CN216927812U - Wind-solar complementary traffic warning lamp - Google Patents

Abstract

The utility model discloses a wind-solar complementary traffic warning lamp, which is a warning support arranged in the center of a road and comprises a warning lamp body, a storage battery, a solar panel, wind power generation components positioned on two sides of the warning lamp body and a connecting component fixed at the bottom of the warning lamp body, wherein the wind power generation components and the solar panel can supply power for the storage battery to supply power for the warning lamp body to run, each wind power generation component comprises a vertical axis wind driven generator and arc-shaped air guide plates positioned on two sides of the warning lamp body, and each arc-shaped air guide plate can shield a leeward side corresponding to the vertical axis wind driven generator and form an air guide surface corresponding to a windward side. When the automobile passes through the traffic warning lamp, the driving wind blows the vertical axis wind driven generator to generate electricity, and the arc-shaped wind deflector blocks the driving wind from blowing to the leeward side of the vertical axis wind driven generator and guides the driving wind to the windward side of the vertical axis wind driven generator so as to improve the wind power generation efficiency of the traffic warning lamp.

Description

Wind-solar complementary traffic warning lamp

Technical Field

The utility model belongs to the field of warning lamps, and particularly relates to a wind-solar complementary traffic warning lamp.

Background

In order to reduce the occurrence rate of automobile accidents, a traffic warning light is often installed on a warning support in the center of a road to remind a driver of driving cautiously.

The existing traffic warning lamp is usually powered by an external power supply, and the traffic warning lamp powered by solar energy is also relatively common. Because windy weather appears occasionally, the traffic warning light often can not adopt wind power generation in view of the stability of power supply. The traffic warning lamp adopting wind-solar complementation is extremely rare, and the wind power generation efficiency of the traffic warning lamp adopting wind-solar complementation is extremely low because windless weather is usually adopted in many places.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects, the utility model provides the wind-solar complementary traffic warning lamp, when an automobile runs on a road, driving wind can be generated, when the automobile passes through the traffic warning lamp, the driving wind blows the vertical axis wind driven generator to generate power, the arc-shaped wind deflector blocks the driving wind from blowing to the leeward side of the vertical axis wind driven generator and guides the driving wind to the windward side of the vertical axis wind driven generator so as to improve the wind power generation efficiency of the traffic warning lamp, and meanwhile, solar power generation is adopted to ensure the power generation stability of the traffic warning lamp.

The utility model is realized by the following technical scheme:

the utility model provides a complementary traffic warning light of scene, installs in the warning support of road central authorities, including warning lamp body, battery, solar panel, be located the wind power generation subassembly of warning lamp body both sides and be fixed in the coupling assembling of warning lamp body bottom, the wind power generation subassembly can be used for supplying with the warning lamp body operation for the battery power supply with solar panel homoenergetic, the warning lamp body warns people through the scintillation, the traffic warning light is connected fixedly through coupling assembling with the warning support. The wind power generation assembly comprises vertical axis wind power generators and arc-shaped air deflectors, wherein the vertical axis wind power generators and the arc-shaped air deflectors are positioned on two sides of the warning lamp body.

The vertical axis wind driven generators are provided with windward sides and leeward sides, the vertical axis wind driven generators obtain power by means of differences of windward resistance and leeward resistance, and the larger the difference is, the higher the power generation efficiency of the vertical axis wind driven generators is. Each arc-shaped air deflector can shield the leeward side of the corresponding vertical axis wind driven generator and form an air guide surface corresponding to the windward side. The arc-shaped air deflector guides wind originally blowing to the leeward side of the vertical axis wind driven generator to the windward side of the vertical axis wind driven generator, reduces the resistance of the leeward side, increases the power of the windward side and improves the power generation efficiency of the vertical axis wind driven generator.

Furthermore, first sliding grooves are formed in the two sides of the warning lamp body, a first sliding plate fixedly connected with the arc-shaped air guide plate is arranged in each first sliding groove, and the first sliding plates can slide along the first sliding grooves. When the wind direction changes, the windward side and the leeward side of the vertical axis wind driven generator change to be vertical to the wind direction along with the wind direction. The first sliding plate slides along the first sliding groove, so that the arc-shaped air guide plate is driven to stretch out and draw back to a certain extent from the warning lamp body, the length of the arc-shaped air guide plate extending out of the warning lamp body is adjusted, the arc-shaped air guide plate can completely shield the leeward side of the vertical axis wind driven generator to a certain extent, and the application range of high-efficiency wind power generation of the traffic warning lamp to wind direction is expanded.

Furthermore, both sides of the warning lamp body are provided with supporting plates connected with the vertical axis wind driven generator. The vertical axis wind driven generators on two sides of the warning lamp body are fixed on the warning lamp body through the supporting plate, and it needs to be noted that the supporting plate does not limit the rotation of the vertical axis wind driven generators.

Furthermore, the tops of the supporting plates on the two sides are respectively provided with a rotation stopping rod, and the rotation stopping rods are hinged to the supporting plates. When the wind speed is too high, the rotation stopping rod rotates to the vertical state along the supporting plate to stop the operation of the vertical axis wind driven generator, and the vertical axis wind driven generator is prevented from being damaged due to the fact that the rotating speed of the vertical axis wind driven generator is too high.

Furthermore, a second sliding groove is formed in the two sides of the warning lamp body, and the supporting plate can slide along the second sliding groove. When the warning lamp is used, the supporting plate slides along the second sliding groove to the maximum extension length and then is fixed, so that the side panel of the warning lamp body is prevented from shielding wind and blocking the normal operation of the vertical axis wind driven generator fixed on the supporting plate; when the wind power generation device is stored, the supporting plate slides to the vertical shaft wind driven generator along the second sliding groove to be abutted against the side panel of the warning lamp body, and the storage space is saved.

Further, the third sliding tray has been seted up to warning lamp body bottom, and coupling assembling can slide along the third sliding tray. The traffic warning lamp is connected with the warning support through the connecting assembly, and a third sliding groove for the connecting assembly to slide is formed in the warning lamp body, so that the fixing range of the warning lamp body on the warning support is enlarged.

Further, coupling assembling includes the third sliding plate and is fixed in the sleeve of third sliding plate bottom, and the third sliding plate can slide along the third sliding tray, and threaded hole has been seted up to sleeve one side, and threaded hole one side swing joint has fastening bolt. The column body part of the warning support is inserted into the sleeve, and the fastening bolt is locked to fix the column body part of the warning support and the sleeve.

Further, all be provided with four lamp plates around the warning lamp body, each lamp plate all is equipped with a plurality of LED lamp pearls. Each warning lamp plate independent control, controlling means can control the LED lamp pearl on each warning lamp plate and shine and go out so that the warning lamp plate demonstrates different typefaces.

Further, the traffic warning lamp is connected with the warning support through the connecting assembly. Different connecting devices are adopted to connect the traffic warning lamp to the warning support according to different warning supports and different warning environments.

Further, the solar panel is a polysilicon solar panel. The polycrystalline silicon solar panel is adopted, so that the light transmission is good, the sealing performance is good, and the cost is low.

Drawings

FIG. 1 is a schematic connection diagram illustrating an exemplary embodiment of a wind-solar hybrid traffic warning light of the present invention;

FIG. 2 is a schematic diagram illustrating an exemplary embodiment of a wind-solar hybrid traffic warning light of the present invention;

FIG. 3 is a partially enlarged view of the portion A in FIG. 2;

FIG. 4 illustrates a top view of an exemplary embodiment of a wind-solar hybrid traffic warning lamp in accordance with the present invention;

FIG. 5 illustrates a bottom view of an exemplary embodiment of a wind-solar hybrid traffic warning light of the present invention;

FIG. 6 is a front view of an exemplary embodiment of a wind-solar hybrid traffic warning light of the present invention;

FIG. 7 is a side view of an exemplary embodiment of a wind-solar hybrid traffic warning light of the present invention.

Reference numerals:

1. warning lamp body, 11, first sliding tray, 12, first sliding plate, 13, backup pad, 131, rotation stopping rod, 14, second sliding tray, 15, third sliding tray, 16, lamp plate, 2, solar panel, 3, wind power generation subassembly, 31, vertical axis aerogenerator, 311, windward side, 312, leeward side, 32, arc aviation baffle, 321, wind guide surface, 4, coupling assembling, 41, third sliding plate, 42, the sleeve, 421, the screw hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms of orientation such as left, right, up, down, front and back in the embodiments of the present invention are only relative concepts or are referred to a normal use state of the product, i.e., a traveling direction of the product, and should not be considered as limiting.

In addition, the dynamic terms such as "relative movement" mentioned in the embodiments of the present invention include not only a positional change but also a movement in which a state changes without a relative change in position such as rotation or rolling.

Finally, it is noted that when an element is referred to as being "on" or "disposed" to another element, it can be on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

The wind-solar hybrid traffic warning lamp comprises a warning lamp body 1, a storage battery, a solar panel 2, wind power generation assemblies 3 and a connecting assembly 4, wherein the wind power generation assemblies 3 are positioned on two sides of the warning lamp body 1, the connecting assembly 4 is fixed at the bottom of the warning lamp body 1, the wind power generation assemblies 3 and the solar panel 2 can supply power to the storage battery to supply power to the warning lamp body 1 to operate, the warning lamp body 1 gives a warning to people through flashing, and the traffic warning lamp and the warning support are fixedly connected through the connecting assembly 4. The wind power generation assembly 3 comprises a vertical axis wind power generator 31 and an arc-shaped wind deflector 32 which are positioned at two sides of the warning lamp body 1.

Each vertical axis wind turbine 31 has a windward side 311 and a leeward side 312, and the vertical axis wind turbine 31 obtains power by the difference between the resistance of the windward side 311 and the resistance of the leeward side 312, and the larger the difference is, the higher the power generation efficiency of the vertical axis wind turbine 31 is. Each arc-shaped air deflector 32 can shield the leeward side 312 of the corresponding vertical axis wind turbine 31, and form an air guiding surface 321 corresponding to the windward side 311. The arc-shaped air deflector 32 guides the wind originally blowing to the leeward side 312 of the vertical axis wind turbine 31 to the windward side 311 of the vertical axis wind turbine 31, reduces the resistance of the leeward side 312, increases the power of the windward side 311, and improves the power generation efficiency of the vertical axis wind turbine 31.

In one embodiment, the traffic warning light is arranged in the center of the road, the two sides of the traffic warning light are both fast lanes, driving wind is generated near a fast-running vehicle, and when the vehicle passes through the traffic warning light, the driving wind blows the vertical axis wind driven generator 31 to generate electricity, so that wind energy generated when the vehicle runs is effectively utilized, and the wind power generation efficiency is improved.

In an embodiment, since the traffic warning light is disposed in the center of the road, the two sides of the traffic warning light are both the expressway lanes, the driving directions of the vehicles on the expressway lanes on the two sides are opposite, but the driving wind generated by the vehicles on the two sides can respectively drive the vertical axis wind turbine 31 on the corresponding side to rotate.

Preferably, first sliding grooves 11 are formed in two sides of the warning lamp body 1, a first sliding plate 12 fixedly connected with the arc-shaped air deflector 32 is arranged in each first sliding groove 11, and the first sliding plate 12 can slide along the first sliding grooves 11. When the wind direction changes, the windward side 311 and the leeward side 312 of the vertical axis wind turbine 31 change with the wind direction to be perpendicular to the wind direction. The first sliding plate 12 slides along the first sliding groove 11, and then drives the arc-shaped air deflector 32 to be capable of stretching out and drawing back to a certain extent from the warning lamp body 1, and by adjusting the length of the arc-shaped air deflector 32 extending out of the warning lamp body 1, the arc-shaped air deflector 32 is ensured to be capable of completely shielding the leeward side 312 of the vertical axis wind driven generator 31 to a certain extent, so that the application range of the high-efficiency wind power generation of the traffic warning lamp to the wind direction is expanded.

Preferably, the warning lamp body 1 is provided with support plates 13 on both sides for connecting the vertical axis wind turbine 31. The support plate 13 fixes the vertical axis wind turbines 31 at two sides of the warning lamp body 1 on the warning lamp body 1, and it should be noted that the support plate 13 does not limit the rotation of the vertical axis wind turbines 31.

Preferably, the rotation stopping rods 131 are mounted on the tops of the two side supporting plates 13, and the rotation stopping rods 131 are hinged to the supporting plates 13. When the wind speed is too high, the rotation stopping rod 131 rotates along the support plate 13 to the vertical state to stop the operation of the vertical axis wind turbine 31, and prevent the vertical axis wind turbine 31 from being damaged due to the too fast rotation speed of the vertical axis wind turbine 31.

Preferably, the warning lamp body 1 is provided with second sliding grooves 14 inside two sides, and the support plate 13 can slide along the second sliding grooves 14. When in use, the support plate 13 is fixed after sliding along the second sliding groove 14 to the maximum extension length, so as to prevent the side panel of the warning lamp body 1 from blocking the wind and preventing the normal operation of the vertical axis wind driven generator 31 fixed on the support plate 13; when the warning lamp is stored, the supporting plate 13 slides to the vertical axis wind driven generator 31 along the second sliding groove 14 to be abutted against the side panel of the warning lamp body 1, so that the storage space is saved.

In one embodiment, when the weather of a storm occurs, the supporting plate 13 slides along the second sliding groove 14 until the vertical axis wind driven generator 31 abuts against the side panel of the warning lamp body 1, so that the supporting plate 13 or the vertical axis wind driven generator 31 is prevented from being damaged by the storm, and the traffic warning lamp is protected.

Preferably, the bottom of the warning lamp body 1 is provided with a third sliding groove 15, and the connecting assembly 4 can slide along the third sliding groove 15. The traffic warning lamp is connected with the warning support through the connecting assembly 4, the third sliding groove 15 for the connecting assembly 4 to slide is formed in the warning lamp body 1, and the fixing range of the warning lamp body 1 on the warning support is enlarged.

Preferably, the connecting assembly 4 includes a third sliding plate 41 and a sleeve 42 fixed to the bottom of the third sliding plate 41, the third sliding plate 41 can slide along the third sliding groove 15, a threaded hole 421 is opened on one side of the sleeve 42, and a fastening bolt is movably connected to one side of the threaded hole 421. The cylindrical portion of the warning bracket is inserted into the interior of the sleeve 42, and the fastening bolt is tightened to fix the cylindrical portion of the warning bracket to the sleeve 42.

Preferably, warning lamp body 1 all is provided with four lamp plates 16 around, and each lamp plate 16 all is equipped with a plurality of LED lamp pearls. Each warning lamp plate 16 independent control, controlling means can control the LED lamp pearl on each warning lamp plate 16 and shine and go out so that warning lamp plate 16 demonstrates different typefaces.

Preferably, the traffic warning lamp is connected with the warning bracket through the connecting component 4. Different connecting devices are adopted to connect the traffic warning lamp to the warning support according to different warning supports and different warning environments.

Preferably, the solar panel 2 is a polycrystalline silicon solar panel 2. By adopting the polycrystalline silicon solar panel 2, the light transmission is good, the sealing performance is good and the cost is low.

In one embodiment, the vehicle travels on the road and generates a driving wind that blows the vertical axis wind turbine 31 near the vehicle to generate electricity. The arc-shaped wind deflector 32 blocks wind that would otherwise be blown onto the leeward side 312 of the vertical axis wind turbine 31 and guides the wind to the windward side 311 of the vertical axis wind turbine 31 through the wind guide surface 321, thereby improving the wind power generation efficiency of the vertical axis wind turbine 31.

When the traffic warning lamp with the wind-solar hybrid is adopted, a vehicle can generate driving wind when the vehicle runs on a road, when the vehicle passes through the traffic warning lamp, the driving wind blows the vertical axis wind driven generator 31 to generate power, the arc-shaped wind deflector 32 blocks the driving wind from blowing to the leeward side 312 of the vertical axis wind driven generator 31 and guides the driving wind to the windward side 311 of the vertical axis wind driven generator 31 so as to improve the wind power generation efficiency of the traffic warning lamp, and meanwhile, the solar power generation is adopted to ensure the power generation stability of the traffic warning lamp.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. The wind-solar hybrid traffic warning lamp is characterized by comprising a warning lamp body, a storage battery, a solar panel, wind power generation components and a connecting component, wherein the wind power generation components are positioned on two sides of the warning lamp body, the connecting component is fixed at the bottom of the warning lamp body, the wind power generation components and the solar panel can supply power to the storage battery to supply power to the warning lamp body to operate, the wind power generation components comprise vertical axis wind power generators and arc-shaped air guide plates, the vertical axis wind power generators are positioned on two sides of the warning lamp body, each vertical axis wind power generator is provided with a windward side and a leeward side, and each arc-shaped air guide plate can shield the leeward side corresponding to the vertical axis wind power generator and form an air guide surface corresponding to the windward side.

2. The wind-solar hybrid traffic warning lamp according to claim 1, wherein first sliding grooves are formed in two sides of the warning lamp body, a first sliding plate fixedly connected with the arc-shaped air deflector is arranged in each first sliding groove, and the first sliding plate can slide along the first sliding grooves.

3. The wind-solar hybrid traffic warning lamp according to claim 1, wherein support plates connected with the vertical axis wind turbine are arranged on two sides of the warning lamp body.

4. The wind-solar hybrid traffic warning lamp according to claim 3, wherein the top of each of the two supporting plates is provided with a rotation stopping rod, and the rotation stopping rods are hinged to the supporting plates.

5. The wind-solar hybrid traffic warning lamp according to claim 3, wherein second sliding grooves are formed in two sides of the warning lamp body, and the supporting plate can slide along the second sliding grooves.

6. The wind-solar hybrid traffic warning lamp according to claim 1, wherein a third sliding groove is formed in the bottom of the warning lamp body, and the connecting assembly can slide along the third sliding groove.

7. The wind-solar hybrid traffic warning lamp according to claim 6, wherein the connecting assembly comprises a third sliding plate and a sleeve fixed at the bottom of the third sliding plate, the third sliding plate can slide along the third sliding groove, a threaded hole is formed in one side of the sleeve, and a fastening bolt is movably connected to one side of the threaded hole.

8. The wind-solar hybrid traffic warning lamp according to claim 1, wherein four lamp panels are arranged at the front and the rear of the warning lamp body, and each lamp panel is provided with a plurality of LED lamp beads.

9. The wind-solar hybrid traffic warning lamp according to claim 1, wherein the traffic warning lamp is connected to the warning bracket through a connecting assembly.

10. The wind-solar hybrid traffic warning light of claim 1, wherein the solar panel is a polysilicon solar panel.

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