5, the backup lamp controller 18 includes a backup lamp power conversion system 18-1, a backup lamp MCU control unit 18-2, and a backup lamp detection circuit 18-3, the backup lamp 21 includes a backup lamp LED driving circuit 21-1 and a backup lamp light emitting system 21-2, the power supply 15 is connected to the backup lamp power conversion system 18-1 and the backup lamp LED driving circuit 21-1 to supply power thereto, the backup lamp power conversion system 18-1 converts the power supply 15 into a system normal operating voltage, and the backup lamp power conversion system 18-1 is connected to and supplies power to the backup lamp MCU control unit 18-2, the backup lamp detection circuit 18-3, and the backup lamp day light valve 6. The spare lamp MCU control unit 18-2 is respectively connected with the Beidou module 17-2, the spare lamp detection circuit 18-3, the spare lamp LED drive circuit 21-1 and the spare lamp day light valve 6. The standby lamp day light valve 6 detects the light information of the external environment and transmits the light information to the standby lamp MCU control unit 18-2. The Beidou module 17-2 is connected with the spare lamp MCU control unit 18-2 to realize information interaction between a user and a lamp device. The standby lamp MCU control unit 18-2 controls the standby lamp LED drive circuit 21-1, and the standby lamp LED drive circuit 21-1 controls the standby lamp light-emitting system 21-2 to emit light. The spare lamp detection circuit 18-3 is connected with the spare lamp LED drive circuit 21-1, the spare lamp detection circuit 18-3 is an analog quantity acquisition circuit which is composed of an analog quantity acquisition chip as a core and can detect the voltage and the current of the spare lamp 21 and transmit detected information to the spare lamp MCU control unit 18-2. The spare lamp light-emitting system 21-2 comprises a spare lamp lens 12, a spare lamp light source heat dissipation column 11, and a spare lamp aluminum substrate and a spare lamp light-emitting diode which are arranged on the spare lamp light source heat dissipation column 11, wherein the spare lamp LED driving circuit 21-1 takes an LED driving chip as a core and is connected with the spare lamp light-emitting system 21-2 and a spare lamp MCU control unit 18-2; the spare lamp LED driving circuit 21-1 drives the spare lamp light emitting diode to emit light, and meanwhile, the spare lamp light source heat dissipation column 11 takes away heat generated by the spare lamp light emitting diode during working. The spare lamp lens 12 converts light emitted by the spare lamp light emitting diode into light beams with a vertical divergence angle not less than 7 degrees, and visual navigation is completed by observation of a navigation person. The spare lamp detection circuit 18-3 obtains voltage and current information of the spare lamp 21 by detecting the voltage and current of the power supply 15 flowing through the spare lamp LED drive circuit 21-1 and transmits the voltage and current information to the spare lamp MCU control unit 18-2, the spare lamp MCU control unit 18-2 processes and packages the received lamp running state information and transmits the information to the Beidou module 17-2, the Beidou module 17-2 modulates the information into Beidou messages and transmits the Beidou messages to a user through the Beidou antenna 17-1, meanwhile, the lamp control information messages transmitted by the user are received through the Beidou antenna 17-1 of the communication unit 17 and then are demodulated by the Beidou module 17-2 and transmitted to the spare lamp MCU control unit 18-2 to read the lamp control information, and then the spare lamp light emitting diode of the spare lamp 21 is controlled to emit light.

The spare lamp LED driving circuit 21-1, the spare lamp day light valve 6, the spare lamp controller 18 and the communication unit 17 are all designed by independent PCBs, and all the parts are connected through conducting wires.

It should be understood that parts of the specification not set forth in detail are well within the prior art. The above embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and various modifications and improvements made by the technical solutions of the present invention by those skilled in the art are intended to fall within the scope of the present invention as defined by the claims.

Claims (4)

1. A master and standby lamp integrated universal navigation mark flashing lamp device based on Beidou communication comprises a base (1) evenly distributed with screw holes, wherein an exhaust valve (2) is installed at the lower end of the base (1), the upper end of the base (1) is connected with an installation base (7) through a spiral buckle, and the device is characterized in that main lamp cable holes (3), standby lamp cable holes (4), a main lamp day light valve (5) and a standby lamp day light valve (6) are evenly distributed in a ring shape on four sides of the installation base (7), a main lamp light source radiating column (9) and a main lamp lens (8) are respectively connected inside and outside the upper end of the installation base (7), the main lamp light source radiating column (9) is connected with a main lamp aluminum substrate, and a main lamp light emitting diode is connected on the main; a main lamp light source adapter plate (10) is fixed above the main lamp lens (8), the inside and the outside of the upper end of the main lamp light source adapter plate (10) are respectively connected with a standby lamp light source radiating column (11) and a standby lamp lens (12), the standby lamp light source radiating column (11) is connected with a standby lamp aluminum substrate, and a standby lamp light-emitting diode is connected on the standby lamp aluminum substrate; the spare lamp lens (12) is connected with a light source upper support (13), the light source upper support (13) is used for fastening the spare lamp light source heat dissipation column (11) and the spare lamp lens (12) and is connected with a lamp upper cover (14), and the lamp upper cover (14) is provided with a bird-proof needle; a main lamp controller (16) and a standby lamp controller (18) are arranged inside the base (1) and the mounting base (7), the main lamp controller (16) and the standby lamp controller (18) are connected through a warning lead (22), the main lamp controller (16) is connected with a power supply (15) through a main lamp cable hole (3), the standby lamp controller (18) is connected with the power supply (15) through a standby lamp cable hole (4), the main lamp controller (16) is connected with a main lamp (19) and a main lamp day light valve (5), and the standby lamp controller (18) is connected with a standby lamp (21) and a standby lamp day light valve (6); communication units (17) are arranged in the light source upper support (13) and the lamp device upper cover (14), and the communication units (17) are respectively connected with the main lamp controller (16), the standby lamp controller (18) and the power supply (15).

2. The integrated universal beacon flash lamp device for the main and standby lamps based on Beidou communication according to claim 1, characterized in that the communication unit (17) is integrated with a Beidou antenna (17-1), a Beidou module (17-2) and a communication unit power supply system (17-3), the power supply (15) is connected with the communication unit power supply system (17-3), the communication unit power supply system (17-3) is connected with the Beidou module (17-2), and the Beidou module (17-2) is connected with the Beidou antenna (17-1); the main lamp controller (16) comprises a main lamp power supply conversion system (16-1), a main lamp MCU control unit (16-2) and a main lamp detection circuit (16-3), the main lamp (19) comprises a main lamp LED drive circuit (19-1) and a main lamp light-emitting system (19-2), the power supply (15) is connected with the main lamp power supply conversion system (16-1) and the main lamp LED drive circuit (19-1), and the main lamp power supply conversion system (16-1) is respectively connected with the main lamp MCU control unit (16-2), the main lamp detection circuit (16-3) and the main lamp day light valve (5); the main lamp MCU control unit (16-2) is respectively connected with the Beidou module (17-2), the main lamp detection circuit (16-3), the main lamp LED drive circuit (19-1) and the main lamp day light valve (5); the Beidou module (17-2) is connected with the main lamp MCU control unit (16-2); the main lamp detection circuit (16-3) is connected with the main lamp LED drive circuit (19-1); the main lamp light-emitting system (19-2) comprises a main lamp lens (8), a main lamp light source heat-radiating column (9), and a main lamp aluminum substrate and a main lamp light-emitting diode which are arranged on the main lamp light source heat-radiating column (9), wherein a main lamp LED driving circuit (19-1) is connected with the main lamp light-emitting system (19-2) and a main lamp MCU control unit (16-2); the backup lamp controller (18) comprises a backup lamp power conversion system (18-1), a backup lamp MCU control unit (18-2) and a backup lamp detection circuit (18-3), the backup lamp (21) comprises a backup lamp LED drive circuit (21-1) and a backup lamp light-emitting system (21-2), a power supply (15) is connected with the backup lamp power conversion system (18-1) and the backup lamp LED drive circuit (21-1), and the backup lamp power conversion system (18-1) is connected with the backup lamp MCU control unit (18-2), the backup lamp detection circuit (18-3) and a backup lamp day light valve (6); the spare lamp MCU control unit (18-2) is respectively connected with the Beidou module (17-2), the spare lamp detection circuit (18-3), the spare lamp LED drive circuit (21-1) and the spare lamp day light valve (6); the Beidou module (17-2) is connected with the standby lamp MCU control unit (18-2); the spare lamp detection circuit (18-3) is connected with a spare lamp LED drive circuit (21-1); the standby lamp light-emitting system (21-2) comprises a standby lamp lens (12), a standby lamp light source heat-radiating column (11), and a standby lamp aluminum substrate and a standby lamp light-emitting diode on the standby lamp light source heat-radiating column (11), wherein a standby lamp LED driving circuit (21-1) is connected with the standby lamp light-emitting system (21-2) and a standby lamp MCU control unit (18-2).

3. The integrated universal beacon flashing light device of the main and standby lamps based on the Beidou communication according to claim 1, wherein the main lamp cable hole (3) and the standby lamp cable hole (4) are centrosymmetric, and the main lamp day light valve (5) and the standby lamp day light valve (6) are centrosymmetric.

4. The integrated universal beacon flash lamp device for the main and standby lamps based on Beidou communication according to claim 1, wherein an inner annular groove and an outer annular groove are formed in the upper end of the mounting base (7), the inner annular groove of the mounting base (7) is used for fixing a main lamp light source heat dissipation column (9), the outer annular groove of the mounting base (7) is used for fixing a main lamp lens (8), the inner annular groove and the outer annular groove are formed in the upper end of the main and standby lamp light source adapter plate (10), the inner annular groove of the main and standby lamp light source adapter plate (10) is used for fixing a standby lamp light source heat dissipation column (11), and the outer annular groove of the main and standby lamp light source adapter plate (10) is used for fixing a standby lamp lens (12).

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