CN210035321U - Solar low-light-intensity top-lighting duplex aviation obstruction light - Google Patents

Abstract

The utility model discloses a solar low-light-intensity top-lighting duplex aviation obstruction light; the LED lamp comprises a lamp holder, a solar panel, a connecting bracket, an LED driving power supply device and two low-light-intensity top-emitting light source assemblies; the lamp holder comprises a base and a lamp stand, and the base and the lamp stand are integrally formed; the solar cell panel is fixedly arranged beside the lamp holder through the connecting bracket; the LED driving power supply device is fixedly arranged in the base; the two low-light-intensity top-emitting light source assemblies are arranged on the lamp stand in parallel. The effect is as follows: two low-light intensity top luminous light source subassemblies that set up can be used interchangeably for can prolong greatly the utility model discloses whole life, and when one of them low-light intensity top luminous light source subassembly is bad to fall, another low-light intensity top luminous light source subassembly then can the emergency use, make the utility model discloses use the good reliability, adopt solar cell panel to absorb light energy and turn into the electric energy with light energy and come the power supply for two low-light intensity top luminous light source subassemblies, make energy-concerving and environment-protective, and then, the utility model discloses excellent in use effect.

Description

Solar low-light-intensity top-lighting duplex aviation obstruction light

Technical Field

The utility model relates to the technical field of lamps and lanterns, specifically say, relate to a solar energy low light intensity top luminescence pair aviation obstruction beacon.

Background

Aviation Obstruction light, as the name implies, is a light fixture used in Aviation to alert airline obstacles. According to the national standard, the high-rise building with the top higher than the ground by more than 45 meters must be provided with the aviation obstruction light. In order to distinguish from the general-purpose illuminating lamp, the aviation obstruction light is not normally on but is flashing, the low-light-intensity aviation obstruction light is normally on, the medium-light-intensity aviation obstruction light and the high-light-intensity aviation obstruction light are flashing, and the flashing frequency is not lower than 20 times per minute and not higher than 70 times per minute. The function of the aviation obstruction light is to display the outline of a structure, so that an aircraft operator can judge the height and the outline of the obstruction to assist in safe driving.

To the low light intensity aviation obstruction beacon among the prior art, its lamp holder is generally single, and it generally all supplies power through building floor power equipment, and it is used extensively, but it still has certain defect and not enough.

Particularly, on the one hand, its lamp holder is generally single, when LED luminescence chip burns out in its lamp holder, it then can't normal use immediately, at this moment, then need dismantle the change with whole lamp holder, make waste time and energy and can not be emergent, on the other hand, when building floor power equipment falls and can not supply power because of trouble etc. bad, corresponding barrier lamp then can't normally work, make can influence aircraft operator's safe operation flight, and, when supplying power to it through building floor power equipment, still need the wiring, make complex operation.

Thus, the prior art is in need of improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the not enough of above-mentioned prior art and provide a pair aviation obstruction beacon is sent out on low light intensity top of solar energy.

The utility model provides a technical scheme that prior art problem adopted is: a solar low-light-intensity top-lighting duplex aviation obstruction light comprises a light holder, a solar panel, a connecting bracket, an LED driving power supply device connected with the solar panel and two low-light-intensity top-lighting light source assemblies respectively connected with the LED driving power supply device;

the lamp holder comprises a base positioned at the lower part and a lamp platform positioned at the upper part, and the base and the lamp platform are integrally formed; the solar cell panel is fixed beside the lamp holder through the connecting bracket; the LED driving power supply device is fixedly arranged in the base; the two low-light-intensity top-emitting light source components are fixedly arranged on the top surface of the lamp stand in parallel.

The above technical solution is further described as follows:

preferably, the device further comprises a fixed mounting plate for mounting the two low-light-intensity top-emitting light source components;

the fixed mounting plate is horizontally and fixedly arranged on the upper end surface of the lamp platform, and two ends of the fixed mounting plate correspondingly extend to two sides of the upper end surface of the lamp platform; two ends of the fixed mounting plate are respectively provided with a mounting opening from top to bottom, and the bottoms of the two low-light-intensity top-emitting light source components are correspondingly inserted and fixed in the two mounting openings at the two ends of the fixed mounting plate.

Preferably, the two low-light-intensity top-emitting light source assemblies respectively comprise a long cylindrical lamp housing, an LED light source plate, a light-transmitting top cover and a wiring terminal;

the upper ends of the two long cylindrical lamp shells are both formed into openings, and the lower ends of the two long cylindrical lamp shells are both provided with wire passing openings; a plurality of low-light-intensity LED light-emitting chips are welded on the upper surfaces of the two LED light source boards, and the two LED light source boards are correspondingly arranged in the open mouths at the upper ends of the two long tubular lamp shells; the two light-transmitting top covers are correspondingly covered outside the openings at the upper ends of the two long cylindrical lamp shells and are correspondingly fixed with the outer walls of the openings at the upper ends of the two long cylindrical lamp shells through fastening bolts; the upper ends of the two wiring terminals are respectively connected with the two LED light source boards, and the lower ends of the two wiring terminals are LED out from the two wire passing ports correspondingly.

Preferably, two power interfaces connected with the LED driving power supply device in the base are oppositely arranged on the side surface of the lamp stand, and the two power interfaces are correspondingly positioned on two sides of the lower bottom surface of the fixed mounting plate; the two wiring terminals are correspondingly connected with the two power interfaces in an inserting way.

Preferably, the base is formed into a square structure, and the size of the upper end face of the base is larger than the size of the outer periphery of the lamp stand;

the connecting bracket comprises a first connecting rod and a second connecting rod which are arranged in parallel; the first end of the first connecting rod and the first end of the second connecting rod are fixedly arranged on the upper end surface of the base through fastening bolts respectively; the second end of the first connecting rod and the second end of the second connecting rod are fixedly arranged on the lower bottom surface of the solar cell panel through fastening bolts respectively.

Preferably, the first end of the first connecting rod and the first end of the second connecting rod are correspondingly located at two sides of the lamp stand when being fixedly arranged on the upper end surface of the base through fastening bolts respectively.

Preferably, the second end of the first connecting rod and the second end of the second connecting rod are respectively bent downwards, so that an obtuse angle R is formed between the solar panel and the upper end surface of the base when the solar panel is fixedly connected.

Preferably, the obtuse angle R is 120 degrees.

Preferably, a double-control single-connection switch connected with the LED driving power supply device and used for controlling the two low-light-intensity top-emitting light source components to work alternately and a power supply interface used for being connected with the LED driving power supply device are arranged on the side surface of the base; the solar cell panel is connected with the power supply interface through an external power line.

Preferably, the bottom cover and the sealing gasket are further included;

the lower bottom surface of the base is formed into an opening, and the periphery of the lower end of the side surface of the base extends outwards to form a circle of convex part; a plurality of fixing holes penetrating through the lower bottom surface of the outer convex upper end surface are uniformly formed in the outer side of the outer convex upper end surface close to the outer side of the outer convex upper end surface downwards; a circle of limiting groove is formed on the outer convex lower bottom surface close to the inner side of the outer convex lower bottom surface in an upwardly concave mode, and the sealing washer is arranged in the limiting groove; the bottom cover is fixedly arranged on the lower convex bottom surface through fastening bolts so as to seal and cover the opening.

The utility model has the advantages that:

one of the solar low-light-intensity top-emitting duplex aviation obstruction light provided by the utility model is implemented, on one hand, on the basis of the traditional low-light-intensity aviation obstruction light, one low-light-intensity top-emitting light source component is additionally arranged, and the two low-light-intensity top-emitting light source components can be used interchangeably, so that the whole service life of the utility model can be greatly prolonged, and when one of the low-light-intensity top-emitting light source components is broken, the other low-light-intensity top-emitting light source component can be used in emergency, at the moment, the broken low-light-intensity top-emitting light source component can be synchronously disassembled and replaced for standby, so that the utility model has good use reliability, on the other hand, the utility model adopts a solar panel to absorb light energy and convert the light energy into electric energy to supply power to the two low-light-intensity top-emitting light source components, so that the sunlight light energy, the trouble of making save external power supply unit and laying interconnecting link and supplying power to it for the laborsaving and effectual saving power supply unit electric energy of ability of operation makes energy-concerving and environment-protective, and then, the utility model discloses the practicality is strong, excellent in use effect.

Its two, in this technical scheme, on the one hand, solar cell panel when being connected fixedly with be obtuse angle R between the base up end for the landing of the rainwater of being convenient for avoids ponding, makes it use good reliability, on the other hand, the seal ring of setting install in during the spacing groove, then can effectively keep apart the bottom with clearance under the evagination between the bottom surface makes corresponding LED drive power supply device is tearing open and is taking nature good time waterproof nature also better in the base, and, two that sets up the lightning rod can effectively prevent the utility model discloses suffer thunderbolt at thunderstorm weather, make the utility model discloses use better safe and reliable and life longer, and then, the utility model discloses a result of use can reach the best.

Drawings

Fig. 1 is a schematic view of the overall structure of a solar low-light-intensity top-emitting duplex aviation obstruction light;

fig. 2 is a schematic view of the overall structure of the solar low-intensity top-emitting duplex aviation obstruction light of the present invention;

fig. 3 is an exploded view of the solar low-intensity top-emitting duplex aviation obstruction light of the present invention;

fig. 4 is an exploded view of the solar low-intensity top-emitting duplex aviation obstruction light of the present invention;

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Reference numerals:

a solar low-light-intensity top-lighting duplex aviation obstruction light 1000;

a lamp socket 10;

a base 101; a double control simplex switch 1011; a power supply interface 1012; an outer protrusion 1013; a fixing hole 10131; a limit groove 10132; a lamp stand 102; a power interface 1021;

a solar cell panel 20;

a connecting bracket 30;

a first link 301; a second link 302;

an LED driving power supply device 40;

a low intensity top emitting light source assembly 50;

a cylindrical lamp housing 501; an opening 5011; line passing port 5012; a recessed step A5013; screw hole A5014; screw hole B5015; a locking bolt 5016; an LED light source board 502; the low light intensity LED light emitting chip 5021; via A5022; a light transmissive top cover 503; concave step B5031; an engaging lug 5032; via hole B5033; a connection terminal 504;

a fixed mounting plate 60;

a mounting opening 601; a sleeve 602;

a bottom cover 70;

a hollow stud 701;

a sealing gasket 80;

a lightning rod 90.

An inverted U-shaped fastener 100;

trepan 1001.

Detailed Description

The technical solutions of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments, so as to clearly and intuitively understand the inventive substance of the present invention.

Shown in conjunction with fig. 1, 2, 3 and 4;

the utility model provides a solar low-light-intensity top-lighting duplex aviation obstruction beacon 1000, which comprises a lamp holder 10, a solar panel 20, a connecting bracket 30, an LED driving power supply device 40 connected with the solar panel 20 and two low-light-intensity top-lighting light source assemblies 50 respectively connected with the LED driving power supply device 40;

the lamp holder 10 comprises a base 101 positioned at the lower part and a lamp platform 102 positioned at the upper part, wherein the base 101 and the lamp platform 102 are integrally formed; the solar panel 20 is fixed beside the lamp holder 10 through the connecting bracket 30; the LED driving power supply device 40 is fixedly arranged in the base 101; the two low-intensity top-emitting light source assemblies 50 are fixedly arranged on the top surface of the lamp stand 102 in parallel.

Based on the aforesaid, can clearly and clearly be, the utility model provides a luminous pair aviation obstruction beacon 1000 in solar energy low light intensity top, when concrete implementation, then mainly used for using as low light intensity aviation obstruction beacon.

On the one hand, the utility model discloses on traditional low light intensity aviation obstruction beacon basis, add more one low light intensity top luminous light source subassembly 50, two that set up low light intensity top luminous light source subassembly 50 can carry out periodic exchange and use for can prolong greatly the utility model discloses whole life.

And when one of them when low light intensity top light emitting light source subassembly 50 is bad, another low light intensity top light emitting light source subassembly 50 then can use emergently, at this moment, then can dismantle in step and change bad low light intensity top light emitting light source subassembly 50 is in order to be required, makes the utility model discloses use the good reliability.

On the other hand, the utility model discloses a solar cell panel 20 absorbs the light energy and turns into the electric energy with light energy and gives two low light intensity top light emitting light source subassembly 50 supplies power for sunlight light energy can obtain effective utilization, makes to save external power supply unit and lay interconnecting link and carry out the trouble of supplying power to it, makes the laborsaving operation and can effectual saving power supply unit electric energy, makes energy-concerving and environment-protective.

Furthermore, the utility model discloses the practicality is strong, excellent in use effect.

Preferably, in the present technical solution, the present invention further includes a fixing mounting plate 60 for mounting the two low-intensity top-emitting light source assemblies 50;

the fixed mounting plate 60 is horizontally and fixedly arranged on the upper end surface of the lamp platform 102 through a fastening bolt, and two ends of the fixed mounting plate 60 correspondingly extend to two sides of the upper end surface of the lamp platform 102; two ends of the fixed mounting plate 60 are respectively provided with a mounting opening 601 from top to bottom, and the bottoms of the two low-light-intensity top-emitting light source assemblies 50 are correspondingly inserted and fixed in the two mounting openings 601 at the two ends of the fixed mounting plate 60.

In addition, in the present technical solution, each of the two low-intensity top-emission light source assemblies 50 includes a long cylindrical lamp housing 501, an LED light source board 502, a transparent top cover 503 and a connection terminal 504;

the upper ends of the two long cylindrical lamp shells 501 are both formed into an opening 5011, and the lower ends of the two long cylindrical lamp shells are both provided with a wire passing opening 5012; a plurality of low-light-intensity LED light-emitting chips 5021 are welded on the upper surfaces of the two LED light source plates 502, and the two LED light source plates 502 are correspondingly arranged in openings 5011 at the upper ends of the two long tubular lamp housings 501; the two light-transmitting top covers 503 are correspondingly covered outside the openings 5011 at the upper ends of the two long cylindrical lamp shells 501 and are correspondingly fixed with the outer walls of the openings 5011 at the upper ends of the two long cylindrical lamp shells 501 through fastening bolts; the upper ends of the two wiring terminals 504 are respectively connected with the two LED light source boards 502, and the lower ends are LED out from the two wire through ports 5012.

Specifically, a concave step a5013 is respectively and downwardly arranged in an opening 5011 at the upper end of each of the two long cylindrical lamp housings 501, a plurality of screw holes a5014 are respectively and uniformly arranged at the inner bottom surface of each of the two concave steps a5013, the two LED light source boards 502 are correspondingly and fixedly clamped to the two concave steps a5013, a plurality of through holes a5022 opposite to the corresponding screw holes a5014 are respectively and downwardly and uniformly arranged on the upper end surfaces of the two LED light source boards 502, and the two LED light source boards 502 are correspondingly fixed to the two long cylindrical lamp housings 501 through the through holes a5022 penetrating the opposite positions and fastening screws penetrating the screw holes a 5014.

In addition, in implementation, concave steps B5031 are respectively and upwardly arranged at the inner edges of the open ports at the lower ends of the two light-transmitting top covers 503, a waterproof rubber ring (not shown) is respectively bonded to the inner top surfaces of the two concave steps B5031, and when the two light-transmitting top covers 503 correspondingly cover the open ports at the upper ends of the two long cylindrical lamp housings 501, the open ports at the upper ends of the two long cylindrical lamp housings 501 are correspondingly and fixedly clamped in the two concave steps B5031 by limiting and are correspondingly abutted against the two waterproof rubber rings (not shown); the periphery of the lower opening of the two transparent top covers 503 is respectively and uniformly provided with a plurality of connecting lugs 5032 downwards, the outer surfaces of the connecting lugs 5032 are respectively provided with a through hole B5033 penetrating through the inner surfaces thereof, the outer wall of the upper opening of the two long cylindrical lamp housings 501 is respectively and uniformly provided with a plurality of screw holes B5015 opposite to the corresponding through hole B5033, and the two transparent top covers 503 are respectively and correspondingly fixed with the two long cylindrical lamp housings 501 through fastening screws penetrating through the through holes B5033 and the screw holes B5015 at the opposite positions.

Thus, the two long cylindrical lamp housings 501 have no any circuit component or via hole for the circuit component to pass through on the side surface, so that the side surface has good waterproof performance, and the two LED light source boards 502 are convenient to disassemble and assemble and have good fixity, and the two transparent top covers 503 are convenient to disassemble and assemble and have good fixity.

When the lamp is implemented, the positions of the upper end surface of the fixed mounting plate 60 corresponding to the two mounting holes 601 are respectively and fixedly provided with a sleeve 602 integrally formed with the fixed mounting plate, the lower end wire passing holes 5012 of the two long cylindrical lamp shells 501 are correspondingly sleeved outside the two sleeve 602, the side surfaces of the two long cylindrical lamp shells 501 close to the lower end wire passing holes 5012 are respectively and uniformly and fixedly provided with a plurality of locking bolts 5016 screwed into the long cylindrical lamp shells 501, and the plurality of locking bolts 5016 are respectively abutted against the outer walls of the sleeve 602 at corresponding positions.

Therefore, on one hand, when the plurality of locking bolts 5016 are screwed down, even if the long cylindrical lamp housing 501 and the sleeve 602 are locked, so that the two low-intensity top emission light source assemblies 50 can be conveniently and quickly fixed, and a gap is inevitably reserved between the wire passing port at the lower end of the two long cylindrical lamp housings 501 and the outer walls of the two sleeve 602, so that heat dissipation is facilitated, and external rainwater can be effectively prevented from entering, on the other hand, when the plurality of locking bolts 5016 are unscrewed, even if the long cylindrical lamp housing 501 and the sleeve 602 are unlocked, so that the two low-intensity top emission light source assemblies 50 can be conveniently and quickly detached, therefore, the corresponding scheme is convenient and labor-saving to disassemble and assemble the two low-intensity top emission light source assemblies 50, and is convenient to maintain and replace.

In addition, in the present technical solution, two power interfaces 1021 connected to the LED driving power device 40 in the base 101 are oppositely disposed on the side surface of the lamp stand 102, and the two power interfaces 1021 are correspondingly located on two sides of the lower bottom surface of the fixed mounting plate 60; the two connection terminals 504 are correspondingly connected with the two power interfaces 1021 in a plugging manner.

Thereby, the two low-intensity top-emitting light source assemblies 50 are conveniently powered.

Furthermore, when the concrete implementation, the utility model discloses a base 101 shaping is square form structure, just base 101 up end size is greater than the outer peripheral edge size of lampstand 102, from this, even get the utility model discloses wholly appear as tower-shaped structure for very have third dimension and aesthetic feeling.

Based on this, in the present embodiment, the connecting bracket 30 includes a first connecting rod 301 and a second connecting rod 302 arranged in parallel; the first end of the first connecting rod 301 and the first end of the second connecting rod 302 are fixedly arranged on the upper end surface of the base 101 through fastening bolts respectively; the second end of the first link 301 and the second end of the second link 302 are respectively fixed to the lower bottom surface of the solar panel 20 by fastening bolts.

In addition, in the implementation, the first end of the first link 301 and the first end of the second link 302 are located at two sides of the lamp platform 102 when they are respectively fixed to the upper end surface of the base 101 by fastening bolts.

Since the first end of the first connecting rod 301 and the first end of the second connecting rod 302 are respectively fixed to the upper end surface of the base 101 by fastening bolts, and are correspondingly located at two sides of the lamp stand 102, the symmetry is good, and the support performance of the solar cell panel 20 fixed to the other end of the first connecting rod is good.

In addition, in this embodiment, in practical implementation, the second ends of the first link 301 and the second link 302 are respectively bent downward, so that the solar cell panel 20 forms an obtuse angle R with the upper end surface of the base 101 when being connected and fixed.

Therefore, rainwater on the upper surface of the water tank can conveniently slide off to avoid water accumulation, and the water tank is good in use reliability.

Preferably, in this embodiment, the obtuse angle R is 120 degrees, so that the solar cell panel 20 has a certain inclination, and when accumulated water can be guided away, the solar cell panel is arranged close to the horizontal direction, so that sunlight in all directions can be effectively absorbed, and the light energy absorption efficiency is high.

In addition, in the present embodiment, a dual-control single-couple switch 1011 connected to the LED driving power device 40 for controlling the two low-intensity top-emitting light source assemblies 50 to alternately operate and a power supply interface 1012 for connecting to the LED driving power device 40 are disposed on a side surface of the base 101; the solar panel 20 is connected to the power supply interface 1012 through an external power line.

From this, through controlling two accuse simply connected switch 1011, even if in control the utility model discloses work, through power supply interface 1012 can external power supply line connect solar cell panel 20 for the operation is simple and easy swift laborsaving.

Meanwhile, in the specific implementation, the utility model also comprises a bottom cover 70 and a sealing washer 80;

the bottom surface of the base 101 is formed to be open, and the periphery of the lower end of the side surface of the base 101 extends outwards to form a circle of convex 1013; a plurality of fixing holes 10131 penetrating through the lower bottom surface of the outer protrusion 1013 are uniformly formed on the upper end surface of the outer protrusion 1013 close to the outer side thereof downwards; a circle of limiting groove 10132 is concavely formed on the lower bottom surface of the outer protrusion 1013 close to the inner side of the outer protrusion, and the sealing washer 80 is arranged in the limiting groove 10132; the bottom cover 70 is fixedly mounted on the lower bottom surface of the outer protrusion 1013 by fastening bolts so as to hermetically cover the opening.

Therefore, when the sealing washer 80 is mounted in the limiting groove 10132, the gap between the bottom cover 70 and the lower bottom surface of the protrusion 1013 can be effectively isolated, so that the corresponding LED driving power supply device 40 in the base 101 has good waterproof performance.

In addition, in practical implementation, a lightning rod 90 integrally formed with the top of each of the two transparent top covers 503 is vertically and fixedly arranged on the top of each of the two transparent top covers.

From this, two that set up lightning rod 90 can effectively prevent the utility model discloses suffer the thunderbolt at thunderstorm weather, make the utility model discloses use better safe and reliable and life longer.

Furthermore, the utility model discloses an excellent in use effect can be reached.

It should be further added that, in the embodiment, the LED driving power supply device 40 is a common device in the prior art, and the power supply voltage and current of the two low-light-intensity LED light emitting chips 5021 are mainly controlled by the common device.

Furthermore, in the embodiment, the present invention further includes two inverted U-shaped fastening members 100 disposed side by side for fastening and fixing the LED driving power device 40, wherein the lower ends of the two inverted U-shaped fastening members 100 are respectively bent outward by ninety degrees and provided with a trepan 1001; the upper end of the bottom cover 70 is provided with a hollow stud 701, which is integrally formed with the bottom cover, at a position corresponding to the four trepanning 1001, and the inner diameter of the hollow stud 701 is matched with the inner diameter of the corresponding trepanning, and the two inverted U-shaped clamping pieces 100 are connected with the bottom cover 70 through the trepanning 1001 and the fastening bolt of the hollow stud 701, which are arranged at opposite positions in a penetrating manner, so that the LED driving power supply device 40 is clamped and fixed in the bottom cover, and therefore the LED driving power supply device 40 is good in installation and fixation and is not easy to loosen.

In addition, in the implementation, the lamp socket 10, the connecting bracket 30, the bottom cover 70 and the inverted U-shaped fastener 100 are made of metal, so that they are sturdy and durable and have long service life.

Other embodiments, etc., are not illustrated herein.

To sum up, the utility model has the advantages that the whole structure is simple, easy to implement, easy to operate, the practicality is strong, and the specificity is strong, and low in manufacturing cost all need not increase too many cost in the improvement of structure and technique, makes the utility model discloses must have fine market spreading value, the utility model discloses can very welcome, can effectively popularize.

The above only is the preferred embodiment of the present invention, not limiting the patent protection scope of the present invention, all the changes of the equivalent structure or equivalent flow path made by the contents of the specification and the drawings, or the direct or indirect application in other related technical fields, are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a solar energy low light intensity top lighting pair aviation obstruction beacon which characterized in that: the LED lamp comprises a lamp holder, a solar cell panel, a connecting bracket, an LED driving power supply device connected with the solar cell panel and two low-light-intensity top-emitting light source assemblies respectively connected with the LED driving power supply device;

the lamp holder comprises a base positioned at the lower part and a lamp platform positioned at the upper part, and the base and the lamp platform are integrally formed; the solar cell panel is fixed beside the lamp holder through the connecting bracket; the LED driving power supply device is fixedly arranged in the base; the two low-light-intensity top-emitting light source components are fixedly arranged on the top surface of the lamp stand in parallel.

2. The solar low-light-intensity top-emitting duplex aviation obstruction light of claim 1, wherein: the fixed mounting plate is used for mounting the two low-light-intensity top-emitting light source components;

the fixed mounting plate is horizontally and fixedly arranged on the upper end surface of the lamp platform, and two ends of the fixed mounting plate correspondingly extend to two sides of the upper end surface of the lamp platform; two ends of the fixed mounting plate are respectively provided with a mounting opening from top to bottom, and the bottoms of the two low-light-intensity top-emitting light source components are correspondingly inserted and fixed in the two mounting openings at the two ends of the fixed mounting plate.

3. The solar low-light-intensity top-emitting duplex aviation obstruction light of claim 2, wherein: the two low-light-intensity top-emitting light source assemblies respectively comprise a long cylindrical lamp shell, an LED light source plate, a light-transmitting top cover and a wiring terminal;

the upper ends of the two long cylindrical lamp shells are both formed into openings, and the lower ends of the two long cylindrical lamp shells are both provided with wire passing openings; a plurality of low-light-intensity LED light-emitting chips are welded on the upper surfaces of the two LED light source boards, and the two LED light source boards are correspondingly arranged in the open mouths at the upper ends of the two long tubular lamp shells; the two light-transmitting top covers are correspondingly covered outside the openings at the upper ends of the two long cylindrical lamp shells and are correspondingly fixed with the outer walls of the openings at the upper ends of the two long cylindrical lamp shells through fastening bolts; the upper ends of the two wiring terminals are respectively connected with the two LED light source boards, and the lower ends of the two wiring terminals are LED out from the two wire passing ports correspondingly.

4. The solar low-light-intensity top-emitting duplex aviation obstruction light of claim 3, wherein: two power interfaces connected with the LED driving power supply device in the base are oppositely arranged on the side surface of the lamp stand, and the two power interfaces are correspondingly positioned on two sides of the lower bottom surface of the fixed mounting plate; the two wiring terminals are correspondingly connected with the two power interfaces in an inserting way.

5. The solar low-light-intensity top-emitting duplex aviation obstruction light of claim 1, wherein: the base is formed into a square structure, and the size of the upper end face of the base is larger than the size of the outer periphery of the lamp stand;

the connecting bracket comprises a first connecting rod and a second connecting rod which are arranged in parallel; the first end of the first connecting rod and the first end of the second connecting rod are fixedly arranged on the upper end surface of the base through fastening bolts respectively; the second end of the first connecting rod and the second end of the second connecting rod are fixedly arranged on the lower bottom surface of the solar cell panel through fastening bolts respectively.

6. The solar low-light-intensity top-emitting duplex aviation obstruction light of claim 5, wherein: the first end of the first connecting rod and the first end of the second connecting rod are correspondingly positioned on two sides of the lamp stand when being fixedly arranged on the upper end surface of the base through fastening bolts respectively.

7. The solar low-light-intensity top-emitting duplex aviation obstruction light of claim 5, wherein: the second end of the first connecting rod and the second end of the second connecting rod are respectively bent downwards, so that an obtuse angle R is formed between the solar cell panel and the upper end face of the base when the solar cell panel is fixedly connected.

8. The solar low-light-intensity top-emitting duplex aviation obstruction light of claim 7, wherein: the obtuse angle R is 120 degrees.

9. The solar low-light-intensity top-emitting duplex aviation obstruction light of claim 1, wherein: the side surface of the base is provided with a double-control single-connection switch which is connected with the LED driving power supply device and is used for controlling the two low-light-intensity top-emitting light source components to work alternately and a power supply interface which is used for being connected with the LED driving power supply device; the solar cell panel is connected with the power supply interface through an external power line.

10. The solar low-light-intensity top-emitting duplex aviation obstruction light of any one of claims 1 to 9, wherein: the bottom cover and the sealing washer are also included;

the lower bottom surface of the base is formed into an opening, and the periphery of the lower end of the side surface of the base extends outwards to form a circle of convex part; a plurality of fixing holes penetrating through the lower bottom surface of the outer convex upper end surface are uniformly formed in the outer side of the outer convex upper end surface close to the outer side of the outer convex upper end surface downwards; a circle of limiting groove is formed on the outer convex lower bottom surface close to the inner side of the outer convex lower bottom surface in an upwardly concave mode, and the sealing washer is arranged in the limiting groove; the bottom cover is fixedly arranged on the lower convex bottom surface through fastening bolts so as to seal and cover the opening.

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